United States Solid Waste and EPA530-R-97-032
Environmental Protection Emergency Response NTIS: PB97-176 978
Agency (5305W) April 1997
&EPA Background Document
for Capacity Analysis
for Land Disposal
Restrictions - Phase IV
(Second Supplement):
Toxicity Characteristic
Metal Wastes and
Newly Identified Mineral
Processing Wastes
(Proposed Rule)
Printed on paper that contains at lest 20 percent postconsumer fiber
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50272-101
REPORT DOCUMENTATION |1. Report No.
PAGE |
| EPA530-R-97-032
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12.
4 Title and Subtitle
BACKGROUND DOCUMENT FOR CAPACITY ANALYSIS FOR LAND DISPOSAL RESTRICTIONS PHASE IV 16.
(SECOND SUPPLEMENT): TOXICITY CHARACTERISTIC METAL WASTES AND NEWLY IDENTIFIED MINERAL;
PROCESSING WASTES; PROPOSED |
| 5. Report Date
| APRIL 1997
7, Authors)
18. Performing Organization Rept No.
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9. Performing Organization Name and Address
US. EPA
OFFICE OF SOLID WASTE
401 M STREET, SW
WASHINGTON, DC 20460
110. ProjectfTask/Work Unit No,
111. Contract Cor Grant (G) No.
|©
I
1(0)
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12. Sponsoring Organization Name and Address
113. Type of Report & Period Covered
| TECHNICAL REPORT
114.
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15. Supplementary Notes
16. Abstract (Limit: 200 words)
PRESENTS THE CAPACITY ANALYSIS EPA CONDUCTED TO SUPPORT THE PROPOSED LAND DISPOSAL RESTRICTIONS (LDRS) - PHASE IV: ISSUES
ASSOCIATED WITH TREATMENT STANDARDS FOR NEWLY IDENTIFIED MINERAL PROCESSING WASTES AND TOXICITY CHARACTERISTIC METAL
WASTES. EVALUATES THE NEED FOR NATIONAL CAPACITY VARIANCES FROM LAND DISPOSAL PROHIBITIONS. PROVIDES ESTIMATES OF THE
THE LDRs AND ESTIMATES ALTERNATIVE COMMERCIAL TREATMENT AND RECOVERY CAPACITY AVAILABLE TO MANAGE WASTES RESTRICTED FROM
LAND DISPOSAL. DESCRIBES THE METHODOLOGY AND DATA USED TO DETERMINE AVAILABLE COMMERCIAL CAPACITY.
17. Document Analysis a. Descriptors
b. Identifien/Open-Ended Terms
C.COSATI Field Group
IX. Availability Statement
RELEASE UNLIMITED
119. Security Class (This Report) ] 21. No. of Pages
| UNCLASSIFIED 1 3flo
120. Security Class f Fhis Page) 122. Price
| UNCLASSIFIED |
(SeeANSI-Z39.1S)
OPTIONAL FORM 272 (4-77)
(Formerly NTIS-35)
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TABLE OF CONTENTS
Page
CHAPTER 1. INTRODUCTION 1-1
1.1 LEGAL BACKGROUND 1-1
1.2 CAPACITY ANALYSIS METHODOLOGY 1-3
1.2,1 Determination of Required Commercial Treatment Capacity... 1-4
1.2.2 Determination of Available Commercial Treatment Capacity 1-5
1.3 SUMMARY OF CAPACITY ANALYSIS FOR TODAY'S PROPOSED
RULE 1-5
1.4 ORGANIZATION OF BACKGROUND DOCUMENT SUPPORTING
THE CAPACITY ANALYSIS 1-7
CHAPTER 2. AVAILABLE TREATMENT CAPACITY 2-1
2.1 STABILIZATION CAPACITY 2-1
2.2 METAL RECOVERY CAPACITY 2-3
2.3 VITRIFICATION CAPACITY 2-5
2,4 WASTEWATER TREATMENT CAPACITY 2-6
2.5 COMMERCIAL COMBUSTION CAPACITY ....:. 2-10
2.1.1 General Methodology 2-10
2.1.2 Results 2-12
2.6 MIXED RCRA/RADIOACTWE WASTE CAPACITY 2-15
CHAPTER 3. CAPACITY ANALYSIS FOR TOXICITY CHARACTERISTIC METAL
WASTES 3-1
3.1 REGULATORY BACKGROUND..... 3-1
3.2 DATA SOURCES 3-3
3.2.1 Information from Background Documents Developed for the
Third Third Rulemaking 3-3 .
3.2.2 Comments from the ANPRM 3-3
3.2.3 Biennial Reporting System 3-3
3.2.4 Comments from the Original Phase IV LDR Proposed Rule
for TC Metal Wastes 3-3
3.2.5 Comments from the Phase IV Notice of Data Availability 3-3
3.3 WASTE GENERATION AND MANAGEMENT 3-4
3.4 SOIL AND DEBRIS CONTAMINATED WITH NEWLY IDENTIFIED
TC METAL WASTES 3-7
3.5 CAPACITY ANALYSIS 3-8
3.2 RESULTS 3-13
CHAPTER 4. CAPACITY ANALYSIS FOR NEWLY IDENTIFIED MINERAL
PROCESSING WASTES 4-1
4.1 REGULATORY BACKGROUND , 4-1
4.2 DATA SOURCES 4-2
4.2.1 ANPRM Comments 4-3
4.2.2 National Survey of Solid Waste from Mineral Processing
Facilities (RTI Survey) 4-3
4.2.3 Comments to Bevill Rules 4-4
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TABLE OF CONTENTS
4.2.4 EPA Sampling Data 4-4
4.2.5 RCRA §3007 Data (1989) 4-5
4.2.6 Data from Effluent Guidelines Development Documents 4-5
4.2.7 RCRA §3007 Data (1994) 4-5
4.2.8 Data Submitted by FMC Corporation 4-6
4.2.9 Data Submitted by Commenters in Response to the Supplemental
Proposed Phase IV Rule 4-6
4.2.10 Other Data Sources ., 4-6
4.3 METHODOLOGY AND ASSUMPTIONS 4-7
4.4 SOIL AND DEBRIS CONTAMINATED WITH NEWLY IDENTIFIED
MINERAL PROCESSING WASTES 4-18
4.5 MIXED RCRA/RADIOAdTVE WASTES 4-18
4.6 RESULTS 4-19
APPENDIX A Data on Available Stabilization Capacity
APPENDDC B Data on Available Vitrification Capacity
APPENDIX C Data on Available Wastewater Treatment Capacity
APPENDIX D 1993 BRS Data (GM Form-) - TC Metal Wastes Managed On-Site and Off-Site
APPENDDC E Mercury Recovery Services, Inc - Available Treatment Capacity Data
APPENDIX F Prior Treatment and No Prior Treatment Baseline and Options Data for Newly Identified
Mineral Processing Wastes
APPENDDC G FMC Corporation's Wastewater Treatment Capacity Analysis Data
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CHAPTER 1
INTRODUCTION
This document presents the capacity analysis that EPA conducted to support the proposed Land
Disposal Restrictions (LDRs) - Phase IV: Issues Associated with Treatment Standards for Newly
Identified Mineral Processing Wastes and Toxicity Characteristic Metal Wastes. EPA conducts capacity
analyses to evaluate the need for national capacity variances from the land disposal prohibitions.1 The
capacity analysis provides estimates of the quantities of wastes that will require alternative commercial
treatment prior to land disposal as a result of the LDRs and estimates alternative commercial treatment
capacity available to manage wastes restricted from land disposal. In this rule, EPA is proposing LDRs
for the newly identified mineral processing wastes and toxicity characteristic metal wastes listed and
identified since November 1984 that have not been covered in previous LDR rulemakings.
1.1 LEGAL BACKGROUND
The Hazardous and Solid Waste Amendments (HSWA) to the Resource Conservation and
Recovery Act (RCRA), enacted on November 8, 1984, set basic new priorities for hazardous waste
management. Land disposal, which had been the most widely used method for managing hazardous
waste, is now the least preferred option. Under HSWA, EPA must promulgate regulations restricting the
land disposal2 of hazardous wastes according to a strict statutory schedule. As of the effective date of
each regulation, land disposal of wastes covered by that regulation is prohibited unless (1) the waste
meets the treatment standards that have been established, or (2) it can be demonstrated that there will be
no migration of hazardous constituents from the disposal unit for as long as the waste remains hazardous.
Under the LDR Program, EPA must identify levels or methods of treatment that substantially
reduce the toxicity of a waste or the likelihood of migration of hazardous constituents from the waste.
Whenever possible, the Agency prefers to define treatment in terms of performance (i.e., maximum
acceptable concentrations of hazardous constituents in the treated waste or residuals), rather than in
terms of specific treatment methods, and thus provide the regulated community with flexibility in
complying with the LDRs. EPA's standards are generally based on the performance of the best
demonstrated available technology (BOAT) for that waste, as documented by treatment data collected at
well-designed and well-operated systems using that technology, or are based on data derived from the
treatment of similar wastes that are as difficult or more difficult to treat.
The LDRs are effective immediately upon promulgation unless the Agency grants a national
capacity variance from the statutory date because of a lack of available treatment capacity (see RCRA
section 3004(h)(2)), For every waste, EPA considers - on a national basis - both the capacity of
commercially available treatment technologies and the quantity of restricted wastes currently sent to land
disposal for which on-site treatment capacity is not available. If EPA determines that adequate
alternative commercial treatment capacity is available for a particular waste, the land disposal restriction
1 The LDRs are effective when promulgated unless the Administrator grants a national capacity variance from
the otherwise applicable date and establishes a different date (not to exceed two years beyond the statutory deadline)
based on: "... the earliest .date on which adequate alternative treatment, recovery, or disposal capacity which
protects human health and the environment will be available" (RCRA section 3004(h)(2)).
2 RCRA defines land disposal "to include, but not be limited to, any placement of such hazardous waste in a
landfill, surface impoundment, waste pile, injection well, land treatment facility, salt dome formation, salt bed
formation, or underground mine or cave" (RCRA section 3004(k)).
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is effective immediately. If not, the Agency establishes an alternative effective date based on the earliest
date on which adequate treatment capacity will be available or two years, whichever is less. During the
variance period, management of the wastes is still subject to 40 CFR 268.5 (h). Once the variance
expires, the wastes must meet the LDR treatment standards prior to being land disposed,
RCRA also allows generators to apply for extensions to the LDRs on a case-by-case basis for
specific wastes generated at a specific facility for which there is not adequate capacity (RCRA section
3004(h)(3)). EPA may grant case-by-case capacity variances to applicants who can demonstrate that: (1)
no capacity currently exists anywhere in the U.S. to treat a specific waste, and (2) a binding contractual
commitment is in place to construct or otherwise provide alternative capacity, but due to circumstances
beyond the applicant's control, such alternative capacity cannot reasonably be made available by the
effective date (40 CFR 268.S).3
HSWA's schedule divided hazardous wastes into three broad categories: solvent and dioxin
wastes; California list wastes;4 and "scheduled" wastes. EPA restricted surface disposed solvents and
dioxins from land disposal on November 7, 1986 and deep well injected solvents and dioxins from land
disposal on July 26, 1998. The final rule for California list wastes, which was issued on July 8, 1987,
covers wastes originally listed by the State of California and adopted intact within HSWA. The
"scheduled" wastes consist of all wastes that were identified or listed as hazardous prior to November 8,
1984 but were not included in the first two categories listed above. HSWA's statutory timetable required
that EPA restrict one-third of these wastes by August 8, 1988, two-thirds by June 8, 1989, and the
remaining third by May 8,1990. For hazardous wastes that are newly identified or listed after November
8, 1984, EPA is required to promulgate land disposal prohibitions within six months of the date of
identification or listing (RCRA Section 3004(g)(4)). However, the statute does not provide an automatic
prohibition of land disposal of such wastes if EPA fails to meet this deadline. Exhibit 1 -1 summarizes
the previous LDR rulemakings and their respective promulgation dates.
1 RCRA also allows generators to petition for a variance from treatment standards if the waste cannot be treated
to meet LDR standards due to its chemical or physical properties. These variances are known as treatability
variances (40 CFR 268.44).
* The "California list" comprises the following classes of wastes: liquid hazardous wastes with a pH of less than
or equal to 2.0 (acidic corrosive wastes); all liquid hazardous wastes containing free cyanides, various metals, and
polychlorinated biphenyls (PCBs) exceeding statutory concentration levels; and all wastes (liquid, sludge, or solid)
containing halogenated organic compounds (HOCs) in concentrations greater than or equal to specified statutory
levels.
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EXHIBIT 1-1
SUMMARY OF PREVIOUS LAND DISPOSAL RESTRICTIONS RULEMAKINGS
Rulemaking m
Solvents and Dioxins
(surface disposed)
Solvents and Dioxins
(deep well injected)
California List
(surface disposed)
California List
(deep well injected)
First Third Rule
First Third Rule
(deep well injected)
Second Third Rule
Third Third Rule
Newly Listed and Identified Wastes
(Phase I)
Interim Final Rule for Vacated Treatment
Standards
Organic TC Wastes and Newly Listed
Wastes (Phase II)
Decharacterized Wastewaters, Carbamate
Wastes, and Spent Potliners (Phase III)5
Federal Register Notice
5 IF/? 40572
53 FR 28 188
52 FR 25760
53 FR 30908
53 FR 3 1138
54 FR 254 16
54 FR 26594
55 FR 22520
57 FR 37 194
58 FR 29860
59 FR 47982
61 FR 15565
Promulgation Date
November 7, 1986
July 26, 1988
July 8, 1987
July 26, 1988
Augusts, 1988
June 7, 1989
June 8, 1989
May 8, 1990
June 30, 1992
May 24, 1993
September 19, 1994
April 8, 1996
1.2 CAPACITY ANALYSIS METHODOLOGY
In evaluating the need for national capacity variances, EPA estimates the quantities of waste
requiring alternative commercial treatment as a result of the LDRs and the capacity available at
commercial treatment facilities to manage the restricted wastes6. By comparing the capacity demand
5 On August 26,1996, the Agency revised the carbamate waste treatment standards for one year from the date of publication
("Emergency Revision of the Land Disposal Restrictions (LDR) Phase III Treatment Standards for Listed Hazardous Wastes
from Carbamate Production," 61 FR 43923). On January 14,1997, the Agency extended the national capacity variance for spent
potliners (K088) for six months ("Land Disposal Restrictions Phase III - Emergency Extension of the K088 Capacity Variance;
Final Rule," 62 FR 1991).
6 EPA also derived estimates of affected facilities and waste quantities for the regulatory impact analysis (RIA). Both the RIA
and the capacity analysis examined wastes in the industrial sectors likely to generate most of the Phase IV wastes. However, the
goals of a capacity analysis and an RIA are very different, which often results in some differences in methodologies, data, and
results. A first step to satisfying the goals of a capacity analysis is to make a "threshold" determination concerning whether a
national treatment capacity variance is needed for the two years following promulgation of a waste's LDR treatment standards.
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with the available commercial capacity, EPA can identify capacity shortfalls and make determinations
concerning national capacity variances. This section provides an overview of EPA's methodology in
estimating required commercial treatment capacity, briefly summarizes the capacity analysis conducted
for today's rule, and highlights the national capacity variances that EPA is proposing in today's proposed
rule.
1.2.1 Determination of Required Commercial Treatment Capacity
Required commercial treatment capacity represents the quantity of wastes currently being land
disposed that cannot be treated on site and, consequently, will need commercial treatment to meet the
LDR treatment standards. EPA uses the available information and best engineering judgment to develop
estimates for required commercial.capacity. Those wastes that are managed in on-site treatment systems
are excluded from the estimates of required commercial capacity. Required commercial capacity also
includes the residuals generated by treatment of these wastes (i.e., the quantity of generated residuals that
will need treatment prior to land disposal).
EPA identifies the waste streams potentially affected by the LDRs by types of land disposal
units, including surface impoundment, waste pile, land treatment unit, landfill, and underground injection
well. Salt dome formations, salt bed formations, and underground mines and caves are additional
methods of land disposal that are affected by the LDRs; however, because few wastes are disposed by
these three methods, these methods typically are not addressed in the analysis of required alternative
capacity.
To determine the type of alternative capacity required to treat the affected wastes, EPA conducts
a "treatability analysis" of each waste stream. Based on the waste's physical and chemical form and
information on prior management practices, EPA assigns the quantity of affected waste to an appropriate
technology (i.e. a technology that can meet the treatment standards). Mixtures of RCRA wastes (i.e.,
waste streams described by more than one waste code) present special treatability concerns because they
often contain constituents (e.g., organics and metals) requiring different types of treatment. To treat
these wastes, EPA develops a treatment train that can treat all waste types in the group (e.g., incineration
followed by stabilization of the incinerator ash). In these cases, the Agency estimates the amount of
residuals that would be generated by treatment of the original quantity of waste and includes these
residuals in the quantities requiring alternative treatment capacity.
EPA identifies the quantities of waste requiring alternative treatment on a facility level basis; if
the appropriate treatment technology is not available on site, or if adequate available capacity is not
present to manage the waste, then the appropriate quantity of waste requiring alternative treatment is
aggregated into a national demand for commercial capacity. EPA excludes from the estimates of
required commercial capacity those wastes that are managed in on-site treatment systems.
Thus, EPA estimates the required and available commercial treatment capacity for all affected wastes and facilities, but often
only to the extent needed to make this threshold determination. For example, when upper-bound estimates of required capacity
are well below lower-bound estimates of available capacity, then generally a variance is not needed and the analysis can stop.
Similarly, when lower-bound estimates of required capacity far exceed the upper-bound estimates of available capacity, then
often the two-year maximum capacity variance is needed. Results that are between these two extremes generally require EPA to
conduct further analyses. In contrast to the capacity analysis' focus on required and available capacity during the next two years
and its initial focus on threshold determinations, the RIA concentrates on estimating specific potential long-term costs and
benefits of the LDR treatment standards. Typically, only the significant (or dominant) costs and benefits are assessed during the
RIA. In summary, therefore, differences between the goals of the capacity analysis and the RIA are expected to result in
reasonable differences in the methodologies, data, and results.
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1.2.2 Determination of Available Commercial Treatment Capacity
The analyses conducted to determine available commercial treatment capacity focuses on
treatment capacity projected to be available for the two years following promulgation of the LDRs,
starting from the baseline capacity identified in the Phase III LDR rule (61 FR 15565).7
The determination of available capacity focuses on commercial facilities. Consequently, all
estimates of capacity presented in this document represent commercially available capacity.8 In order to
determine whether to grant a national capacity variance for newly listed and identified wastes regulated
in today's proposed rule, EPA analyzed available commercial capacity for alternative treatment
technologies capable of meeting the LDR treatment standards. This capacity analysis generally included
estimating the maximum or design capacity for appropriate waste management systems and the amount
of waste currently going to these systems (utilized capacity). Available capacity was estimated as the
difference between maximum and utilized capacity. For today's rule, EPA analyzed commercial capacity
for wastewater treatment systems, hazardous waste combustion (including incineration and reuse as fuel),
stabilization, vitrification, and several metal recovery technologies.
1.3 SUMMARY OF CAPACITY ANALYSIS FOR TODAY'S PROPOSED RULE
To estimate the need for national capacity variances, EPA estimated the quantities of waste
requiring alternative commercial treatment as a result of the land disposal restrictions and the capacity
available at commercial treatment facilities to manage the restricted wastes. Exhibit 1-2 indicates the
total quantities of surface disposed wastes that will requirfe alternative commercial treatment capacity as
a result of the rule, and whether treatment capacity is available for these wastes.
Exhibit 1-3 summarizes the wastes for which EPA is granting a national capacity variance. EPA
is proposing to grant a two-year national capacity variances for mixed RCRA/radioactive wastewaters
and nonwastewaters contaminated with newly listed and identified wastes for which standards are being
proposed in this rule. Also, EPA is proposing to grant a two-year national capacity variance for three
large volume wastes generated from elemental phosphorous processing - Medusa Scrubber blowdown,
Anderson Filter media rinsate, and furnace building washdown. For TC metal wastes and the remaining
newly identified mineral processing wastes, the Agency has determined that adequate treatment capacity
exists and, therefore, proposes to not grant a national capacity variance.
7 EPA, Background Document for Capacity Analysis for Land Disposal Restrictions -- Phase HI, Decharacterized
Wastewaters, Carbamate Wastes, and Spent Potliners (Final Rule), April 1996.
1 Available treatment capacity can be categorized by facility status into four groups: (1) commercial capacity -
capacity at facilities that manage waste from any facility; (2) on-site (private capacity^ - capacity at facilities that
manage only waste generated on-site; OVcaptive capacity - capacity at facilities that manage only waste from other
facilities under the same ownership; and (4) limited commercial capacity - capacity at facilities that manage waste
from a limited number of facilities not under the same ownership. For all capacity analyses, estimates on available
capacity reflect available commercial capacity.
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EXHIBIT 1-2
QUANTITIES REQUIRING COMMERCIAL TREATMENT AS A RESULT OF THE LDRs
Waste Type
Newly Identified Wastes from Elemental
Phosphorus Processing
Newly Identified Mineral Processing Wastes
(Including Soil and Debris)
TC Metal Wastes (Including Soil and Debris)
Mixed Radioactive Wastes (Including Soil and
Debris)
Quantities Requiring
Alternative Capacity
(nit/year)
500,000 - 800,000
4-30 million
0.8 - 2.6 million
Unknown3
Adequate Alternative
Capacity Currently
Available? (Yes/No)
No
Yes
Yes
No
Significant uncertainty exists concerning these quantities. Despite this uncertainty, however, EPA has
determined that sufficient alternative treatment capacity is not available, and thus is proposing to grant a two-year
national capacity variance for mixed RCRA/radioactive wastes contaminated with wastes whose standards are
being proposed today.
EXHIBIT 1-3
SUMMARY OF NATIONAL CAPACITY VARIANCES FOR PHASE IV WASTES
Waste Category
Newly Identified Wastes from Elemental
Phosphorus Processing
Newly Identified Mineral Processing Wastes
(Including Soil and Debris)
TC Metal Wastes (Including Soil and Debris)
Mixed Radioactive Wastes (Including Soil and
Debris)
Effective Date of
Land Disposal Prohibition
Two Years from Promulgation of Final Rule
90 Days from Promulgation of Final Rule
90 Days from Promulgation of Final Rule
Two Years from Promulgation of Final Rule
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1.4 ORGANIZATION OF BACKGROUND DOCUMENT SUPPORTING THE CAPACITY
ANALYSIS
EPA has prepared this background document to present the capacity analyses conducted for the
proposed second supplemental Phase IV LDRs. This document is organized into four chapters, as
described below:
Chapter 1: Introduction. Provides background, general methodology, and a summary
of the analysis.
Chapter 2: Available Treatment Capacity. Describes the methodology and data used
to determine available capacity for wastewater treatment, combustion of liquids and
solids, stabilization, vitrification, and metals recovery.
Chapter 3: Capacity Analysis for Toxicity Characteristic Metal Wastes. Describes
the capacity analysis for toxicity characteristic metal wastes (D004-D011).
Chapter 4: Capacity Analysis for the Newly Identified Mineral Processing Wastes.
Discusses the methodology and data used to conduct the capacity analysis for the newly
identified mineral processing wastes.
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CHAPTER 2
AVAILABLE TREATMENT CAPACITY
This chapter presents EPA's estimates of available commercial treatment capacity for TC metal
and mineral processing wastes affected by the Phase IV second supplemental LDR rule. This chapter is
organized as follows: Section 2.1 describes commercial capacity for stabilization; Section 2.2 describes
metal recovery capacity; Section 2.3 describes vitrification capacity; Section 2.4 describes commercial
wastewater treatment systems capacity; Section 2.5 describes commercial combustion capacity; and
Section 2.6 describes mixed RCRA/radioactive waste capacity.
2.1 STABILIZATION CAPACITY
Stabilization is a primary conventional commercial treatment technology for many of the wastes
covered by the Phase FV second supplemental LDR rule. In analyzing alternative treatment capacity for
stabilization, the Agency in part built on the capacity analysis conducted for the Third Third LDR rule
(55 FR 22520, June 1, 1990). That analysis was based on data contained in the May 1990 TSDR
Capacity Data Set. The TSDR Capacity Data Set contains results from the National Survey of Hazardous
Waste Treatment, Storage, Disposal and Recycling Survey (the TSDR Survey). The TSDR Survey was
administered in 1987 to 2,500 facilities and was designed to provide comprehensive information on
current and planned hazardous waste management, and practices at RCRA-permitted and interim status
treatment, storage, recycling, and disposal facilities. The TSDR Survey collected projections of capacity
changes from 1986 through 1992. The TSDR Capacity Data Set includes the amount of hazardous and
nonhazardous waste entering each treatment system in 1986, the maximum hazardous waste capacity, and
the maximum total waste capacity.
Following the original TSDR Survey, EPA updated the TSDR Capacity Data Set for critical
technologies based on confirmation of planned capacity changes, and_other information received since
the survey (e.g., comments on proposed rules). Updated information was obtained by contacting
facilities and verifying critical projected capacities reported in the TSDR Survey. Based on the
information provided by facility contacts, EPA determined whether planned facility capacity had come
on line as projected. Furthermore, EPA verified various assumptions concerning treatment for the wastes
addressed in this rule. A key part of this analysis was a review of 1993 BRS data. These data indicate
that there are at least 30 operational facilities providing commercial stabilization and at least 60 non-
commercial facilities with stabilization capacity.1 (For a more detailed explanation of the TSDR Survey
and of the Third Third Rule, refer to U.S. EPA, Background Document for Third Third Wastes to
Support 40 CFR Part 268 Land Disposal Restrictions, May 1990, in the docket for the Third Third rule.)
To estimate the stabilization capacity for Phase FV wastes, the capacity demand for previous
LDR rules was subtracted from the available stabilization capacity estimated from the TSDR Capacity
Data Set and updates. The available stabilization capacity from the TSDR Survey and updates was
3,125,000 tons per year. EPA estimated in the Third Third rulemaking that the capacity required as a
result of the Third Third and previous LDR rules was 1,921,000. Furthermore, the capacity required for
1 Memorandum from Raghu Raghavan and Jim Laurenson (ICF) to Bill Kline and C. Pan Lee (EPA), "Status Report on the
Available Capacity Assessment for TC Metal and Mineral Processing Wastes." June 14,1996. See Appendix A.
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Phase I was 77,000 tons per year, for Phase II wastes was 0 tons per year,2 and for Phase in wastes was 0
tons per year.3
As a result of these analyses, EPA believes that about 1.1 million tons/year of stabilization
capacity is currently available for the two main categories of wastes restricted from land disposal under
the Phase IV rulemaking: (1) previously regulated wastes, which are wastes that failed (or would have
failed) the Extraction Procedure (EP) test, fail the Toxiciry Characteristic Leaching Procedure (TCLP),
and will likely not meet the UTS; and (2) new wastes, which are defined either as wastes that did not fail
(or would not have failed) the EP, but currently fail the TCLP and likely will not meet the UTS or as
newly identified mineral processing wastes.
The first category comprises wastes that are currently treated and will probably meet the new
treatment standards with minor modifications to treatment processes. The second category includes two
types of waste: (1) wastes that are classified by current regulations as non-hazardous (e.g., Bevill wastes)
and are currently being recycled or stored pending recovery activities (these wastes could become
hazardous following this rule, and they could include very large quantities of untreated waste that will
require on-site or off-site stabilization); and (2) wastes that are classified as hazardous, but have not been
required to meet treatment standards.4
As part of the analysis of available capacity for the Phase IV rulemaking, the Agency conducted
follow-up discussions with several commercial treaters and organizations that submitted comments to the
original Phase IV proposed rule (see Appendix A). Overall, commenters indicated the widespread use of
stabilization for characteristic metal wastes. All commenters who provided information on available
capacity indicated that they are not utilizing their maximum practical capacity. Commercial treaters also
indicated that stabilization can be readily customized in most cases to treat Phase IV wastes to the
proposed treatment standards. Several commercial treaters commented that no modifications would need
to be made to their treatment processes or that minimal time (e.g., four weeks) is required for very minor
modifications. Most commercial treaters whom the Agency contacted indicated that the time needed and
difficulty to implement changes in treatment processes will vary depending on the degree of changes.
Two treaters, however, indicated that it may take several years to meet treatment standards, primarily due
to changes needed in their permits, although the time needed to change treatment processes would not be
great. (Note also that of all the commercial treaters interviewed, these latter facilities each stabilize the
lowest annual quantities of hazardous waste.) One large commercial treater estimates that about 70 to 80
percent of the waste that they currently treat can meet UTS without additional cost. Approximately 20 to
30 percent of the waste it treats will require modification to the current treatment process to meet the
UTS.
As discussed in Chapters 3 and 4, large quantity remediation sites sometimes treat on-site
because of economic reasons. Mobile treatment is preferred in these cases. One industry representative
described at least seven sites that use mobile commercial excavation and stabilization.5 These data
2 EPA believes that stabilization may be required to treat underlying hazardous metal constituents in some Phase II organic TC
wastes after combustion but that the actual amount of combustion residuals requiring stabilization capacity is a small fraction of
available capacity.
3 EPA believes that stabilization may be required to treat underlying hazardous metal constituents in some Phase III wastes after
combustion but that the actual amount of residuals requiring stabilization capacity is a small fraction of available capacity.
4 Nevertheless, this second type of waste likely is similar to the previously regulated wastes because treating the waste to
decharacterize it and dispose of it as a non-hazardous wastes is believed to be preferable by generators and less expensive than
disposal without treatment in a Subtitle C unit.
3 Summary of Minutes of April 30, 1996, Meeting of EPA and Representatives of Lead Recovery from Batteries. See
Appendix A.
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indicate that these wastes usually go to Subtitle D landfills after treatment or are capped in place. The
Agency discussions with treaters determined that mobile stabilization is commercially available to treat
both the previously regulated and the new de-Bevilled mineral processing and TC metal wastes. Several
commercial facilities have indicated that, similar to stabilization conducted at the commercial treaters'
facilities, mobile technology could be made readily available (i.e., in a matter of weeks to months).
Some waste streams were identified by commercial waste managers as being difficult to treat.
Three facilities noted, for example, that treating organic UHCs would require some type of pretreatment.
One facility would incinerate these wastes, and two other facilities would send the wastes to another
facility for pretreatment. The Agency received several other comments, however, indicating that these
difficulties could be readily overcome. Four facilities specifically stated that organic UHCs in the wastes
that they receive can be readily treated to UTS (i.e., without significant changes in their processes).
Finally, the Agency's literature review indicates that stabilization processes have been widely
used and are considered a reliable and readily available treatment technology for many metal-
contaminated wastes. For example, one source describes their extensive database of treatment reactions
for metal-contaminated wastes in the U.S.6 Furthermore, this source indicates that for a related type of
treatment—chemical fixation—more than 700 waste streams have been evaluated and successfully
treated in the U.S.; more than 400 waste streams have been treated successfully in bench-scale testing;
and more than 100 waste streams have been treated in field applications. The literature also indicates
that numerous commercial vendors also are available to provide on-site stabilization.7
2.2 METAL RECOVERY CAPACITY
Due to several factors—including (1) metal recovery treatment as one of the bases for the LDR
treatment standards, (2) the basic nature of mineral processing and many TC metal industries, and (3)
EPA's policy of preferring pollution prevention or recycling to treatment—EPA evaluated the potential to
recover metals from the TC metal and newly identified mineral processing wastes. According to
Biennial Reporting System (BRS) data,8 at least 58 commercial facilities recovered metals from
hazardous wastes and 2,789 generators recycled waste on-site using metals recovery in 1991.
EPA identified and reviewed several metal recovery technologies that are commercially
available. Exhibit 2-1 provides a sample of commercial metal recovery capacity for different
technologies that appear to be suitable for the TC metal and newly identified mineral processing wastes.
Based on this sample, at least 800,000 mt/year of maximum metal recovery capacity exists. (Note,
however, that not all of this capacity is necessarily available. Nevertheless,, because of the magnitude of
this maximum capacity and because Exhibit 2-1 is not a comprehensive list of available commercial
metal recovery technologies, the Agency believes that some metal recovery capacity will be available to
treat TC metal and mineral processing wastes that cannot be treated using stabilization or other
technologies.)
* Indelicate, Gregory and Gary Upton. "Chemical Fixation Increase Options for Hazardous Waste Treatment." Environmental
Solutions. May 1996. See attachment to Appendix A-2.
7 The following is just a small sample of commercial vendors providing on-site commercial stabilization treatment: American
Colloid Co.; Chemical Waste Management; Envirosource CSI; Erosion Control; Plastic Filter Company; Limestone Products
Corp; Reinco, Inc.; and Stevenson Environmental Services. See Appendix A for additional vendors and facilities.
8 U.S. EPA, "Hazardous Waste Recycling in the United States, 1989 to 1991," Office of Solid Waste, Draft, June 30, 1994.
Page 2-3
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EXHIBIT 2-1
SAMPLE OF METAL RECOVERY CAPACITY
Metals Recovery
Technology
PYROMETALLURGICAL PROC1
Dakota Catalyst Products,
Williston, North Dakota
Elkem Multi-Purpose Furnace
Horsehead Resource
Development, Flame Reactor
Horsehead Resource
Development, Waelz Kiln
System
Bethlehem Apparatus
Company, Vacuum Mercury
Retort System
Mercury Recovery Services
Process
Zia Technology Inclined
Rotary Reduction System
International Metals
Reclamation Company
(INMETCO)
HYDROMETALLURGICAL PRG
AMAX (Cri-Met),
Braithwaite,
Louisiana
Metals
Recovered
ESSES
Al, Co, Mb, Ni, V
Pb, Zn, Cu
Zn,Pb
Zn
Hg
Hg
Fe, Zn, Pb
Cr, Co, Cr, Fe, Mn,
Mb,Ni
•CESSES
Al, Co, Mb, Ni, V
Annual Feed Capacity
(tons/year)
20,000 tons/year, metal and alumina catalysts
40,000"
20,000-50,000b
270,000
595
4,500
60,000*
20,000 tons/year of K06 1 ;
20,000 tons/year of metal waste (non-hazardous)
from the specialty steel industry;
10,000 tons/year of mill scale;
7,200 tons/year of K062;
6,700 tons/year of D007 from different sources in
the specialty steel and alloy manufacturing
industry;
3,600 tons/year of F006;
3,000 tons/year of nickel and/or chromium
bearing solutions from other industries (D007,
D002, and/or D001)
Plant presently accepts 20,000 tons/year of spent
catalysts and has an annual feed capacity of
30,000 tons/year available for Ni/Co/Mo/Al-
containing catalysts; also has some (additional?)
capacity for processing Vanadium-containing
materials
Page 2-4
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Metals Recovery
Technology
ET1CAM Process
Recontek Process
Encycle/Texas
Metals
Recovered
Cd, Ct, Co, Cu,
Au, Mb, Ni, Pb,
Ag,Ti,V,Zn
Cd, Cr, Fe, Ni, Zn
Sb,Co,Cu,Pb,Ni
Annual Feed Capacity
(tons/year)
35,000 tons/year of metal-bearing solutions;
35,000 tons/year of cyanide-bearing solutions;
35,000 tons/year of acid/alkali solutions;
45,000 tons/year of metal-bearing solids
60,000 tons/year
Plant reportedly received 20,000 tons/year of
waste in 1991; total capacity is unknown
Sources: (1)
(2)
U.S. EPA, Profiles of Metal Recovery Technology for Mineral Processing
Wastes and Other Metal-Bearing Hazardous Wastes, Office of Solid Waste,
December 1994.
U.S. EPA, Background Document for Capacity Analysis for Land Disposal
Restrictions: Newly Identified Petroleum Refining Process Wastes (Proposed
Rule), October 1995.
2,3 VITRIFICATION CAPACITY
The Agency has determined that vitrification technology is commercially available for treating
limited quantities of Phase IV wastes, such as some arsenic wastes, that are difficult to treat using
stabilization. One commenter (Beazer East, Inc.), responding to the original Phase IV proposed rule (60
FR 43654), identified a commercial facility that operates a tested, full-scale vitrification process.9 Using
the ATTIC and VISiri databases,10 EPA also identified a sample of companies conducting or selling
supplies for vitrification. The Agency subsequently held discussions with several facility representatives
(see Appendix B).u One company that EPA identified operates one vitrification system with an
available capacity of 15,000 tons/year (readily expandable to three systems for a total capacity of 45,000
tons/year). A full-scale, commercial unit (MSE) treats approximately 2,000 tons/year. Bench-scale and
pilot-scale systems for vitrification are known to have been underway at numerous other facilities in
1994."
12
Notwithstanding this potentially available vitrification capacity, EPA realizes that available
capacity likely is relatively low. Because EPA is setting numerical limits, however, other treatment
technologies capable of achieving the UTS limits are not prohibited from being used, except for those
that may constitute impermissible dilution. For example, managers of lower concentration wastes may
send the waste for stabilization or other treatment technologies,13
9 The commenter also notes, however, that the regulatory status of this facility (Marine Shale Processors (MSP)) remains in
question.
10 Alternative Technology Treatment Center (ATTIC) Database, U.S. EPA (see WWW.EPA.GOV/ATTIC) and the Vendors
Information System of Innovative Treatment Technology (VISFTT) (see WW.PRC.EMI.COM:8C/VISnT),
1' The following is a small sample of commercials vendors providing vitrification equipment or services: Geosafe Corp, Vortec
Corp, Retech Inc., GTS of Duratech, and MSE.
12 Attachment to memorandum from Bill Kline (U.S. EPA) to ICF Incorporated, March 17,1994 (see Appendix B).
13 See Appendix C in the Phase IV LDR BOAT Background Document for additional discussion of this issue.
Page 2-5
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2.4 WASTEWATER TREATMENT CAPACITY
EPA expects that the TC metal and mineral processing industry's predominant wastewater
management practices are to treat the wastewaters in on-site tanks (or, to a limited extent, in surface
impoundments that meet minimum technology requirements (MTRs)), and then either discharge to
Subtitle D surface impoundments or discharge directly to surface waters under CWA or equivalent
regulations. Wastewater treatment technologies such as chemical precipitation, biological treatment,
steam stripping, carbon adsorption, or combinations of these and other technologies can treat organics to
the concentrations regulated in this rule. These wastewater technologies are readily available to, or in
use at, facilities.14 EPA believes that—similar to stabilization for nonwastewaters—the additional
treatment required to meet the UTS levels for these wastewaters could be achieved through minimal
modifications in the existing on-site treatment systems (e.g., change in the reagents or increase in the
quantity of reagents added). For metals in wastewaters, EPA has determined that treatment levels can be
achieved by lime addition followed by sedimentation and filtration for arsenic, and on chemical
precipitation followed by sedimentation for chromium. These wastewater technologies are readily
available to, or in use at, facilities. Of course, since no specific method of treatment is required to be
used under the promulgated treatment standards, any type of treatment other than permissible dilution
may be used to achieve these concentration levels.
Notwithstanding the ability of readily available treatment systems to be optimized to meet
treatment standards, EPA also evaluated the availability of wastewater treatment in terms of whether
commercial vendors are available to provide on-site wastewater treatment services. This analysis used
two data sources. The primary source was an Office of Water questionnaire specifically targeted to
wastewater treatment systems. The second source, the 1991 BRS, was used to confirm the data provided
by the first source.
In 1991, EPA's Office of Water (OW) developed the Waste Treatment Industry Questionnaire to
collect information on centralized wastewater treatment capacity.15 The information collected during
this effort represents 1989 data and includes maximum and available treatment capacity. Exhibit 2-2
presents the information provided by individual facilities. All of the listed facilities have a final or
interim RCRA permit. As shown, approximately 40 million tons (9.7 billion gallons) of wastewater
treatment capacity are available each year at these facilities. In addition, there are 11 other treatment
facilities that were not included in this estimate because they did not supply the requested capacity
information. By assigning the average available capacity (638,000 tons/year) to each of the non-
reporting facilities, EPA estimates a total available wastewater treatment capacity of 47 million tons
each year.
14 Background Document for Third Third Wastes to Support CFK Part 268 Land Disposal Restrictions, May 1990, and
Background Document for Capacity Analysis for Newly Listed Wastes and Hazardous Debris to Support 40 CFK 268 Land
Disposal Restrictions, June 1992.
15 Memorandum from Debra DiCianna, Engineering and Analysis Division, Office of Water, U.S. EPA to Bengie Cajroll, Capacity
Programs Branch, Office of Solid Waste, U.S. EPA, April 20,1993. See Appendix C
Page 2-6
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EXHIBIT 2-2
AVAILABLE WASTEWATER TREATMENT CAPACITY
Name
Sloss Industries Corporation
Crosby and Overton, Inc.
Oil Process Co.
Southern California Chemical Co., Inc.
Romic Chem. Corp.
CP Chemicals
Chem-Tech Systems
H&H Ship Service
Norris Industries, Inc.
Appropriate Technologies II, Inc.
Solvent Service Co., Inc.
American Chemical & Refining Co.
Envirite Corporation (CT)
Pratt & Whitney Aircraft Group MD & CPD.
United Oil Recovery, Inc.
Cecos Treatment Corp.
Environmental Waste Resources, Inc.
Alternate Energy Resources, Inc.
Pearl Hbr. Navy Public Works Ctr.
Maytag Co.
fohn Deere-Component Works
snvirite Corp. (IL)
?eoria Disposal Co.-Pottstown
EPA ED Number
CADO5O806850
CAT080033681
CADQ59494310
CTDOO 11 84894
CTD000844399
CTD072 138969
ILD000666206
Maximum Capacity
(gallons)
548,000,000
2,340,000
1,894,000
21,350,000
4,983,000
5,808,000
0
0
477,791,000
8,943,000
0
2,375,000
.53,500,000
1,760,669,000
13,140,000
62,500,000
38,536,000
1,867,200,000
0
390,000,000
43,212,000
10,620,000
50,000,000
% Used in
1989
33
100
81
60
59
74
0
0
45
18
0
79
30
2
50
6
78
20
0
73
63
67
49
Available Capacity
(gallons)
367,160,000
0
363,000
8,589,000
2,043,000
1,510,000
0
0
262,355,000
7,333,000
0
499,000
37,552,000
1,312,578,000
6,570,000
58,738,000
8,478,000
1,493,387,000
0
105,300,000
15,989,000
3,516,000
25,625,000
Page 2-7
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EXHIBIT 2-2 (Continued)
AVAILABLE WASTEWATER TREATMENT CAPACITY
Name
Chem-Clear, Inc.
Beaver Oil Co., Inc.
Heritage Environmental Services, Inc.
Eli Lilly & Co. Tippecanoe Labs
Clean Harbors, Inc.
American Waste Oil Corp.
Environmental Waste Control, Jnc
Cyanokem
Dynecol, Inc.
Edwards Oil Co.
Metro Recovery Systems
Heritage Environmental Services, Inc
Brunswick Corp.
Dupont E I De Nemours, Chamber Works
CP Chemicals, Inc.
Remtech Environmental Group
Chemical Waste Management of New Jersey
E Li cam
Chemical Waste Management of New York
Cecos International
Chemical Management, Inc.
En virile Corp.
Clark Processing, Inc.
Research Oil Co.
Brush Wellman, Inc.
Cecos International, Inc.
Clean Harbors
Conoco, Inc. Ponca City
EPA ED Number
ILD064418353
IND093219012
IND006050967
MDD980555189
MND98 1098478
NCD121700777
NED043534635
NJD002385730
NJD002141950
NJD089216790
NVD980895338
NYD080336241
NYB00069I949
OHD004178612
OHD087433744
OHD000724153
OKD007233836
Maximum Capacity
(gallons)
36,000,000
14,000,000
299,290,000
0
44,100,000
6,240,000
60,000,000
30,865,000
36,320,000
21,600,000
15,130,000
7,500,000
244,000
14,600,000,000
54,000,000
0
52,560,000
750,000
21,024,000
0
7,800,000
63,963,000
6,500,000
86,300,000
0
23,400,000
63,000,000
720,000,000
% Used in
1989
47
20
30
0
12
80
30
34
50
80
50
72
3
78
90
0
23
14
73
0
44
44
86
49
0
12
65
92
Available Capacity
(gallons)
19,080,000
11,200,000
209,443,000
0
38,808,000
1,248,000
42,000,000
20,371,000
18,291,000
4,320,000
7,565,000
2,100,000
237,000
3,212,000,000
5,400,000
0
40,471,000
647,000
5,676,000
0
4,368,000
35,909,000
910,000
44,013,000
0
20,592,000
22,050,000
57,600,000
Page 2-8
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EXHIBIT 2-2 (Continued)
AVAILABLE WASTEWATER TREATMENT CAPACITY
Name
US Pollution Control, Inc.
Tektronix, Inc.
Waste Conversion, Inc.
Envirite Corporation (PA)
Mill Service, Inc.
Mill Service, Inc. Yukon Pit.
Eticam
CP Chemicals, Inc.
Tricil Environmental Services, Inc.
TO Eastman Div. Eastman Kodak
Osco Incorporated
Intercontinental Terminals Co.
Encycle/Texas, Inc.
Empac, Inc. Deer Park
Treatment One, Div. of Set Environmental, Inc.
Belpar Environmental of Virginia. Inc.
Boeing Co.-Auburn
Crosby and Overton, Inc. Plant 2
Chemical Processors, Inc.
Chemical Processors, Inc.
Chemical Processors, Inc.
Petroleum Reclaiming Service, Inc.
Morthwest Enviroserviee, Inc.
Union Carbide AGR. Prod Co., Inc.
[nco Alloys Internationa!, Inc.
Total
EPA ID Number
ORD009020231
PAD085690592
PAD010154045
PAD059087072
RID980906986
TND003376928
WAD04 1337 130
WVD004325353
WVD076826015
Maximum Capacity
(gallons)
6,000,000
407,788,000
35,986,000
30,000,000
74,200,000
164,000,000
6,000,000
45,602,000
89,712,000
8,710,000
0
100,000,000
120,500,000
316,411,000
2,000,000
390,000
371,935,000
20,752,000
13,142,000
0
17,001,000
15,750,000
35,640,000
2,102,000,000
0
25,616,967,000
% Used in
1989
50
13
80
79
57
44
42
61
9
88
0
17
30
35
2
70
42
1
40
0
41
11
62
57
0
Available Capacity
(gallons)
3,000,000
353,675,000
7,197,000
6,300,000
32,129,000
91,840,000
3,480,000
17,785,000
81,638,000
1,045,000
0
83,000,000
84,892,000
205,636,000
1,960,000
117,000
214,123,000
20,646,000
7,830,000
0
10,102,000
14,018,000
13,458,000
' 903,860,000
0
9,699,612,000
EPA used the 1991 BRS to confirm available wastewater treatment capacity (see Appendix C).
The BRS is a system by which RCRA-reguIated treatment, storage, and disposal facilities (TSDFs) and
large quantity generators provide EPA with information on their hazardous waste activities. The PS
Form of the 1991 BRS contains information on the waste treatment systems, including both maximum
Page 2-9
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and utilized capacity. EPA determined the total available wastewater treatment capacity16 reported in the
BRS at facilities representing approximately 90 percent of the total operational capacity reported in the
Waste Treatment Industry Questionnaire. According to the BRS, in total these facilities have 33 million
tons of available capacity (7.9 billion gallons). If this estimate is adjusted to reflect the fact that it only
represents 90 percent of the total operational capacity, approximately 37 million tons (33 million tons
divided by 0.9) of available wastewater treatment capacity are available. This estimate is close to 80
percent of the estimate obtained from the OW Questionnaire.
2.5 COMMERCIAL COMBUSTION CAPACITY
This section summarizes the results of EPA's analysis of available commercial combustion
capacity at incinerators and BIFs (primarily cement kilns that are authorized to burn hazardous wastes as
fuel). This includes an analysis of incinerator and BIF combustion capacity information received from
the Hazardous Waste Treatment Council (HWTC) and the Cement Kiln Recycling Coalition (CKRC) in
1993 and the Environmental Technologies Council (ETC) in 1994.17 Data were also obtained from
Rollins Environmental Services (RES) through comments and subsequent submissions of Confidential
Business Information (CBI) in 1996.
2.5.1 General Methodology
In 1993, the HWTC and CKRC surveyed their membership to obtain data on combustion
capacity, which was then submitted to EPA. Subsequent to the original HWTC survey, members also
received a supplemental questionnaire regarding the burning of soils. In 1994, ETC submitted updates to
the HWTC Survey from its members. Survey responses received from incinerators are classified as
confidential business information (CBI) and thus are provided only in an aggregated form in this
document. Following the receipt of the original surveys, the Agency reviewed the data submitted by each
facility to evaluate the completeness, consistency, and accuracy of the information. The Agency
identified and reconciled data gaps and anomalies by contacting the respective HWTC or CKRC
coordinators and the individual facilities in question.
Concurrent with the receipt of surveys received from the member groups, the Agency developed
a data base to track and process major data elements for the capacity analysis. The data base contains
facility information (e.g., location, EPA identification number of burner, number of units currently on-
line), unit specific information (e.g., type of incinerator/kiln unit, operating hours per year, types of
hazardous waste feed systems, types of hazardous waste burned in 1992), and waste-type specific
information (e.g., tons of hazardous waste burned in 1992, average hazardous waste feed rate, maximum
practical capacity, maximum permit capacity). Subsequent updates to the original survey submissions
have also been entered into this database.
The information received from facilities participating in these surveys does not lend itself to
simple summation and tabulation of results because facilities sometimes differed in their approach to
reporting quantities burned or burning capacity. Incineration systems can generally accept multiple
waste forms (e.g., pumpable sludges and aqueous liquids) and accepting larger amounts of one waste
form may reduce the capacities for others. In responding to the HWTC survey (and ETC updates),
facilities sometimes grouped waste types for their capacity-related responses. For example, if a feed
system can accommodate both liquids and pumpable sludges, a facility may report a capacity for both
16 Specifically, the estimate includes all aqueous organic and/or inorganic treatment systems.
17 In 1994, HWTC became the Environmental Technologies Council (ETC). ETC provided EPA with a 1994 update to the
commercial incinerator survey.
Page 2-10
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forms grouped together. To address this interchangeability of waste forms, the Agency's LDR capacity
database accommodated the reported waste groupings (e.g., by developing one capacity estimate for
liquids and pumpable sludges combined).
A second issue also relating to the interchangeability of waste forms required more extensive
consideration. In the HWTC survey (and ETC update), some facilities reported the maximum
combustion capacity for individual waste forms that together exceed the reported overall capacity of the
unit. As a result, summing these individual capacities results in a total capacity that far exceeds what a
facility may practically accommodate. Therefore, the Agency developed an algorithm to address this
situation.
The waste apportionment algorithm focuses on three primary variables: the quantity of waste
burned during the year, the maximum practical capacity of the unit, and the available capacity for
burning hazardous waste. The available capacity for a waste form (e.g., aqueous liquids, dry solids) is
obtained by taking the difference between the quantity of the form burned (hazardous and non-hazardous
waste) and the maximum capacity for the waste form. The Agency's approach assumes that a facility will
not stop burning non-hazardous waste if it is currently burning non-hazardous waste but all unutilized
capacity will be used for hazardous waste. Difficulties arise, however, because facilities report
maximum capacities for each waste form without regard to capacity accounted for by other waste forms
(e.g., some facilities report the same treatment capacities for sludges as for soils because their treatment
systems can accommodate both wastes). Consequently, the sum of maximum capacities for all waste
forms may exceed the total capacity.
In these cases, the Agency distributed the total maximum hazardous waste capacities reported by
each facility to individual waste forms based on burning practices. The utilization rate for each waste
form was calculated by dividing the larger of the quantity of hazardous waste burned or total waste
burned for that waste form by the sum of the quantities burned for all waste forms. A new maximum
hazardous waste capacity for each waste form was then calculated by multiplying the utilization rate for
that waste form by the maximum practical capacity for the incineration unit as a whole.
If the calculated maximum capacity for a waste form exceeded the reported value for that form,
EPA used the reported value. In this case, the difference between the calculated and reported value was
then redistributed to other waste forms using a hierarchy based on the types of wastes in this rule for
which capacity has historically been most limited relative to demand. The Agency used the following
order for redistributing capacity:
Soils;
Bulk Solids;
• Containerized Solids;
• Nonpumpable Sludges;
• Pumpable Sludges;
• Compressed Gases;
• Non-aqueous Liquids; and
• Aqueous Liquids.
Cement kiln capacity for hazardous waste generally is limited by air emission limits (e.g., boiler
and industrial furnace (BIF) limits under 40 CFR 266 subpart H), feed system limitations (e.g., particle
size and viscosity limits), and product (i.e., cement clinker) quality considerations. For instance, cement
quality considerations may require that wastes burned in cement kilns have a heating value of at least
5,000 BTU/lb to ensure adequate temperatures in the kiln. (Comments received by EPA in previous
Page 2-11
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rulemakings, however, indicate that some kilns accept wastes below this heating value.) Incineration
capacity is also limited by air emission limits and other permit limits (such as heat release limits), and
feed system limits. EPA has taken these limitations into account in its estimates of available commercial
combustion capacity.
"Pre-baseline" (i.e., prior to accounting for Phases I, II, and IE LDR required capacity) available
combustion estimates were calculated using the above methodology. EPA then subtracted the required
combustion capacity for any previously regulated wastes that are not accounted for in the data received
from the incinerators or BIFs (e.g., Phase I wastes under variance and Phase 0 and III wastes) to derive
the baseline available combustion capacity for Phase IV wastes. The capacity required for Phase II and
III wastes is not reflected in the estimates of utilized capacity because the Phase II and III rules,
promulgated on September 19, 1994 (59 FR 47982) and April 8, 19% (61 FR 15566), respectively, were
not in effect when the estimates were submitted to EPA. In addition, some Phase I wastes (F037 and
F038 in particular) were under a variance for at least part of the period of time for which EPA received
capacity estimates (see 57 FR 37194, June 30, 1992).
For this final rule, EPA conducted additional analysis by incorporating new data submitted by
commenters to the proposed rule, developing assumptions to account for the uncertainty associated with
the age of the bulk of the data (which are now several years old), and assessing the potential trends in
combustion capacity over the next two years. Thus, this additional analysis primarily involved three
activities: (1) updating available capacity where possible using facility-specific CBI submitted by
Rollins Environmental Services (RES), (2) applying assumptions where necessary to obtain a range of
overall available capacity, and (3) researching potential impacts of upcoming maximum achievable
control technology (MACT) standards.
2.5.2 Results
Exhibit 2-3 summarizes EPA's estimate of the "pre-baseline" available commercial hazardous
waste capacity by waste form for incinerators and BIFs. The following paragraphs discuss refinements
of these estimates for wood preserving wastes in terms of two types of capacity: (1) liquids, and (2)
pumpable/nonpumpable sludges, solids, and soils. This discussion is organized around these two types
of capacity because most wastes are assigned to these two types of treatability groups.
Combustion capacity for liquid forms of hazardous wastes has historically been more readily
available than capacity for sludges and solids. Using data from Exhibit 2-3, EPA estimates that the pre-
baseline available commercial combustion capacity for liquids is about 1,078,000 tons per year.18 EPA
then subtracted the 11,000 tons of required capacity for liquid Phase II wastes. Because Phase III did not
result in any required capacity for liquids, the result—1,067,000 tons/year—is assumed to still be
available overall. In the Phase IV rulemaking for wood preserving wastes, EPA estimated that
approximately 26,312 tons/year of combustion capacity is required for liquid wastes from wood
preserving operations. Subtracting this required capacity results in an estimate of 1,040,688 tons/year of
18 EPA first estimated that there is approximately 1,010,000 tons/year of available capacity for waste forms reported as "aqueous
liquids" (92,000 tons/year), "non-aqueous liquids" (159,000 tons/year), and "all liquids" (759,000 tons/year). EPA then added to
this quantity the estimate of available capacity to treat "liquid/pumpable sludges" (i.e., 68,000 tons/year). Because this latter
quantity is for mixed forms of waste, it was excluded from the non-liquid estimate described below to avoid double counting.
Page 2-12
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EXHIBIT 2-3
PRE-BASELINE AVAILABLE COMMERCIAL HAZARDOUS WASTE
COMBUSTION CAPACITY SUMMARY
Waste Form
Liquids (aqueous)
Liquids (non-aqueous)
Reported as All Liquids (aqueous & non-aqueous)
Reported as Liquids & Pumpable Sludges Grouped
Pumpable Sludges
Nonpumpable Sludges
Reported as Solids & Nonpumpable Sludges Grouped
Bulk Solids
Dry Solids
Containerized Solids
Compressed Gases
Soils
TOTAL LIQUIDS & PUMPABLE SLUDGES
TOTAL SOLIDS & NON-PUMPABLE SLUDGES
TOTAL
Incinerators
Maximum
(lOOOtpy)
190
346
82
32
116
32
53
133
NA
231
5
169
766
618
1,390
Available
(lOOOlpy)
92
159
56
20
66
17
38
70
NA
102
3
157
393
384
780
Percent
Utilized
51
54
31
38
43
47
27
47
NA
56
43
7
49
38
44
BIFs
Maximum
(lOOOtpy)
NA
NA
1,548
236
37
5
35
25
49
146
NA
NA
1,822
261
2,083
Available
(lOOOtpy)
NA
NA
702
49
12
1
11
18
39
106
NA
NA
763
175
938
Percent
Utilized
NA
NA
55
79
68
72
69
30
20
28
NA
NA
58
33
55
Total Available
(lOOOtpy)
92
159
759
68
78
18
49
88
39
208
3
157
1,156
560
1,718
I. Values for maximum, available, and percent utilized reflect pre-baseline data (i.e., prior to accounting for Phase I, II, and III required capacity). Values estimated for Phase IV wastes are based on
these data and are provided in the text. These numbers may not add due to rounding.
2. This report only includes capacity for currently operating units. The following units are not included in the roll-ups: Waste-Tech (Kimball, NE), Waste-Tech (East Liverpool, OH), CWM
(Chicago, 1L), and Ash Grove (Louisville, NE).
3. The following BIFs have been included in these figures based on data obtained from the September 1993 El Digest: North Texas Cement (Midlothion, TX), Florida Solite (Green Cove Springs,
FL), Carolina solite (Albermarle, NC), Solite Co. (Arvonia, VA), Solite Co. (Cascade, VA), Essroc (Logansport, IN), Giant (Harleyvillc, SC), Heartland Cement Co. (Independence, KS), Medusa
Cement Co. (Wampum, PA), River Cement (Festus, MO), and Southdown (Fairbom, OH).
Page 2-13
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available combustion capacity for treating liquid wastes that would be restricted from land disposal by
today's proposed rulemaking. EPA used data from Exhibit 2-3 to estimate that the available
pumpable/nonpumpable sludge, solid, and soil commercial combustion capacity in the pre-baseline (i.e.,
prior to the Phase I rule ) is 638,000 tons/year.19 Post-Phase I and II but pre-Phase HI data obtained from
one major treater, RES, through comments and subsequent submissions of CBI, as well as extrapolation
of these data to all other combustion data, were used to update this pre-baseline estimate and to
simultaneously account for Phase I and II wastes. The result is approximately 489,100 tons/year,20 with a
range between about 410,400 to 568,600 tons/year.21 For the Phase III rule wastes, EPA estimated that
the relevant required sludge, solid, and soil combustion capacity is 4,600 tons/year. Therefore, the
overall current (pre-Phase IV) combustion capacity for sludge, solid, and soil is estimated at 484,500 '
tons/year (between about 405,800 to 564,000 tons/year). In the Phase IV rulemaking for wood
preserving wastes, EPA estimated that approximately 8,968 tons/year of non-liquid/nonwastewater
combustion capacity is required for wastes from wood preserving operations. Thus, EPA estimates that
approximately 474,532 tons/year (396,823 to 555,032) of combustion capacity is available to treat wastes
restricted from land disposal by the Phase IV second supplemental rulemaking.
The estimates discussed above of available combustion capacity are expected to remain relatively
steady through 1999. Although one munitions treatment facility is awaiting approval of its permit to
burn military munitions and other explosives, no applications for new hazardous waste incinerators are
immediately pending. Most of the proposals for new combustion capacity that have surfaced recently are
for facilities that specialize in the combustion of military munitions, other explosive materials, or mixed
wastes.22 In addition, several facilities that had proposed expansion of thermal capacity have now
abandoned their proposals.23 Difficulties in permitting make it highly unlikely that other combustion
units, such as mobile incineration units, could be brought on-line in the near-term (i.e., within two years).
Recent industry publications, such as The Hazardous Waste Consultant, indicate that the public
continues to oppose nearly every proposed hazardous waste management facility, and state and local
legislative bodies continue to pass restrictive siting laws or permitting moratoriums. As a result, many
project sponsors have already, or may eventually, find the process too costly.24 Lastly, the final
maximum achievable control technology (MACT) standards for combustors (expected in 1998; see
proposed rule, 61 FR 17358) may decrease this available capacity to some degree. However, given the
19 EPA summed the available capacity of "pumpable sludges" (78,000 tons/year), "nonpumpable sludges" (18,000 tons/year),
"solids and non-pumpable sludges" (49,000 tons/year), "bulk solids" (88,000 tons/year), "dry solids" (39,000 tons/year),
"containerized solids" (208,000 tons/year), and "soils" (157,000 tons/year).
20 To calculate this quantity, EPA first developed separate estimates of available combustion capacity for RES facilities and non-
RES facilities. EPA determined the pre-baseline capacity available at non-RES facilities by subtracting the pre-baseline
combustion at RES facilities from the pre-baseline estimate of national sludge, solid, and soil combustion available capacity, and
then subtracting an estimate of the non-RES share of wastes restricted from land disposal due to the Phase I and II rulemakings.
EPA then added this result to the estimated increase in RES available capacity to estimate the total pre-Phase III available
capacity for incinerators and BIFs. Because most of the information used in these calculations is CBI, EPA can not disclose the
details in this document.
21 Because of the age of the data used and the uncertainties of the various assumptions used, EPA developed a "best estimate"
and a range of available combustion capacity values. EPA's best estimate is based on a calculation of the current percentage of
the Phase I and II wastes that RES is combusting. The range was calculated by assuming that RES is combusting a lesser
percentage than the best estimate (lower end), or is burning a greater percentage than the best estimate (upper end).
22 "Commercial Hazardous Waste Management Facilities: 1997 Survey of North America," The Hazardous Waste Consultant.
March/April 1997.
23 Aptus, Inc. (Rollins) of Coffeyville, Kansas; Holnam, Incorporated of Ada, Oklahoma; and Medusa Cement Company of
Clinchfield, Georgia, as described in "Commercial Hazardous Waste Management Facilities: 1997 Survey of North America,"
The Hazardous Waste Consultant. March/April 1997. Note that the planned expansion by Aptus, Incorporated, would have
added more capacity to the estimates discussed above.
2" "Commercial Hazardous Waste Management Facilities: 1997 Survey of North America," The Hazardous Waste Consultant.
March/April 1997.
Page 2-14
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worst-case assumptions used above, EPA does not expect the MACT standards to significantly reduce
the available capacity estimated for Phase IV wastes.
2.6 MIXED RCRA/RADIOACTIVE WASTE CAPACITY
Available commercial treatment capacity for mixed radioactive waste is discussed in detail in the
capacity analysis background document for the original Phase IV proposed rule (60 FR 43654). As
discussed in detail in that capacity analysis, any commercial capacity that is available for mixed
radioactive wastes must be used for mixed wastes that were regulated in previous LDR rulemakings and
whose variances have already expired.
Page 2-15
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CHAPTER 3
CAPACITY ANALYSIS FOR TOXICITY CHARACTERISTIC METAL WASTES
This section presents EPA's capacity analysis for the TC metal wastes covered by the proposed
Phase IV LDR second supplemental rule. TC metal wastes referred to in this analysis include all of the
newly identified TC metal wastes and the characteristic wastes previously identified by the Extraction
Procedure (EP). Section 3.1, Regulatory Background, provides additional detail on the wastes addressed
in this analysis; Section 3.2 describes the data sources used in the analysis; Section 3.3 describes TC
metal waste generation and management; Section 3.4 discusses the soil and debris contaminated with
newly identified TC metal wastes; Section 3.5 provides the capacity analysis; and Section 3.6
summarizes the results of the capacity analysis.
3.1 REGULATORY BACKGROUND
On May 19, 1980 (45 FR 33084), the Agency promulgated the final rule on the use of the
Extraction Procedure (EP) toxicity test to identify wastes that pose a hazard to human health and the
environment due to their potential to leach significant concentrations of hazardous constituents. Eight
metal (D004-D011) and six pesticide constituents (D012-D017) were identified, which if present in the
EP waste extract in excess of specified concentrations caused the waste to be identified as hazardous.
EPA determined the regulatory concentration levels by multiplying constituent-specific chronic toxicity
levels (the National Interim Primary Drinking Waster Standards (DWS)) with a generic
dilution/attenuation factor of 100, to reflect both the concentration at which the constituent is harmful to
human health and the environment and the fate of the constituent in the environment.
On March 29, 1990 (55 FR 11798), the Agency, after several revisions to the existing hazardous
waste identification regulations, finalized the Toxicity Characteristic (TC) rule. The TC rule replaced
the EP leaching test with the Toxicity Characteristic Leaching Procedure (TCLP) and added 26 organic
compounds to the list of TC constituents (D018-D043). A comprehensive list of the Federal Register
notices related to the development of the TC regulations is provided in Exhibit 3-1.
Since the promulgation of the TC rule in 1990, the TCLP has been used to determine the toxicity
characteristic of a metal waste. Wastes that are characteristic by the TCLP but not by the EP are
considered newly identified wastes, which are currently not subject to the land disposal restrictions. On
August 22, 1995 (60 FR 43654), the Agency proposed revised treatment standards, under the LDRs
program, for all characteristic metal wastes, including those previously regulated by the EP. These
revised treatment standards, for both wastewater and nonwastewater forms of D004-D011 wastes, are
numerically equivalent to the universal treatment standards (UTS). A universal treatment standard is a
single treatment standard established for a specific constituent regardless of the waste matrix in which it
is present, i.e., the same treatment standard applies to a particular constituent in each waste code in which
it is regulated.1
EPA received several comments on the treatability of TC metal wastes to the UTS levels. Upon
additional review of the comments and data submitted by the commenters, the Agency, in today's
proposed rule is proposing to revise the UTS for certain metal constituents in TC wastes and at the same
1 A more detailed discussion of the Agency's rationale and technical support for establishing universal treatment
standards for TC wastes is provided in: U.S. EPA, Final Best Demonstrated Available Technology (BOAT)
Background Document for Universal Standards, Volume A: Universal Standards for Nonwastewater Forms of
Listed Hazardous Wastes, and Volume B: Universal Standards for Wastewater Forms of Listed Hazardous Wastes,
U.S. EPA, Office of Solid Waste, July 1994.
Page 3-1
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Exhibit 3-1
List of Federal Register Notices Addressing Toxicity Characteristic Rulemakings
TC Issue
Final Rule for Identification and Listing of Hazardous
Waste: Use of EP Toxicity Test Procedure
Notice of Availability of Reports that Support the TCLP
Proposed Revisions to the Identification and Listing of
Hazardous Waste: Use of the TCLP and Addition of
Constituents to the Toxicity Characteristic
Final Land Disposal Restrictions Approach: Use of the
TCLP for Compliance with Treatment Standards
Supplemental Notice of the Proposed Rulemaking:
Consideration of Separate Wastewater TC
Notice of Data Availability and Request for Comments:
Supplemental to Proposed Rule: Use of a Generic DAF
and Chronic Toxicity Reference Level Revisions
Proposed Revisions to TCLP to Replace Particle Reduction
Step
Proposed Modifications to Groundwater Model
Identification and Listing of Hazardous Wastes: Toxicity
Characteristic Revisions, Final Rule
Final Rule for Land Disposal Restrictions for Third Third
Scheduled Wastes
Corrections to March 29, 1990 Toxicity Characteristic
Revisions
ANPRM and Request for Comment and Data for the
Approach for Establishing BOAT Treatment Standards for
D004-D043
Land Disposal Restrictions - Phase II: Universal
Treatment Standards for Organic TC Wastes and Newly
Listed Wastes
Proposed Land Disposal Restrictions - Phase IV:
Treatment Standards for TC Metal Wastes
Land Disposal Restrictions - Supplemental Proposal to
Phase FV: Clarification of Bevill Exclusion for Mining
Wastes, Changes to the Definition of Solid Waste for
Mineral Processing Wastes, Treatment Standards for
Characteristic Mineral Processing Wastes, and Associated
Issues.
FR Notice
45 FR 33084
5 IF/? 24856
51 FR 21648
51 FR 40572
52 FR 18583
53 FR 18024
53 FR 18792
53 FR 28892
55 FR 11 798
55 FR 22520
55 FR 26986
56 FR 55 160
59 FR 47982
60 FR 43654
61 FR 2338
Date
May 19, 1980
July 9, 1986
July 13, 1986
November?, 1986
May 18, 1987
May 19, 1988
May 24, 1988
August 1, 1988
March 29, 1990
June 1, 1990
June 29, 1990
October 24, 1991
September 19, 1994
August 22, 1995
January 25, 1996
time re-propose the UTS for certain other metal constituents, as originally proposed, and make a national
capacity variance determination.
Page 3-2
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3.2 DATA SOURCES
EPA has collected available information on Phase IV TC metal wastes, including contaminated
soil and debris, from a number of sources to support the proposed LDRs. The primary data sources used
in this capacity analysis are described below.
32,1 Information from Background Documents Developed for the Third Third
Rulemaking
For the Third Third Rulemaking (55 FR 22520, June 1, 1990), the Agency conducted a
comprehensive study on the TC metal waste generation and management at the industry and facility
level. Information collected and analyzed for the Third Third rulemaking is used in the present analysis
for characterizing the TC metal wastes.2
3.2.2 Comments from the ANPRM
On October 24,1991 the Agency published an Advanced Notice of Proposed Rulemaking
(ANPRM) (56 FR 55160) and requested comments and data on the development of treatment standards
and quantities of wastes requiring alternative commercial capacity due to the LDRs for a group of newly
listed wastes, including the TC metal wastes. Several commenters provided comments and data on the
TC metal waste generation and management. Applicable comments and data are included in the capacity
analysis described in this report.
3.2 J Biennial Reporting System (BRS)
The 1993 BRS provides information on waste generation and management practices at the
individual waste stream and facility level. The BRS is a system by wjiich RCRA-reguIated treatment,
storage, and disposal facilities (TSDFs) and large quantity generators provide EPA with information on
their hazardous waste activities. The BRS contains information on the waste streams generated on site
and received from off site, waste physical form, waste codes, waste quantity, and the treatment systems
used to treat each hazardous waste stream. Data from the BRS was the primary source for the analysis of
required capacity for the TC metal wastes(Appendix D). A detailed description of the methodology and
assumptions for using the BRS data are provided in Section 3.5,
32.4 Comments from the Original Phase IV LDR Proposed Rule for TC Metal Wastes
In the original Phase IV LDR proposal for TC metal wastes (60 FR 43654, August 22, 1995),
EPA solicited comments on the waste quantities and management practices of the newly identified TC
metal wastes that were impacted by this rule. Several commenters provided comments and data on the
TC metal waste generation and management. Applicable comments and data are included in the capacity
analysis described in this report.
3.2.5 Comments from the Phase IV Notice of Data Availability (NODA)
On May 10,1996, the Agency published the NODA (61 FR 21418) as a supplement to the
original Phase IV proposed rule. In this NODA, EPA requested additional information on the generation
2 U.S. EPA, Background Document for Third Third Wastes to Support 40 CFR Part 268 Land Disposal Restrictions
- Final Rule, Third Third Waste Volumes, Characteristics, and Required and Available Treatment Capacity, Office
of Solid Waste, May 1990.
Page 3-3
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and management of the TC metal wastes and TC contaminated soil. Several commenters provided
information on waste quantities generated and management practices for TC metal wastes. These
comments and data are "included in the capacity analysis described in this report.
3.3 WASTE GENERATION AND MANAGEMENT
TC metal wastes are generated by a wide variety of industries and in many different forms.
Furthermore, the waste generation rates vary widely from industry to industry. However, the processes
by which TC metal wastes are generated are similar for many of the various metals. A more detailed
discussion of the potentially impacted industries, and the specific compounds of interest for each TC
metal is provided in EPA's Proposed Best Demonstrated Available Technology (BOAT) Background
Document for Toxicity Characteristic Metal Wastes - D004-D011, Office of Solid Waste, July 26, 1995.
As indicated in Section 3.1, two different categories of TC metal wastes exist.3 First is the
wastes that are hazardous or would be hazardous using the EP. These wastes are currently required to be
treated to the TC level. Second is the newly identified TC metal wastes (i.e., they are not or would not
be hazardous using the EP), which currently do not require treatment prior to Subtitle C management (see
Section 3.1 for additional regulatory background); this category of waste likely is already being treated to
TC levels in order to avoid the higher cost of Subtitle C disposal. In today's proposed rule, the Agency
proposes to regulate both categories of TC metal wastes. The BRS data (i.e., the primary data used for
the estimate of required capacity) includes information on both of these TC metal waste categories.
The Agency relied primarily on the 1993 BRS to estimate the quantity of potential Phase IV TC
metal waste that is currently being generated4 and currently being surface-disposed (and thus potentially
requiring alternative treatment). The following steps describe the methodology used to identify these
wastes from the BRS:
1. Data was extracted from the BRS GM Form for all of the TC metal waste streams that carried at
least one TC metal code (D004-D011) and no other code. Thus, waste streams that carried a TC
metal waste code along with a listed waste code or other characteristic waste code (e.g., a TC
organic waste code) were excluded because the TC metals and the UHCs in these waste streams
were addressed when EPA promulgated the UTS for these wastes in previous LDR rulemakings.
2. The data were aggregated according to whether the waste was managed on site or shipped off
site. The on-site quantity is the "quantity treated, disposed, or recycled in 1993" from the GM
form (not the "quantity generated in 1993"), while the off-site quantity is the "total quantity
shipped in 1993." Total generation is the summation of these two quantities.
3. To avoid double-counting, non-primary TC metal wastes were eliminated using an origin code of
5 in the GM form.5 Similarly, waste streams with an origin code of 4, which indicates that the
waste stream was received from off site but not managed on site, were eliminated.6
3 In fact, three categories exist. The third is the EP wastes that are not TC hazardous. These wastes do not need to
meet the LDRs because they are no longer considered hazardous wastes.
4 For the purpose of this capacity analysis, and as discussed in more detail later in this section, the TC metal waste
generation refers to wastes that carry only a TC metal code and that are not deep well injected or disposed without
treatment under a National Pollutant Discharge and Elimination System (NPDES) permit.
5 An origin code of 5 on the GM Form indicates that the waste stream was derived from the management of a
hazardous waste. In general, non-primary waste streams (i.e., treatment residuals) are not included in the capacity
Page 3-4
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4. DeepwelI/underground injection wastes (waste code Ml34) and wastes that are directly
discharged to surface water under NPDES without prior treatment (waste code Ml36) were
excluded. Underground injected wastes are addressed by a separate analysis, and the NPDES
wastes are generally not subject to the LDRs.
5. The generated quantities were aggregated by inorganic and organic liquids, inorganic and organic
solids, and inorganic and organic sludges.
6. Waste quantities were aggregated by waste code. Waste streams with multiple TC metal waste
codes were grouped separately as "mixture" streams.
Exhibit 3-2 provides the TC metal-only waste quantities generated by waste code and waste type.
Note, however, that this exhibit shows total waste generation, which includes wastes potentially affected
by the Phase IV LDRs. To estimate the quantity of wastes potentially affected by the Phase IV LDRs,
several additional steps were taken and assumptions were made. (See Appendix D for the raw data used
for this analysis.)
Exhibit 3-2
1993 Generation of TC Metal Wastes (Tons)*
Waste Code
Arsenic (D004)
Barium (D005)
Cadmium (D006)
Chromium (D007)
Lead (D008)
Mercury (0009)
Selenium (DO 10)
Silver (DO 11)
Mixtures
Total
Inorganic
Liquids
162,855
66,364
1,169,776
16,823,543
6,202,113
2,690,316
199,733
252,682
3,971,784
31339,166
Organic
Liquids
789
260
1,435
42,474
29,455
469
388
13,166
12,070
100306
Inorganic
Solids
4,039
23,822
19,173
49,866
1,190,037
8,634
793
2,198
170,953
1,469315
Organic
Solids
746
1,077
313
2,144
5,607
81
22
45
5,267
15^02
Inorganic
Sludges
520
431
132,594
389,790
23,519
95
16,078
1,192
36,222
600,442
Organic
Sludges
3
234
83
873
1,956
19
0.6
0.3
4,051
7,220
Total
168,952
92,188
1,323,373
17,308,690
7,452,686
2,699,614
217,015
269,284
4,200,347
33,732,151
a For the purpose of this capacity analysis, and as discussed in more detail later in this section, the TC metal waste
generation refers to wastes that carry only a TC metal code and that are not deep well injected or disposed without
treatment under a NPDES permit.
The first key assumption developed to identify TC metal wastes affected by the LDRs involved
wastewaters. TC metal wastewaters typically are managed in tanks and discharged under Clean Water
Act (CWA) or equivalent regulations or in underground injection wells, and thus would not require any
additional treatment capacity or are otherwise outside the scope of this analysis of surface-disposed
wastes. Therefore, wastewaters are excluded from our analysis (although liquid nonwastewaters are
included). In fact, these wastewaters are likely not reported in the BRS because they do not meet the
estimates because if management practices change as a result of the LDRs, such residuals will no longer be
generated.
6 Waste streams that are sent to a transfer facility and then sent to a hazardous waste management facility are
supposed to be reported in the BRS at least twice, once by the facility generating the waste and once by the facility
transferring the waste. To avoid double-counting, waste streams with an origin code of 4 (indicating that the waste
was received from off site and not managed on site) were eliminated.
Page 3-5
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definition of solid waste. However, residues resulting from the treatment of these wastewaters are
usually managed as nonwastewaters and thus are included in the BRS.
To develop lower- and upper-bound estimates of the quantity of surface-disposed TC metal
wastes, and thus of wastes that may require alternative treatment or recovery capacity upon promulgation
of the Phase IV LDR rule, the Agency applied two key sets of assumptions:
1. For the upper-bound estimate, the Agency used the conservative assumption that all of the TC
metal nonwastewaters that are either surface-disposed (i.e., where the system type was landfill,
land treatment, surface impoundment, or "other" disposal), shipped to transfer facilities,7 or
reported as managed in invalid system types (e.g., when M141 (transfer off site) is used as an on
site treatment) will require at least some form of alternative treatment/recovery to meet the new
treatment standards. The actual quantity is likely to be lower than this for two main reasons: (i)
many of these waste streams are not surface-disposed and thus would not require alternative
capacity; and (ii) many facilities likely will make modifications in their production processes
and/or waste management in order to avoid the LDRs. EPA believes that these reasons eclipse
any of the reasons that would tend to indicate that this estimate would not be an upper bound.8
2. For the lower-bound estimate, EPA primarily used the assumption that only the reported surface-
disposed wastes would require alternative capacity. The actual quantity is likely to be higher
than this because many of the waste streams that are surface-disposed (and thus would likely
require alternative capacity) are not reported as such in the BRS. This non-reporting is primarily
due to SQGs and to the fact that when TC metal wastes are decharacterized through treatment
(e.g., stabilization), they are no longer hazardous and thus their ultimate disposal no longer needs
to be reported in the BRS. EPA believes that this non-reporting eclipses any of the reasons that
would tend to indicate that this estimate would not be a lower bound.9
Exhibits 3-3 and 3-4 provide the upper-bound and lower-bound estimates of surface-disposed TC
metal wastes, or approximately 2.6 million to 0.8 million, respectively. This estimate compares
favorably with a lower-bound estimate of 2,2 million tons that was obtained by summing the non-mixture
quantities (converted from gallons using 8.35 pounds/gallon) of EP metal wastes requiring alternative
capacity described in the Background Document for Third Third Wastes to Support 40 CFR Part 268
Land Disposal Restrictions, Final Rule, Third Third Waste Volumes, Characteristics, and Required and
Available Treatment Capacity, Volume n, Chapter 3, May 1990. This (Third Third rule) is considered a
lower-bound estimate for EP metal wastes at the time because it does not include EP metal wastes mixed
with other EP metal wastes (nor other waste codes or organics, as with the TC metal estimates above).
However, the mixture totals for each EP metal waste were consistently less (and usually much less) than
the non-mixture totals, and thus the overall EP total from the Third Third LDR is believed to be less than
approximately one and a half times the 2.2 million ton estimate (i.e., 3.3 million tons). Nevertheless,
given the waste minimization, etc., that likely has occurred since the Third Third LDR, even one and a
half times 2.2 million tons would compare favorably with the current estimates.
Given the manner in which transfers are reported, it is not always possible to identify how transferred waste
streams are managed. Therefore, as a worst-case scenario, the Agency assumed that all shipments of wastes to
transfer facilities require additional treatment.
8 For example, small quantity generators (SQGs) are not required to report their wastes in the BRS. Furthermore,
although many of these SQG wastes likely are transferred off site to be managed, and thus would be entered on a WR
Form, only the generally smaller hazardous waste residual, if any, would be entered on a GM Form.
9 For example, many facilities likely will make modifications in their production processes and/or waste
management in order to avoid the LDRs.
Page 3-6
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Exhibit 3-3
Upper-bound Estimates of Surface-Disposed TC Metal Wastes (Tons)
Waste Code
Arsenic (D004)
Barium (D005)
Cadmium (D006)
Chromium (D007)
Lead (D008)
Mercury (D009)
Selenium (D010)
Silver (D011)
Mixtures
Total
Inorganic
Liquids
67
57
135,098
1,399
46,260
325,246
31
339
1,503
510,001
Organic
Liquids
8
11
84
2,400
1,525
55
7
10,532
987
15,609
Inorganic
Solids
4,039
' 23,822
19,173
49,866
1,190,037
8,634
793
2,198
170,953
1,469,515
Organic
Solids
746
1,077
313
2,144
5,607
81
22
45
5,267
15302
Inorganic
Sludges
520
431
132,594
389,790
23,519
95
16,078
1,192
36,222
600,442
Organic
Sludges
3
234
83
873
1,956
19
0.6
0.3
4,051
7,220
Total
5,383
25,632
287,346
446,471
1,268,905
334,131
16,932
14,306
218,983
2,618,089
Exhibit 3-4
Lower-bound Estimates of Surface-Disposed TC Metal Wastes (Tons)
Waste Code
Arsenic (D004)
Barium (D005)
Cadmium (D006)
Chromium (D007)
Lead (D008)
Mercury (D009)
Selenium (DO 10)
Silver (D011)
Mixtures
Total
Inorganic
Liquids
33
0
135,050
396
45,640
325,026
0
16
776
506,937
Organic
Liquids
0.4
2
25
23
80
0
1
10,501
83
10,715
Inorganic
Solids
2,511
556
12,583
26,213
84,449
7,145
608
37
98,209
232311
Organic
Solids
57
497
84
1,236
2,707
• 35
0.08
0.1
503
5,119
Inorganic
Sludges
420
24
40,302
231
602
0
0
2
1,680
43,261
Organic
Sludges
0.75
0
39
124
439
0
0,6
0
3,258
3,861
Total
3,022
1,079
188,083
28,223
133,917
332,206
610
10,556
104,509
802,210
3.4 SOIL AND DEBRIS CONTAMINATED WITH NEWLY IDENTIFIED TC METAL
WASTES
In all of the data sources consulted by the Agency, there was little information on the amount of
soil and debris that might be contaminated with the newly identified TC metal wastes. The Agency
believes that most of the soil and debris will probably be generated when facilities begin closing surface
impoundments to comply with the LDRs or as part of corrective action procedures where it will be
necessary to remove the soils for treatment. Consequently, EPA has no estimates for the amount of
contaminated soil and debris that would be subject to the LDRs for this proposed rule. Based on
discussions with commercial treaters (see Chapter 2), the Agency believes that these wastes could be
really treated to meet the proposed treatment standards. The Agency is seeking comments on this
approach and requests the commenters to provide additional information and data on these wastes.
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3.5 CAPACITY ANALYSIS
The capacity analysis for the original proposed Phase IV rule assumed that most TC metal wastes
are already meeting treatment standards or will meet treatment standards once stabilization formulations
and systems are optimized, and therefore no capacity variance was proposed. This section expands on
that assumption and provides a waste code-specific discussion of TC metal wastes, including soils,
mixtures, UHCs, and any unique features that could have a potential impact on this proposed capacity
determination. Relevant comments and data submitted by the commenters in response to the ANPRM
(56 FR 55160), the original Phase IV LDR proposal for TC metal wastes (60 FR 43654), and the NODA
(61 FT? 21418) are also included in this discussion.
3.5.1 Arsenic (D004)
As seen in Exhibits 3-3 and 3-4, approximately 3,000 to 5,400 tons/year of D004 wastes are
surface disposed. EPA is re-proposing, as originally proposed, a UTS level of 5.0 mg/1 for
nonwastewater forms of D004 (Exhibit 3-5). Therefore, there is no change in the treatment standard due
to this rulemaking (i.e., the TC level and the UTS level are the same) and, thus, the only potential
concern for capacity for D004-only wastes appear to be for the UHCs (see Section 3.5.10). In response
to the ANPRM, Chevron reported one facility that generates 30 tons per year of nonwastewaters
exhibiting the TC for arsenic (D004) that were not hazardous under the EP. The proposed UTS levels for
arsenic wastes are equivalent to the TC levels, however, and since the newly identified arsenic wastes
likely are already being treated to the TC levels to facilitate Subtitle D management of the waste, no
additional treatment would be required for these wastes as a result of today's proposed rule. Chemical
Waste Management (CWM) stated that some arsenic poses technical problems in achieving UTS levels
through stabilization technology, and that EPA should establish a high arsenic (> 200 ppm) subcategory.
However, the Agency conducted site visits (see the site visit reports, located in the docked for today's
proposed rule, for more detailed information) to the commercial treatment facilities to assess the
treatability of TC metals using stabilization and collected treatment performance data, which show that
arsenic could be treated to the proposed UTS levels using stabilization. Therefore, the Agency is
proposing no changes to the originally proposed UTS level or variance decision for arsenic wastes.
Exhibit 3-5
TC Metal Regulatory Levels and Originally Proposed and Re-proposed Treatment Standards
(Nonwastewater)
TC Metal
Arsenic (D004)
Barium (D005)
Cadmium (D006)
Chromium (Total) (D007)
Lead (D008)
Mercury-retort residues (D009)
Mercury-all others (D009)
Selenium (DO 10)
Silver (D011)
TC Regulatory
Level
(mg/1 TCLP)
5.0
100
1.0
5.0
5.0
0.20
0.20
1.0
5.0
Originally Proposed
UTS
(mg/1 TCLP)
5.0
7.6
0.19
0.86
0.37
0.20
0.025
0.16
0.30
Re-proposed UTS
(mg/I TCLP)
5.0
21.01
0.2
0.85
0.75
0.20
0.025
5.7
0.11
' Bold indicates changes to the originally proposed UTS levels.
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3.5.2 Barium (D005)
As shown in Exhibits 3-3 and 3-4, approximately 1,000 to 25,600 tons/year of D005 wastes are
surface disposed. EPA is re-proposing a revised UTS level of 21 mg/1 for nonwastewater forms of D005.
This value is about a 80 percent reduction in the treatment standard, but is significantly higher than the
proposed level of 7.6 mg/l. No comments were received that provided data on or otherwise discussed the
treatment capacity for this TC metal waste code. Therefore, D005-only wastes do not appear to present
any particular capacity problems,
3.5.3 Cadmium (D006)
Approximately 188,000 to 287,000 tons/year of D006 wastes are surface disposed (Exhibits 3-3
and 3-4). EPA is re-proposing, a UTS level of 0.2 mg/1 for nonwastewater forms of D006. This is
approximately an 80 percent reduction in the treatment standard.
AFS and the TDJ Group, commenting to the original proposal, suggested that stabilization
technologies have not been shown to treat cadmium to the proposed UTS level. These commenters also
implied that waste streams containing cadmium along with other metal constituents present additional
treatment problems. TDJ Group stated that approximately 500,000 to 1,000,000 tons of D006-D008
wastes will be affected by the proposed Phase IV rule, which is comparable to the approximately 350,000
to 2,000,000 tons of surface-disposed DOQ6-D008 wastes that EPA estimated using the BRS (taking into
account that not all of these wastes will be affected, and that the upper-bound includes a large one-time
generation amount of inorganic lead solids). Furthermore, these commenters, in addition to others,
suggested that HTMR is not commercially available for treatment and that stabilization is the only
commercially available treatment technology for many TC metal wastes. However, no data were
received specifically on the available treatment capacity for this TC metal waste. Furthermore, as
indicated in Chapter 2 and in the BOAT Background Document, cadmium could be readily treated to
meet the treatment standards using stabilization. Therefore, D006-only wastes do not appear to present
any particular capacity problems.
35.4 Chromium (D007)
As seen in Exhibits 3-3 and 3-4, approximately 28,000 to 446,000 tons/year of D007 wastes are
surface disposed. The Agency is re-proposing a UTS level of 0.85 mg/1 for nonwastewater forms of
D007 wastes. The re-proposed standard results in approximately an 80 percent reduction in the treatment
standard and is approximately equivalent to the originally proposed standard of 0.86 mg/1.
AFS suggested that the originally proposed UTS (0.86 mg/1) for chromium would be difficult to
achieve for chromium TC wastes (D007) in foundry sands. AFS suggested that the record was not
sufficient to address known interferences with stabilization technologies. However, no data were
submitted to support or refute this. Additionally, no comments were received specifically on
stabilization or other treatment capacity for D007 wastes.
355 Lead (D008)
Approximately 134,000 to 1,269,000 tons/year of D008 wastes are surface disposed. The
Agency is re-proposing a UTS of 0.75 mg/1 for nonwastewaters of D008 wastes. This is a reduction of
approximately 85 percent in the treatment standard, but is approximately two times higher than the
originally proposed treatment standard of 0.37 mg/1.
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In the original proposal EPA noted that, for lead wastes, the TCLP might be more aggressive in
extracting lead than the EP, and therefore assumed that the additional quantities of newly identified D008
wastes will be approximately 20 percent of the quantity of D008 wastes that were hazardous by the old
EP leaching procedure. Applying this 20 percent increase to the estimates EPA used for the Third Third
LDR rule results in an additional 41,250 tons per year of D008 nonwastewaters that will require
additional treatment. EPA requested comments on this assumption in the original proposal.
Substantial comments regarding the applicability of UTS for lead were submitted by AFS and
the Association of Battery Recyclers (ABR). Both groups commenting on the treatment standards for
lead suggested that the originally proposed 0.37 mg/1 UTS level for lead nonwastewaters is too low and
prefer a UTS between 3 and 5 mg/1. The following provide details on the data provided by industry on
D008 capacity.
Foundry Sands Waste
AFS has estimated that approximately 410,000 tons of D008 foundry sands are generated each
year (which is within EPA's estimated range for D008 wastes), and has stated that foundry metallic waste
constituents and concentrations are highly variable. AFS also believes that the foundry sand and the
emission control dust contain a significant amount of non-metallic constituents that differentiate foundry
waste from K061 wastes, which EPA had used to establish high temperature metal recovery (HTMR) as
the BOAT for some of the wastes. AFS believes that foundry sand differs from K061 in ways that
precludes them from being treated similarly. These differences include: (1) K061 typically has a much
higher concentration of recoverable heavy metals (primarily zinc); and (2) K061 does not have an
extremely high sand content in its waste matrix. Emission control dust from foundries also differs from
K061 because K061 typically has a much higher overall concentration of recoverable heavy metals
(primarily zinc). Because of these critical differences, AFS does not believe that HTMR is available or
practical for foundry wastes.
The Agency received additional data from several commenters in response to the original
proposed rule. Based on these data the EPA believes that the potentially affected TC metal universe is
limited to certain lead-bearing D008 hazardous wastes. The Agency estimates that there are 761 non-
ferrous foundries that generate approximately 300,000 tons of hazardous foundry sands, and 9 firms
owning 15 secondary lead smelters that generate approximately 198,000 tons of hazardous slags.
Commenters did not provide any comments specifically on stabilization capacity. However, data
submitted by the foundry industry shows that the originally proposed UTS level for lead was sometimes
achieved through stabilization, even when the treatment system (stabilization) was designed only to
target the TC level and not the proposed UTS level. These facts seem to indicate that foundry sands can
be treated to the proposed treatment standards using stabilization, and thus meeting the higher re-
proposed UTS of 1.6 mg/1 will be even less of a problem.
TC Lead Battery Slag
The Association of Battery Recyclers (ABR) and Battery Council International (BCI) submitted
some stabilization data, and requested that the UTS for lead be raised to 2.97 mg/1. BCI estimates that
the amount of lead slag requiring treatment is approximately 250,000 tons per year and ABR states that
an estimated 260,000 tons per year of D008 slag will require treatment (which is within our estimated
range for D008 wastes). EPA's preliminary analysis of the data indicated that these data would not affect
the estimate of the required or available treatment capacity.
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EPA received comments from the Environmental Technology Council (ETC) in response to the
Notice of Data Availability (NODA) for the LDR Phase IV proposed rule that provided treatability data
that demonstrated that lead battery slags and sludges can be treated by stabilization to UTS for lead and
underlying hazardous constituents (UHCs).
ETC's data for lead shows that out of 36 samples of stabilized slag, 29 (80.6%) achieved a TCLP
result below the originally proposed UTS for lead of 0.37 mg/1. In all cases the treatment objective was
to reduce leachability to below characteristic level, since UTS levels were not applicable at the time.
Nevertheless, not only did the stabilization meet the characteristic levels for these samples, it also met the
proposed UTS levels for all arsenic, barium, and nickel values. Eight of the nine (88.9%) cadmium
values and six of the seven (85.7%) selenium values also met the proposed UTS. Based on these
treatability data, ETC believes there can be no doubt regarding the ability to meet the UTS for this slag.
Hence, it is unlikely that there will be any capacity shortfalls for TC metal wastes affected by the
proposed rule once stabilization "formulations" are optimized to meet UTS.
These data seem to confirm EPA's assumption that the rule would primarily only require some
modification to existing stabilization "formulations" to meet UTS. Consequently, sufficient capacity
likely already exists to treat these wastes.
3.5.6 Mercury (0009)
EPA is re-proposing, as originally proposed, a UTS level of 0.20 mg/1 for the nonwastewater
mercury retort residue subcategory and 0.025 for all other nonwastewater forms of D009. Mercury
Recovery Services (MRS) provided data (see Appendix E) to show that the proposed UTS levels can be
achieved and noted that MRS has the capability to provide mobile treatment units for treating mercury
contaminated wastes. No other specific comments were received that would affect our estimate of the
required or available alternative treatment capacity for D009-only waste. Therefore, D009-only wastes
do not appear to present any particular capacity problems,
35.7 Selenium (D010)
Approximately 600 to 17,000 tons of DO 10 wastes are surface disposed. The Agency, in the
original proposal, proposed a treatment standard of 0.16 mg/1 for nonwastewater forms of D010 wastes.
However, in today's proposal, the Agency is re-proposing a revised UTS of 5.7 mg/1 for nonwastewater
forms of DO 10, which would be significantly greater than the TC level of 1.0 mg/1.
CWM and Rollins Environmental both submitted comments that highlighted their inability to
stabilize nonwastewater forms of DO 10 selenium-containing incineration ashes in the presence of other
metals. These commenters stated that the proposed 0.16 mg/1 TCLP for nonwastewater forms of DO 10
wastes was not routinely achievable utilizing "best operating practices". They also discussed selenium's
unique pH/solubility curve, which is significantly different from other characteristic metals. Specifically,
selenium's minimum solubility is at a neutral to mildly acidic pH, while it is highly soluble in the basic
pH range. The other characteristic metals have a minimum solubility in the basic pH range, while their
solubility increases in the neutral and acidic pH's. These commenters believe that this difference in
solubilities creates a problem for treating wastes with a mixture of characteristic metals that includes
selenium.
In light of these different pH/solubility curves for selenium and other characteristic metals,
CWM and Rollins believe that the treatment standard for selenium should be changed to make it more
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consistent with what is routinely achievable. Further, these commenters have provided treatment data on
the stabilization of incineration ashes and soils that appear to support their claims regarding the enhanced
mobility of selenium under normal alkaline stabilization practices. Since, the Agency has revised the
proposed selenium UTS based on these comments, achieving the re-proposed UTS for selenium should
not pose any difficulties and, therefore, DOlO-only wastes do not appear to present any capacity
problems.
3.5.8 Silver (D011)
Approximately 11,000 to 14,000 tons/year of D011 wastes are surface disposed. The Agency is
re-proposing treatment standards for silver at 0.11 mg/1 for nonwastewater forms of D011. This is
approximately a 97 percent reduction in the treatment standard, and about a 50 percent reduction from
the originally proposed standard of 0.30 mg/1.
The Silver Coalition and Kodak noted that silver was included in the TC list of metals solely
based on the MCL for silver under the Safe Drinking Water Act, and since the Agency deleted the silver
MCL (56 FR 3573) and is further considering deleting silver from the TC list, any new standards for
silver should be withheld until the Office of Solid Waste has completed its current review of silver's
inclusion on the TC list. However, no specific treatment capacity data were submitted by the
commenters. Therefore, D011 wastes do not appear to pose any capacity problems.
3.5.9 TC Metal-Only Mixtures
As seen in Exhibits 3-3 and 3-4, TC metal waste mixtures represent about 10 percent of the
upper-bound estimate and 13 percent of the lower bound estimate of surface-disposed TC metal wastes.
Thus, mixtures discussed above as causing treatment difficulties likely will be less than 10 percent of the
wastes requiring alternative treatment. Nevertheless, several combinations of problem mixtures were
identified that are routinely generated in a number of different industries.
AFS submitted comments relating to foundry sands that contain up to 5 to 6 percent lead in
addition to cadmium, chromium, and selenium. ABR submitted comments regarding secondary lead
smelters that generate a slag containing lead and other metals from the recycling of batteries. Mixtures
with combinations of constituents that include arsenic, selenium, chromium, and cadmium probably have
the greatest potential to affect capacity based on the fact that CWM and Rollins have found mixed waste
streams with these constituents difficult to treat. However, ETC has been successful treating mixtures
containing these constituents to UTS and believes that the problem could be totally resolved once
specific stabilization "formulations" are developed to meet UTS. The Agency contacted several
commercial treatment facilities to collect data to estimate the time required to comply with the proposed
treatment standards (see Chapter 2), Based on the information collected from these facilities, EPA
believes that the necessary changes to the treatment systems to comply with the proposed treatment
standards could be made in a relatively short amount of time. The Agency encourages the commenters to
provide additional technical information and treatment performance data to support or refute this analysis
for the final rule.
3.5.10 UHCs
Several commenters have expressed concern regarding the treatability of all UHCs in TC metal
wastes. The TDJ Group noted that it is not clear whether the Agency fully considered the feasibility of
achieving the UTS for all UHCs, and, in addition, whether such requirements would be a prudent use of
the waste management dollars. ABR stated that the UHCs in the lead battery slag cannot be treated to the
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proposed UTS using the stabilization technology. However, no data were submitted to support these
comments.
Some commenters had stated that the presence of organic UHCs interfere with the stabilization
process and, therefore, the TC metals in these wastes could not be treated to the proposed treatment
standards. CWM stated that new RCRA Subpart CC rules (i.e., for organic air emissions at treatment
facilities) have to be complied with when considering the treatment of TC metal wastes with organic
UHCs. The Agency contacted several commercial treatment facilities to obtain information on the
treatability of TC metal wastes with organic UHCs (see Chapter 2). Several facilities indicated that
organic UHCs can be readily treated to the UTS. CWM stated that 75 percent of the wastes managed by
CWM are incinerated to meet the organic LDRs prior to metals treatment. Data obtained using the
organic form code from the BRS (Exhibits 3-3 and 3-4) indicate that approximately 20,000 to 40,000
tons/year of wastes may contain organic UHCs, Wastes containing organics, however, are amenable to
thermal treatment prior to stabilization, and since adequate thermal treatment (and probably some
stabilization and other technologies) capacity likely are available for organics, treatment of TC metal
wastes containing organic UHCs are expected to pose few problems in terms of capacity (except,
perhaps, for relatively minor logistics and timing issues).
3.6 RESULTS
As discussed above, EPA estimates that approximately 0.8 to 2.6 million tons of TC metal wastes
are surface disposed. Because many of these wastes are believed to already be meeting the new
treatment standards, or will otherwise undergo waste segregation and minimization prior to the LDRs, a
much smaller quantity likely would require alternative treatment as a result of promulgation of today's
proposed rule. Furthermore, approximately 260,000 tons/year10 of these wastes are newly identified TC
metal wastes (i.e., wastes that are not or would not be hazardous using the EP), while the remainder are
EP hazardous TC metal wastes. As discussed in Sections 3.3 and 3.4, both types of wastes are expected
to only require optimization of existing stabilization formulations and systems. For example, the
majority of the newly identified TC metal wastes are currently being treated to TC levels because it is
believed to be more economical to treat the TC metal wastes to TC levels and dispose the waste in
Subtitle D landfills rather than to manage the waste untreated in Subtitle C landfills. Also, for arsenic
and mercury, the UTS are equivalent to the TC levels and therefore will require no changes in treatment
capacity (except to the extent treatment system optimization is needed to meet UTS for UHCs).
Nevertheless, as noted in Chapter 2, Available Capacity, more than one million tons/year of commercial
stabilization capacity is available for the newly identified wastes (including new treatment residues
resulting from thermal treatment of TC metal wastes containing organic UHCs; see below).
Regarding the EP hazardous TC metal wastes, the Agency examined data provided by
commenters, obtained during site visits to selected commercial treatment facilities, and discussed in
Chapter 2, and believes that the proposed treatment standards are routinely achievable using current
treatment technologies such as stabilization. Also, as seen in Chapter 2, limited capacity for vitrification
and HTMR also exists to treat the otherwise difficult-to-treat TC metal wastes, and sufficient combustion
capacity exists to pre-treat TC metal wastes that contain organic UHCs. In addition, the majority of the
TC metal wastes are already being treated to the TC and, possibly, UTS levels. Thus, any capacity
variances would likely only be needed to allow treaters sufficient time to implement modifications (e.g.,
developing new waste-specific stabilization "formulations") to their treatment systems. Based on these
results, the Agency proposes to not grant a national capacity variance for the TC metal wastes, including
10 Based on data (primarily lead slag) provided by the commenters in response to the original proposed rale. No
data was provided on other newly identified TC metal wastes, and their quantities are assumed to be much lower.
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soil and debris, covered by today's proposed rule. However, the Agency notes that if generators cannot
obtain adequate treatment for specific wastes, then the generators may apply for a capacity variance
extension under 40 CFR 268.5. Furthermore, if treaters have difficulties in treating specific wastes and
would require additional time for developing new treatment recipes, then the treaters may apply for a
treatability variance under 40 CFR 268.42. EPA encourages commenters to provide data and additional
information on the treatability of TC metal wastes to support the final TC metal LDR rule.
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CHAPTER 4
CAPACITY ANALYSIS FOR THE NEWLY IDENTIFIED MINERAL PROCESSING WASTES
This chapter describes the capacity analysis for the newly identified mineral processing wastes
that are considered potentially hazardous and thus subject to the LDRs. The main purpose of this
analysis is to estimate the demand for commercial treatment/recovery for the newly identified wastes and
to propose the effective date of the LDRs for these waste streams in the Phase .IV second supplemental
proposed rule. This chapter is organized into five sections: Section 4.1 provides the regulatory
background and identifies the universe of mineral processing wastes covered by this proposed rule;
Section 4.2 describes the data sources used for the capacity analysis; Section 4.3 discusses the analysis of
required capacity for the newly identified mineral processing wastes; Section 4.4 discusses soil and
debris contaminated with newly identified mineral processing wastes; and Section 4.5 provides a
discussion of the capacity variance decisions.
4.1 REGULATORY BACKGROUND
Under section 8002 of the 1980 Amendments to RCRA, commonly referred to as the Bevill
Amendment, wastes from extraction, beneficiation, and mineral processing operations were excluded
from regulation as hazardous wastes under Subtitle C pending further study. The Bevill Amendment
required the Agency to present its findings in a Report to Congress and to issue a regulatory
determination based on this study. Mineral processing wastes were considered unique by Congress
because they are often generated in large volumes and thought to be of low hazard and less amenable to
standard treatment technologies than other Subtitle C wastes.
The Agency completed its study of extraction and beneficiation wastes in 1985 and issued a
regulatory determination in 1986 removing these wastes from Subtitle C regulation. Several Court
challenges to EPA's regulatory approach delayed completion of the Agency's study of mineral processing '
wastes until July 1990 and limited the study to high-volume, low-hazard wastes referred to as "special
wastes".
The Agency established the criteria for what constitutes a "special waste" in a September 1, 1989
rulemaking (54 FR 36592) and permanently removed all but 25 mineral processing wastes from the
Bevill exclusion. Five more wastes were removed from the exclusion in a second rulemaking
promulgated January 23, 1990 (55 FR 2322). All waste streams removed from the Bevill exclusion and
subsequently found to exhibit any of the RCRA hazardous characteristics (e.g., corrosivity, ignitability,
reactivity, or toxicity) became subject to RCRA Subtitle C requirements.
To determine which sectors-generated mineral processing wastes that meet the high-volume,
low-hazard criteria, a list of 100 mineral commodity sectors was compiled based on data provided by the
Bureau of Mines and additional data collected for earlier regulatory efforts. Using the definitions of
mineral processing described in the 1989 rule, 50 mineral processing commodity sectors were
determined to generate only extraction and beneficiation wastes and were thus excluded from Subtitle C
regulations.
In addition to the above wastes, five wastes (K064-K066, K090-K091) generated from primary
metal smelters were listed as hazardous wastes on May 19, 1980 (45 FR 33112) and on July 16, 1980 (45
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FR 47832).' EPA suspended the listings for these smelter wastes on November 12, 1980 (45 FR 76618)
and on January 16, 1981, because these wastes appeared to be within the scope of the Bevill exclusion.2
During 1984, several environmental organizations challenged EPA's failure to comply with the terms of
the Bevill Amendment. [Concerned Citizens of Adamstown v. EPA, Civ No. 84-3041 (D.D.C.)] As a
result, the court ordered EPA to take action on a planned proposed rulemaking reinterpreting the scope of
the mining waste exclusion. Under court order, EPA proposed to narrow the scope of the exclusion by
relisting the five metal smelting wastes, among other things (50 FR 40292). On October 9, 1986,
however, the Agency announced that it was withdrawing its proposed reinterpretation due to definitional
problems EPA faced in determining how to group and classify the wastes (51 FR 36233), This
withdrawal of the proposed reinterpretation effectively continued the suspension of the five smelter
waste listings. This action was also challenged by environmental organizations [EDF v, EPA, No. 86-
1584 (D.C. Cir.)]. The Court directed EPA to relist the smelter wastes by August 31, 1988. Therefore,
EPA reinstated the hazardous waste listings for these five wastes associated with smelting operations.
The relisting was subsequently challenged by the American Mining Congress on the grounds that
EPA failed to give an adequate reasoned explanation for its decision to relist the wastes [AMC et al. v.
U.S. EPA, Nos. 88-1835 et al. (D.C. Cir.)]. During July 1990, the court remanded the five smelting
wastes for further consideration and explanation by the Agency with respect to the basis for the relisting.
The Agency is proposing not to re-list these wastes as hazardous in the Phase FV proposed rale.
The Agency will, instead, regulate these wastes according to their hazardous characteristics. Thus, the
regulatory status of these wastes does not differ from the "de-Bevilled" wastes discussed above, and
therefore these wastes are included in the present capacity analysis.
On January 25, 1996, EPA proposed treatment standards for the newly identified mineral
processing wastes. Today's proposed rule re-proposes treatment standards for these wastes.
4.2 DATA SOURCES
EPA has collected considerable information on the mineral processing industry, including data
on waste volumes generated, waste characteristics, and waste management practices. These data
collection efforts have included formal and informal surveys, site visits, sampling, literature searches,
and analyses of public comments to proposed rulemakings. As a result of these data collection efforts,
the Agency has developed a large body of data on mineral processing industry wastes and management
1A total of eight waste streams generated from metal smelting operations were listed. In 1985, however, EPA
determined that K067 and K068 do not meet the current definitions of solid waste; therefore, these wastes are no longer
listed (50 FR 40296). In addition, K088, which was relisted in 1988 and not affected by the court ruling, was addressed
in the Phase HI proposed rule (60 FR 11702).
2 On October 21,1980, Congress enacted a law which included various amendments to RCRA. Section 7 of these
amendments (the "Bevill Amendment") amended §3001 of RCRA to exclude "solid waste from the extraction,
beneficiation, and processing of ores and minerals" from regulation as hazardous wastes under Subtitle C of RCRA
pending the completion of studies of these wastes to determine what adverse effects they had on human health and the
environment, if any.
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practices,3 The following sections describe the primary data sources used to develop the mineral
processing capacity data set, which was used to perform the capacity analysis.
4.2.1 ANPRM Comments
EPA received eleven comments to the October 24, 1991 Advanced Notice of Proposed
Rulemaking (ANPRM) (56 FR 55160) from trade associations and mineral producers relevant to former
Bevill-exempt mineral processing wastes. Their comments addressed such issues as treatment standards,
waste characteristics, management practices, and available and required capacity. EPA used the
characterization data provided to supplement the characterization information the Agency already had on
these wastes. The pertinent information on available and required capacity and waste management are
discussed in the applicable sections below.
4.2.2 National Survey of Solid Waste from Mineral Processing Facilities (RTI Survey)
In February 1989, EPA administered a written questionnaire to the operators of all facilities that,
to the Agency's knowledge, generated one or more of the ore and mineral processing waste streams that
the Agency was considering retaining within the Bevill exclusion at that time. This survey, known as the
RTI Survey (for the Research Triangle Institute, which conducted the survey), included approximately
300 questions, and was distributed to the operators of about 200 mineral processing facilities. Despite
certain limitations (described below), the RTI Survey represents the single most comprehensive source of
available data on mineral processing waste generation and management.
It should be noted that the RTI Survey was designed and conducted before the regulatory
definition of "special waste" was finalized, and only a high volume criterion was used as a basis for
inclusion. Forty-two of the wastes included in the RTI Survey have since been removed from the Bevill
exclusion, and are expected to be hazardous. The Survey, however, did not include many low-volume
mineral processing waste streams which comprise a significant proportion of the potentially hazardous
wastes and which could be important for the capacity analysis. Available information on these waste
streams is much less complete. For these wastes, EPA generally does not have recent facility-specific
data on waste quantities generated.
The RTI Survey was designed to elicit information on operational characteristics of individual
facilities, on sources and quantities of wastes, and on current and alternative waste management
practices. Several questions requested data on waste characteristics. In each of these questions, respon-
dents were given a list of 82 constituents and asked to report the average total concentration of up to 15
of the constituents for each waste stream (defined by the processing unit from which the waste stream
was generated). Respondents were allowed to base their answers either on test results or on general
knowledge of the stream in question and were not required to conduct additional testing or to document
the basis for their answer. The RTI Survey consisted of nine sections, of which four sections had
questions pertaining to waste characteristics. These four sections are described below:
• Section 2 - Processing units that generate a special waste. The questions in Section 2 of
the RTI Survey focused on individual units in the production process. Facilities were
required to complete a Section 2 question set for each special waste generated. The RTI
* U.S. EPA, 1995, Identification and Description of Mineral Processing Commodity Sectors and Waste Streams •
Interim Final Document, Office of Solid Waste, March 15,1995.
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Survey specifically requested information about 47 special wastes, although some
facilities provided information about additional wastes not specifically identified in the
Survey. Pertinent questions requested the name of the waste stream, the name of the
processing unit generating that waste, and the characteristics of that waste stream.
Section 3 - Processing units that receive a special waste. Section 3 asked questions
about on-site operating units that utilized one or more special wastes as feedstocks, and
produced final or intermediate products (i.e., materials of value). Section 3 asked
respondents to identify the processing unit and as many as eight of the material inputs
(special waste or not) to the unit and to list any (up to six) residues generated by the
processing unit. The names of residues listed in actual survey responses varied by
facility. Even facilities in the same industry sector with similar operations may have had
widely differing residues due to differences in nomenclature and in interpretation of the
particular question, making it difficult to identify similar waste streams. Questions in
Section 3 asked for the composition of "the liquid residue" and "the solid residue"
generated by the unit, but the responses often could not be traced to a precise waste
stream.
• Section 4 - Wastewater treatment plants that receive a special waste. Pertinent questions
in Section 4 asked facilities to identify the wastewater treatment plant in question, list up
to ten inflows to the plant (special waste or not), and give characteristics of the "liquid
outflows" and of the "sludge/solid outflows".
Section 5 - Surface impoundments that receive a special waste. The format of Section 5
is similar to Section 4. Facilities were asked to identify the surface impoundment, list
inflows (special waste or not), and provide characteristics of "liquids removed from the
surface impoundment" and "sludge/solids removed from the surface impoundment." In
many cases the inflow information indicated that special wastes were combined with
other wastes (sometimes other special wastes), making it difficult to categorize the data
as applying to an individual special waste stream.
4.2.3 Comments to Bevill Rules
EPA proposed, re-proposed, and promulgated several rules related to the 1980 Bevill
Amendment. These regulatory actions defined the scope of the Bevill exemption and ultimately
determined which waste streams would become subject to Subtitle C regulation. In response to the
various proposals and specific requests for information on waste generation and management, public
commenters submitted data for specific waste streams for the Agency's use in developing final regulatory
actions. For some sectors, these data are the only available information on waste generation used for the
present capacity analysis.
4.2.4 EPA Sampling Data
EPA's Offices of Solid Waste (OSW) and Research and Development (ORD) both conducted
sampling and analysis efforts. EPA Sampling Data includes analytical data on samples obtained and
analyzed by EPA in 1989.
OSW sampled 36 mineral processing facilities in 16 industry sectors as part of its effort to define
the scope of the Bevill exclusion. Samples were collected for 42 waste streams at the point of waste
Page 4-4
-------�
generation from at least two facilities in each sector (except for waste types that were only generated by a
single facility). In general, the wastes also were sampled as managed (e.g., after treatment or disposal).
Each sample was analyzed using EP and SPLP4 tests and also analyzed for total concentration. In some
cases, wastes were analyzed for various organics, pH, and radioactivity.
ORD collected data to support a series of reports characterizing waste streams and facilities in
eight industry sectors. The types of data compiled from this effort varied with the individual report, but
in most cases they were similar to that collected by OSW.
4.2.5 §3007 Data (1989)
In 1989, EPA issued a formal request, under authority of RCRA §3007, requesting all mineral
processing facilities to submit any currently available information on the characteristics of the special
mineral processing wastes generated at the facility. EPA requested these data as part of an effort to
augment existing EPA waste characterization data and to give the facilities affected by the Mining Waste
exclusion an opportunity for meaningful input into the Agency's evaluation of these wastes. Operators
were notified that failure to respond to the information request might lead to penalties under RCRA
§3008(a),
The §3007 letter specifically requested all existing data collected since January 1, 1984 on the
physical and chemical composition, radioactivity, and pH of candidate wastes. Existing data from
extraction-type tests, particularly from SPLP and EP toxicity leach tests, were also requested. In some
cases, facility operators had few or none of the requested data, or had reason to believe that existing data
were not representative of wastes as currently generated. In these cases, facility operators were allowed
to voluntarily collect new data through sampling and analysis.
EPA received responses to its data request from 228 facilities in 22 industry sectors. Facility
operators responded in a number of different ways, up to and including submitting hundreds of pages of
data from weekly or daily monitoring. Although the §3007 letter requested that all data submitted
indicate the type of waste to which they apply, and the analytical method(s) used, this instruction was not
always followed. In some cases, the identity of the waste stream and/or the testing method used was not
clear.
4.2.6 Data from Effluent Guidelines Development Documents
EPA's Office of Water collected data, under section 308 of the Clean Water Act (CWA), in
support of the effluent guidelines and pretreatment standards development process. These data are
presented in the effluent limitations guidelines and standards .documents for each industry. The mineral
processing characterization data set compiled by EPA includes data from these industry specific
documents.
4.2.7 §3007 Data (1994)
In December 1994, EPA issued a formal request under the authority of RCRA §3007, requesting
ASARCO to submit currently available information on the mineral processing waste generation,
4 The Synthetic Precipitation Leaching Procedure (SPLP, Method 1312) is the basis of one of two low hazard criteria
used to define the scope of the Bevill exclusion. The second criterion is pH.
Page 4-5
-------�
composition, management, and treatment practices. ASARCO submitted the requested information for
seven facilities as Confidential Business Information (CBI). These data are used in the present analysis,
but masked to maintain confidentiality.
4.2.8 Data Submitted by FMC Corporation
In December 1994, FMC Corporation submitted typical analysis data on four different mineral
processing waste streams from its Pocatello facility in Idaho. Also, FMC submitted additional data in
response to the supplemental proposed Phase IV rule (61 FR 2338) and the Phase IV - Notice of Data
Availability (61 FR 21418). These data are included in the present capacity analysis.
4.2.9 Data Submitted by Commenters in Response to the Supplemental Proposed
Phase IV Rule
In the supplemental proposed Phase IV rule (61 FR 2338), EPA solicited comments on the waste
quantities and management practices of the newly identified mineral processing wastes that were covered
by this proposed rule. Several commenters provided comments and data on the waste generation and
management of the newly identified mineral processing wastes. These comments and data are included
in the capacity analysis described in this report.
4.2.10 Other Data Sources
Various other rulemakings and reports were consulted for this study, including the sources listed
below:
Bevill Mineral Processing Reinterpretation Rule (54 FR 36592), September 1, 1989, and
Background Document;
Mining Waste Exclusion Proposed Rule (54 FR 39298), September 25, 1989;
Mining Waste Exclusion Final Rule (55 FR 2322), January 23, 1990;
Overview of Solid Waste Generation, Management, and Chemical Characteristics:
Primary Antimony, Magnesium, Tin and Titanium Smelting and Refining Industries, PEI
Associates, December, 1984;
Draft Report to Congress, Solid Wastes from Selected Metallic Ore Processing
Operations, July 15, 1988;
Overview of Solid Waste Generation, Management, and Chemical Characteristics in the
Bauxite Refining and Primary Aluminum Industry, Radian Corporation, November,
1984;and
Investigative Study to Determine Viable Options to the Remand of Mining and Smelting
Wastes (unpublished draft), EPA Office of Solid Waste, Waste Identification Branch,
1992.
Page 4-6
-------�
4.3 METHODOLOGY AND ASSUMPTIONS
This section provides an overall description of the methodology and assumptions used to
estimate the quantities of newly identified mineral processing wastes that will require alternative
treatment as a result of the Phase IV supplemental LDRs.
EPA used several data sources (described in Section 4.2) to characterize the affected universe.
Exhibit 4-1 lists the potentially affected waste streams by mineral processing sector, shows the estimated
quantity generated, and identifies whether the constituents exceed the TC metal or characteristic
regulatory levels (information provided in this exhibit is based on baseline data used in the RIA). The
data provided in Exhibit 4-1 are based on the following conventions:5
Waste Quantities:
• The waste quantity generated includes both estimated and reported values. Estimated
values are provided as a range (minimum, expected, and maximum). Reported values
are point estimates (and therefore the same value is used for minimum, expected, and
maximum). These generated quantities may be recycled, and/or disposed.
Hazardous Characteristics:
• "Y" means EPA has actual analytical data demonstrating that the waste exhibits one or
more of the RCRA hazardous characteristics.
"Y?" means that EPA, based on professional judgment, believes that the waste may
exhibit one or more of the RCRA hazardous characteristics.
"N" indicates that the waste probably does not exhibit one or more of the RCRA
hazardous characteristics.
"N?" indicates that insufficient data are available to analyze. Based on general
knowledge of the industry, however, EPA believes that the waste probably does not
exhibit one or more of the RCRA hazardous characteristics.
Recycling Status:
• "Y" means that EPA has information indicating that the wastestream is fully recycled.
• " Y?" means'that EPA, based on professional judgment, believes that the wastestream
could be fully recycled.
• "YS" means that EPA has information to show that the wastestream is partially recycled.
5 A detailed discussion on these assumptions can be found in the regulatory impact analysis (RIA) for this proposed
rule: U.S. EPA, 1997, Regulatory Impact Analysis of the Supplemental Proposed Rule Applying Phase IV LDRs to
Newly Identified Mineral Processing Wastes, Office of Solid Waste, U.S. EPA.
Page 4-7
-------�
Exhibit 4-1
MINERAL PROCESSING WASTES BY COMMODITY SECTOR
Commodity
Alumina and Aluminum
Antimony
Beryllium
Bismuth
Dadmlum
Calcium
Coal Gas
Copper
Elemonlal Phosphorus
Waste Stream
Cast house dust
Electrolysis waste
Autoclave filtrale
Stripped anoiyte solids
Slag and furnace residue
Chip treatment wastewater
Nitration discard
Alloy residues
Spent caustic soda
Electrolytic slimes
Lead and zinc chloride*
Metal chloride residues
Slag
Spent electrolyte
Spent soda solution
Waste acid solutions
Waste adds
Caustic washwater
Copper and lead sulfaU fiRar cakes
Copper removal filler cake
Iron containing Impurities
Spent leach solution
Lead sullate waste
Post-leach filter cake
Spent purification solution
Scrubber wastewater
Spent electrolyte
Zinc precipitates
Dust with quicklime
Multiple effects evaporator concentrate
Acid plant blowdown
WWTP sludge
Andersen Filter Media
Reported
Gtneratlon
(1000mt/yr)
19
58
NA
0,19
21
NA
NA
NA
NA
NA
NA
3
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
0.04
NA
5300
6
0.46
. EjlTReported
Generation (1000m Vyr)
Mln
19
58
0.32
0.19
21
0.2
0.2
0.1
0.1
0
0.1
3
0.1
0.1
0.1
0.1
0
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0,04
0
5300
6
0.48
Avg.
19
58
27
0.19
21
100
45
3
6,1
0,02
3
3
t
6.1
6.1
6.1
0.1
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1.9
1,9
0.04
0
5300
G
0.46
M*x
19
58
54
0.19
21
2000
90
6
12
0.2
6
3
10
12
12
12
0.2
19
19
19
19
19
19
19
19
19
19
19
0.04
65
5300
6
0.46
Number
of Facilities
with Process
23
23
6
2
6
2
2
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
1
1
10
10
2
TC Metals
A3
V?
Y?
V?
Y
Y
Bt
Cd
Y
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y
Y?
Y
Cr
Y?
Y
Pb
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y
Y7
HB
Y
Y?
Y
S«
Y
Y
Ag
Y
Corr
N?
N?
Y?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
Y?
Y?
Y?
Y?
NT
N? ,
N?
Y?
N?
N?
Y?
Y?
Y?
N?
Y?
N?
Y
N?
N?
Ignlt
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N1
N?
N?
N?
N?
N7.
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
Rctv
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N1?
N?
N?
N?
N?
N?
Current
Recycle
Y?
Y?
YS?
Y
N
YS?
N
N
Y?
Y?
N
N
N
N
Y?
N
YS?
Y?
Y?
Y?
N
Y?
Y?
N
N
Y?
N
Y?
Y
YS
YS
YS
N
Recycled
to
Bevlll?
0
0
0
0
0
0
0
0
0
0
0
0
2
0
2
0
1
1
1
0
Waste
Form
3
3
1
3
3
1
3
3
2
3
3
3
3
2
1
1
t
t
3
3
3
2
3
3
1
1
2
3
3
2
2
3
3
Page 4-8
-------�
Exhibit 4-1
MINERAL PROCESSING WASTES BY COMMODITY SECTOR
Commodity
Fluorspar and
Hvdrolluoric Acid
Germanium
Lead
Magnesium and
Maqncsla Iron) Brines
Mercury
Molybdenum,
Ferromolytxlenum, and
Ammonium Molybdate
Platinum Group Metals
Pyrobilurflans, Mineral
Waxes, and Natural
Asohalls
Waste Stream
AFM rinsala
Furnace scrubber blowrjown
Furnace Building Washdown
Off-spec fluoslllcte add
Waste add wash and rinsa water
Chloitnator we) air pollution control
sludaa
-lydrolysis fill rate
Leach residues
Spent addfleaehate
Waste still liquor
Add plant sludge
Baghouse Incinerator ash
Slurried APC Dust
Solid residues
Spent furnace brick
Stockpiled miscellaneous plant waste
WWTP liquid eflluent
WWTP sludges/solids
Cast house dust
Smut
Dust
Quench water
Furnace residue
Rue dusVgases
Liquid residues
Slag
Spent acids
Spent solvents
Still bottoms
Waste catalysts
Reported
Generation
(lOOOmtfyr)
4
410
700
NA
NA
NA
NA
0.01
NA
NA
14
NA
7
0.4
1
NA
3500
380
NA
26
0.007
NA
0.077
NA
1
NA
NA
NA
NA
NA
EtL/Reported
Generation (tOOOmt/yc)
Mln
4
410
700
0
0.4
0.01
0.01
0.01
0.4
0.01
14
0.3
7
0.4
1
0.4
3500
380
0.076
26
0.007
63.
0.077
1.1
1
0.0046
0.3
0.3
0.002
0.002
Avfl,
4
410
700
15
2.2
0.21
0.21
0.01
2.2
0.21
14
3
7
0.4
1
88
3500
380
0,76
26
0.007
77
0.077
250
1
0.046
1.7
1.7
45
10
Max
4
410
700
44
4
0.4
0.4
0.01
4
0.4
14
30
7
0.4
1
180
3500
380
7,6
26
0,007
420
0.077
500
1
0.46
3
3
90
20
Number
of Facilities
with Process
2
2
2
3
4
4
4
3
4
4
3
3
3
3
3
4
4
4
1
2
7
7
7
11
2
3
g
2
2
2
TC Melals
As
Y?
Y?
Y7
Y?
Y?
Y?
Ba
Y?
Y
Cd
Y
Y
Y
Y?
Y?
Y?
Y?
Y?
Y
Y
Y
Y?
Y?
Y?
Cr
Y?
Y?
Y?
Y?
Pb
Y?
Y7
Y?
Y?
Y?
Y?
Y
Y
Y?
Y
Y
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Kg
Y?
Y?
Y?
Se
Y
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Ag
Y?
Y?
Y?
Y?
Y?
Y?
Corr
N?
Y
N?
Y?
Y?
N?
N?
N?
Y?
N?
Y?
N?
N?
N7
N7
N?
Y?
Y
N?
N?
N?
N?
N?
N?
N?
N?
Y?
N?
N?
N?
Ignlt
N?
N?
N?
N7
N?
N?
N?
N?
N?
Y?
N?
N?
N7
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
Y?
Y?
N?
Bctv
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N7
N7
N?
N?
N7
N?
N?
N7
N7
N7
N?
N?
N?
N?
N7
N?
N?
Current
ftacycte
Y
Y
Y
YS
YS?
YS7
N
N
YS?
N
Y7
N
Y
Y7
Y
YS7
Y
Y
Y?
N
N
Y?
N
N
N
Y?
N
N
N
Y7
Recycled
to
Bevill?
2
2
2
0
0
0
0
1
1
1
1
1
1
1
0
1
0
0
Waste
Form
2
1
1
1
1
3
3
3
1
3
3
3
3
3
3
3
1
3
3
3
3
1
3
3
1
3
1
1
3
t
Page 4-9
-------�
Exhibit 4-1
MINERAL PROCESSING WASTES BY COMMODITY SECTOR
Commodity
Rare Earths
Rhenium
Scandium
Selenium
Synthetic Rutile
Tantalum, Columblum,
and Forrocolumblum
Tellurtum
Titanium and Titanium
Dioxide
Wast* Stream
Spent ammonium nitrate processing
solution
Electrolytic cell caustic wet ARC sludge
Process wastewater
Spent scrubber liquor
Solvent extraction crud
Wastewater (torn caustic wet APC
Spent barren scrubber liquor
Spent rhenium ratftnate
Spent adds
Spent solvents from solvent extraction
Spent filter cake
Plant process wastewater
Slag
Tellurium slime wastes
Waste solids
Spent Iron oxide slurry
APC dust/sludges
Spent add solution
Digester sludge
Process wastewater
Spent raftlnale solids
Slag
Solid waste residues
Waste electrolyte
Wastewater
Pickle liquor and wash water
Scrap milling scrubber water
Smut from Mg recovery
Leach liquor and sponge wash water
Spent surface Impoundment liquids
Spent surface impoundments solids
Waste acids (Sullale process)
Reported
Generation
(lOOOmVyr)
14
NA
7
NA
NA
NA
NA
BB
NA
NA
NA
66
NA
NA
NA
45
30
30
t
150
2
NA
NA
NA
NA
NA
NA
NA
NA
NA
36
NA
EsUReported
Generation ( lOOOmt/yr)
Mln
14
0.07
7
0.1
0.1
0.1
0
aa
0.7
0.7
0.05
66
0.05
0.05
0.05
45
30
30
1
150
2
0.2
0.2
0.2
0.2
2.2
4
0.1
380
0.63
36
0.2
*"9-
14
0.7
7
500
2.3
500
0.1
88
3.9
3.9
0.5
66
O.S
0.5
0.5
45
30
30
1
160
2
2
Z
2
20
2.7
5
22
480
3.4
36
39
Max
14
7
7
1000
4.5
1000
0.2
88
7
7
5
66
5
5
5
45
30
30
1
150
2
9
9
20
40
3.2
6
45
580
6.7
36
77
Number
of Facilities
with Process
1
1
1
1
1
1
2
2
7
7
3
2
3
3
3
1
1
1
2
2
2
2
2
2
2
3
1
2
2
7
7
2
TG Metals
At
Y?
Y
Ba
Cd
Y?
Y?
Y?
Y?
Y?
Y?
Cr
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y
Pb
Y
Y?
Y?
Y
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Hg
Se
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y?
Y
*g
Y
Corr
Y
Y?
Y?
Y?
N?
Y?
N?
N?
Y?
N?
N?
Y
N?
N
N?
N?
N?
Y?
Y?
Y
Y?
N?
N?
N?
Y?
Y?
N?
N7
Y
N?
N?
Y
ignit
N?
N?
N?
N?
Y?
N?
N
N?
N?
Y?
N?
N?
N?
N?
N?
N?
N?
N?
N?
N7
N?
N?
N?
N?
N?
N?
N7
N?
N7
N?
N?
N
Rctv
N7
N?
N?
N?
N?
N?
N
N?
N?
N?
N7
N7
N?
N?
N?
N?
N?
N?
N?
N7
N7
N7
N7
N?
N?
N?
N7
Y
N?
N7
N7
N
Current
Recycle
N
Y
YS?
YS?
N
YS7
Y7
N
N
Y7
Y7
YS7
YS?
Y?
N
YS?
Y
Y
N
Y?
N
YS?
N
N
Y
YS?
YS?
Y?
YS?
Y?
N
N
Recycled
to
Bevill?
0
1
1
1
2
0
0
2
0
0
0
0
0
0
0
0
0
0
0
0
0
Watte
Form
1
3
1
1
3
1
1
3
1
1
3
1
3
3
3
3
3
t
3
2
3
3
3
1
1
1
1
3
1
1
3
1
Page 4-10
-------�
Exhibit 4-1
MINERAL PROCESSING WASTES BY COMMODITY SECTOR
Commodity
Tungsten
Uranium
Zinc
Zirconium and Hafnium
Waste Strewn
WWTP sludge/solids
Spent add and rinse water
Process waslewater
Waste nitric add (ion) U02 production
Vaporizer condensata
Supeitieater condansala
Slag
Uranium chips from Ingot production
Add plant slowdown
Waste fenosilkxxi
Process wastawater
Discarded refractory brick
Spent cloths, bags, and filters
Spent goethite and leach cake residues
Spent surface Impoundment liquids
WWTP Solids
Spent synthetic gypsum
TCA tower blowdown
Wastewatar treatment plant liquid affluent
Spent acid laachate from Zr alloy prod.
Spent add leachate from Zr metal prod.
Leaching rinse water from Zr alloy prod.
Leaching rinse water from Zr metal prod.
Reported
Generation
(lOOOmtfyr)
420
NA
NA
NA
NA
NA
NA
NA
130
1?
5000
1
0.15
15
1900
0.75
16
0.25
2600
NA
NA
NA
NA
EtL/Rtported
Generation (tQOOmt/yr)
Mln
420
0
2,2
1.7
1.7
1.7
0
1.7
130
17
5000
1
0.15
15
1900
0.75
16
0,25
2600
0
0
34
0.2
Avg.
420
0
4.4
2.S
9.3
9.3
8.5
2.5
130
17
5000
1
0.15
15
1900
0.75
18
0.25
2600
0
0
42
1000
Man
420
21
9
34
17
17
17
3.1
130
17
5000
1
0.15
15
1900
0.7S
16
0.25
2600
850
1600
51
2000
Number
of Facilities
with Process
7
6
6
17
17
17
17
17
1
1
3
1
3
3
3
3
3
1
3
2
2
2
2
TC Melals
As
Y
¥
Y?
Y
Y?
Y7
B*
•
Cd
Y
Y
Y?
Y?
Y
Y?
Y?
Y
Y?
Y?
-r
Y7
Y
Y
Y?
Y
Pb
Y?
Y7
Y
Y?
Y?
Y?
Y?
Y?
Y?
Hg
Y?
Y?
Y?
Y?
Y?
Se
Y
Y
Y?
Y
Y?
Y?
Ag
Y
Y
Y7
Y
Y?
Corr
N
Y?
Y?
Y?
Y?
Y7
N7
N7
Y
N?
Y
N?
N?
N?
Y
N7
N?
Y?
N?
Y?
Y?
Y7
Y7
Ignlt
N
N?
N?
N?
N?
N?
Y?
Y?
N
N?
N7
N?
N?
N7
N?
N?
N?
N?
N?
N7
N?
N?
N7
nctv
N
N?
N?
N?
N?
N?
N?
N?
N
N7
N?
N?
N?
N?
N?
N?
N?
N?
N7
N7
N7
N?
N?
Current
Recycle
N
YS7
YS?
YS7
N
N
Y
Y?
Y
Y7
Y?
N
Y
Y
YS?
YS
N
YS
YS?
N
N
YS?
YS7
Recycled
to
Bevlll?
2
2
0
0
0
0
0
0
0
0
0
1
0
0
0
0
Waste
Form
3
1
1
1
1
1
3
3
1
3
1
3
3
3
1
3
3
1
1
1
1
1
1
Note: EPA does not have enough Information to determine whether Bromine, Qemstones, Iodine, Lilhlum and Lithium Carbonate, Soda Ash, Sodium Sullata, and Strontium produce mlnarai processing wastes
Page 4-11
-------�
• "YS?" means that EPA has information to believe that the wastestream could be partially
recycled.
• A value of "0" in the "Recycled to Bevill?" column indicates that the waste is recycled
in a mineral processing unit.
A value of "1" in the "Recycled to Bevill?" column indicates that the waste is recycled
in a Bevill unit.
• A value of "2" in the "Recycled to Bevill?" column indicates that the waste is recycled
in both mineral processing and Bevill units.
Waste Form:
Key for Waste Form: 1 = waste with < 1% total suspended solids (TSS) (wastewater); 2
= waste with 1 to 10 % TSS (liquid nonwastewater); 3 = waste with > 10% TSS
(non wastewater).
EPA next examined the current waste management practices in the mineral processing industry.
EPA had to rely upon several data sources (discussed in Section 4.2) to examine the current waste
management practice since no one source provided comprehensive information.
Because of the high level of uncertainty in the current waste management practices, EPA
estimated the potentially affected universe of mineral processing waste in reference to three baselines: 1)
the no prior treatment baseline, 2) the modified prior treatment baseline, and 3) the prior treatment
baseline. Each baseline includes different assumptions about current storage practices of recycled
materials and current treatment practices of disposed materials. The no prior treatment baseline assumes
that Materials to be recycled are stored in unlined land based units, and the disposed portion is placed in a
land based disposal unit without treatment. The modified prior treatment baseline assumes that materials
to be recycled are stored in unlined land based units, while materials to be disposed are treated to TC
levels prior to disposal in land based units. The prior treatment baseline assumes that materials to be
recycled are stored according to RCRA requirements (spent materials are stored in tanks, containers, and
buildings prior to recycling) and materials to be disposed are treated to TC levels prior to disposal in land
based units. EPA chose the modified prior treatment baseline as the basis for the RJA and the capacity
analysis because it was most representative of current practices. However, EPA included the other two
baselines in an appendix to the RJA to bound the analysis.
EPA considered four regulatory options in the RJA, which represent a wide spectrum of
management practices, based on the views of various interested parties. A detailed description of each
option can be found in the RJA.6 In short, all four options require treatment of the disposed portion to
UTS levels. The differences between the options are a function of the requirements for storage prior to
disposal.
6 U.S. EPA, 1997, Regulatory Impact Analysis of the Supplemental Proposed Rule Applying Phase IVLDRs to Newly
Identified Mineral Processing Wastes, Office of Solid Waste, U.S. EPA.
Page 4-12
-------�
The key features of each option are summarized below:
1. Option 1 imposes a legitimacy test for materials recycled to process units, bans the
recycling of materials through Bevill beneficiation or Bevill process units, and requires
materials destined for recycling to be stored in RCRA tanks, containers, and buildings.
2. Option 2, EPA's preferred option, bans the recycling of materials through Bevill
beneficiation or Bevill process units, and requires materials destined for recycling to be
stored in tanks, containers, and buildings.
3. Option 3 requires materials destined for recycling to be stored in tanks, containers, and
buildings.
4. Option 4 allows materials destined for recycling to be stored in unlined land based units.
The Agency, in developing the RIA for this proposed rule, estimated the compliance costs for
these four options. The costs were estimated as a function of three factors: 1) the expense associated
with purchasing new storage units or upgrading existing storage units, 2) the expense of treating
materials to be disposed, and 3) shifts of mineral processing residues either from recycling to disposal or
from disposal to recycling. Based on these three factors, as well as adjustments to the input data to
account for uncertainty about hazardous characteristics, EPA estimated the minimum, expected, and
maximum quantities of waste that would require treatment and disposal, and the minimum, expected, and
maximum quantities of waste that would require storage prior to recycling. Exhibit 4-2 provides the
estimated quantities of the newly identified mineral processing wastes requiring treatment and disposal
for the modified prior treatment baseline, and the four regulatory options. The estimated quantities of
the newly identified mineral processing wastes requiring treatment and disposal for the no prior
treatment and the prior treatment baselines are provided in Appendix E.
As indicated in the RIA, EPA assumes that because of cost and other issues, the primary
techniques that.are being used or will be used for waste management by the mineral processing industry
are chemical precipitation (for wastewaters) and stabilization (for nonwastewaters). Since these
treatments are two of the best demonstrated treatment technologies (BDATs) used as the basis for the
UTS then, under the modified prior treatment baseline, most of these wastes likely are already meeting or
are close to meeting the UTS levels. Even if additional treatment is required, EPA believes that this
additional treatment could be achieved through minimal modifications of the existing treatment systems.
In the original proposal, the Agency noted a few exceptions to these assumptions. Based on the
analysis of available data, EPA noted that some arsenic-containing wastes and high mercury-containing
wastes (e.g., above the High Mercury Subcategory level of 260 mg/kg total mercury) may require
alternative treatments (e.g., vitrification for arsenic and acid leaching/retorting for mercury) to meet UTS
standards. EPA requested commenters to provide comments and performance data on this issue.
However, comments received provided no indication that these wastes pose any treatability problems in
meeting the proposed treatment standards. In addition, the Agency conducted site visits to commercial
treatment facilities and collected data that indicated no treatability problems are associated with these
wastestreams.
Page 4-13
-------�
Exhibit 4-2
MODIFIED PRIOR TREATMENT (MPT) BASELINE AND OPTIONS
MPT Baseline
Option 1 (MPT)
Option 2 (MPT)
Option 3 (MPT)
Option 4 (MPT)
Commodity
Alumina and Aluminum
Antimony
Beryllium
Bismuth
Cadmium
Calcium
Coal Gas
Copper
Elemental Phosphorus
Fluorspar and
Hydrofluoric Add
Germanium
Waste Strum
Cast house dust
Electrolysis waste
Autoclave Innate
Stripped anolyte solids
Slag and furnace residue
Chip treatment wastewater
Filtration discard
Alloy residue!
Spent caustic soda
Electrolytic slimes
~ead and zinc chlorides
Metal chloride residues
Slag
Spent electrolyte
Spent soda solution
Waste add solutions
Waste acids
Caustic washwater
Copper and lead sulfate filler cakes
Copper removal filter cake
rod containing Impurities
Spent leach solution
Lead sulfate waste
Post-leach filter cake
Spent purification solution
Scrubber wastewaler
Spent electrolyte
Zinc precipitates
Dust with quicklime
Multiple effects evaporator concentrate
Add plant blowdown
WWTP sludge
Andersen Filer Media
AFM rlnsate
Furnace scrubber blowdown
Furnace Building Washdown
Off-spec fluoslilclc add
Waste acid wash and rinse water
Treatment and Disposal
Total Soclor
Mln.
2,864
.
.
-
-
.
.
.
.
.
1.325.000
-
460
.
Expect.
2.864
4.313
10.800
.
10.500
40.000
23.000
1.500
458
2
1.500
1,500
500
3.050
458
3.050
40
143
143
143
950
143
143
950
950
143
950
143
-
1.325.000
750
460
1.875
880
Max.
2.864
6.625
43.200
.
21.000
1.600.000
90.000
6,000
1.800
30
6.000
3.000
10,000
12.000
1,800
12.000
160
2.850
2.850
2.850
19.000
2.850
2,850
19.000
19,000
2,850
19.000
2.850
16.250
1.325.000
1.500
460
-
11.250
3.200
Treatment and Disposal
Total Sector
Mln.
12.409
.
5.300.000
460
4.000
420.000
700.000
Expect.
12,409
18.688
13.500
29
10.500
50.000
23.000
1.500
1.983
7
1.500
1.500
500
3.050
1.983
3.050
50
618
618
618
950
950
618
950
950
950
950
618
20
5.300.000
3.000
460
4.000
420.000
700.000
7.500
1.100
Max.
12.409
37,375
54.000
57
21.000
2.000.000
90.000
6.000
7,800
130
6.000
3,000
10.000
12,000
7,800
12,000
200
12,350
12,350
12.350
19.000
19.000
12.350
19.000
19.000
19,000
19.000
12.350
40
65.000
5.300.000
6.000
460
4.000
420.000
700.000
45.000
4.000
Treatment and Disposal
Total Sector
Mln.
4.773
-
.
-
-
.
.
.
.
-
.
5.300.000
480
4.000
420.000
700.000
Expect.
4.773
7.188
11,475
10.500
42.500
23.000
1,500
763
3
1.500
1.500
500
3.050
763
3.050
43
238
238
238
950
850
238
850
650
950
950
238
20
-
5.300.000
1.050
460
4.000
420.000
700.000
2.625
935
Max.
4.773
14.375
45.900
21.000
1,700,000
90.000
6.000
3.000
50
6.000
3.000
10,000
12,000
3.000
12.000
170
4.750
4,750
4.750
19.000
19.000
4.750
19.000
19.000
19,000
19.000
4.750
40
65.000
5.300.000
2.100
460
4.000
420.000
700.000
15.750
3.400
Treatment and Disposal
Total Sector
Mln.
4.773
.
.
-
.
.
.
.
.
.
.
1.855.000
460
Expect.
4.773
7,188
11.475
10.500
42,500
23.000
1.500
763
3
1.500
1.500
500
3.050
763
3.050
43
238
238
238
950
238
238
950
950
238
950
238
1.855.000
1.050
460
2.625
935
Max.
4.773
14.375
45.900
21.000
1,700,000
90.000
6.000
3.000
50
6,000
3.000
10,000
12,000
3.000
12,000
170
4,750
4,750
4,750
19.000
4.750
4.750
19.000
19.000
4,750
19.000
4.750
-
22.750
1.855.000
2.100
460
-
15.750
3.400
Treatment and Disposal
Total Sector
Mln.
2.864
.
•
.
.
.
.
.
-
1.325.000
460
.
-
Expect.
2.864
4.313
10.800
10.500
40.000
23.000
1.500
458
2
1.500
1.500
500
3.050
458
3.050
40
143
143
143
950
143
143
950
950
143
950
143
1,325.000
750
460
1.875
880
Max.
2.864
8.625
43.200
21.000
1.600.000
90.000
6,000
1.800
30
6.000
3.000
10.000
12.000
1.800
12,000
160
2.850
2.850
2.850
19.000
2.850
2.850
19.000
19.000
2.850
19.000
2.850
16.250
1.325.000
1.500
400
11.250
3.200
Page 4-14
-------�
Exhibit 4-2
MODIFIED PRIOR TREATMENT (MPT) BASELINE AND OPTIONS
MPT Baseline
Option 1 (MPT)
Option 2 (MPT)
Option 3 (MPT)
Option 4 (MPT)
Commodity
Lead
Magnesium and
Maanes'a from Brines
Mercury
Molybdenum,
Farramotybdemirn, and
Ammonium MolytxSafe
'lattnum Group Metals
pyroEMtumens, Msnerai
Waxes, and Natural
A*inh3]ia
Rare Earths
Rhenium
Scandium
Waste Stream
Chtorinator w«l ait ponuuon control
{u^jlftg
Hydrolysis filtrate
Leach residues
Spent acktteachate
Waste still liquor
Acid plant sludge
Baghousa Incinerator ash
Slurtled APC Dust
Solid residues
Spent furnace brick
Stockpiled miscellaneous plant wast*
WWTPJquld effluent
VWTP sludges/solids
Cast house dust
Smut
Dust
Quench water
Furnace residue
Flue dust/gases
Liquid residues
Slag
Spent adds
Spenl solvents
SUII bottoms
Waste catalysts
Spent ammonium nitrate processing
solution
Electrolytic cell caustic wet APC siudga
Process wastewater
Spent scrubber liquor
Solvent extraction crud
Wastawater from caustic wet APC
Spen! barren scrubber liquor
Spent rhenium raffinata
Spent adds
Spent solvents Irom solvent extraction
Treatment »nd Dlapotil
Tout Sector
Mln.
.
.
300
.
.
320
26.000
-
-
14,000
5,600
Expect.
85
106
5
860
106
1,056
3.000
29
70,400
57
26.000
4
5.775
39
126,500
500
3
855
855
23.000
750
14,000
s.eoo
200,000
1,150
200,000
8
44,000
1,960
294
Max.
320
400
10
3,200
400
2,115
30.000
59
.
144,000
-
1,140
26.000
7
83.000
77
495,000
1,000
68
3.000
3.000
90.000
3.000
14,000
5,600
800.000
4,500
800,000
30
88,000
7,000
1,050
Treatment and Disposal
Total Sector
Mln.
-
300
6.900
990
400
-
380.000
26,000
14.000
-
7,000
-
Expect.
106
106
5
1,100
106
7,050
3,000
8.900
195
990
88,000
1,760,000
360,000
247
26.000
4
38,500
39
128,500
500
15
855
8S5
23.000
3.250
14,000
105
7,000
250.000
1,150
250,000
50
44,000
1,960
1.274
Man.
400
• 400
10
4.000
400
14,100
30,000
6,900
390
990
180,000
3,520,000
380.000
4.940
26.000
7
420,000
77
495,000
1,000
293
3.000
3,000
90.000
13.000
14,000
2,100
7,000
1,000.000
4,500
1.000,000
200
88,000
7.000
4.550
Treatment end Disposal
Total Sector
Mln.
300
6,900
990
400
380,000
26.000
14,000
7,000
Expscl.
90
108
S
935
106
7.050
3.000
8.900
195
S90
88,000
1,760,000
380.000
95
28.000
4
38.500
39
128.500
500
6
855
855
23,000
1,250
14,000
7,000
260,000
1.1SO
250,000
50
44,000
1.960
490
Mat,
340
400
10
3.400
400
14.100
30,000
B.900
390
990
180.000
3.520.000
380,000
1,900
26.000
7
420,000
77
495,000
1,000
113
3,000
3,000
90,000
5,000
14,000
7,000
1.000.000
4.500
1.000.000
200
88.000
7.000
1.750
Treatment and Disposal
Total Sector
Mln.
.
-
300
.
340
26.000
14.000
. 5.960
ixpect.
90
106
5
935
106
1.763
3.000
49
74,800
95
28,000
4
9,625
39
126,500
500
e
855
855
23,000
1.250
14.000
-
5.950
212,500
1.150
212,500
13
44.000
1.960
490
Man.
340
400
10
3.400
400
3.525
30.000
9B
153.000
1,900
29.000
7
105.000
77
495.000
1,000
113
3,000
3,000
90.000
5.000
14,000
6,950
850,000
4,500
850,000
50
88,000
7,000
1.750
Treatment am* Disposal
Total Sector
Mln.
300
320
26.000
-
-
-
14.000
5.600
Expect.
85
106
5
880
106
1,058
3,000
29
70.400
S7
26.000
4
5,775
39
126,500
500
3
855
855
23.000
750
14.000
5,600
200,000
1,150
200,000
a
44.000
1,960
294
Mai.
3JO
400
10
3,200
400
2,115
30,000
59
144,000
1,140
26.000
7
63.000
77
495,000
1,000
68
3.000
3.000
90.000
3.000
14.000
5,800
800.000
4,500
800.000
30
88,000
7.000
1.050
Page 4-15
-------�
Exhibit 4-2
MODIFIED PRIOR TREATMENT (MPT) BASELINE AND OPTIONS
MPT Baseline
Option 1 (MPT)
Option 2 (MPT)
Option 3 (MPT)
Option 4 (MPT)
Commodity
Selenium
Synthetic Hulile
Tantalum, Columblum,
and Ferrocolumbium
Tellurium
fitanium and Titanium
Dioxide
Tungsten
Jranlum
Zinc
Wut* Stream
Spent filter cake
Plant process wastewater
Slag
Tellurium slime wastes
Waste solids
Spent Iron oxide slurry
APC dust/sludges
Spent acid solution
Digester sludge
Process waslewaler
Spent ratllnate solids
Slag
Solid waste residues
Waste electrolyte
Waslewater
Pickle liquor and wash water
Scrap milling scrubber water
Smut from Mg recovery
Leach liquor and sponge wash water
Spent surface Impoundment liquids
Spent surface Impoundments solids
Waste adds (Sullate process)
WWTP sludge/solids
Spent add and rinse water
Process waslewaler
Waste nllrlc acid Irom U02 production
Vaporfeer condensate
Superheater condensate
Slag
Uranium chips from Ingot production
Add plant blowdown
Waste lerrosllicon
Process wastewater
Discarded refractory brick
Spent dolhs. bags, and inters
Spent goethlte and leach cake residues
Spent surface Impoundment liquids
WWTP Solids
Treatment and Disposal
Total Sector
Mln.
52.800
.
22.500
.
.
15
304.000
.
.
200
-
.
.
.
765.000
1.512.000
Expect.
38
52,800
204
38
255
18,000
-
500
22.500
1,000
800
1,000
1,000
-
1,080
2,000
3.300
384.000
257
17.850
40.000
210.000
1.752
1,020
4.675
4,675
191
1.275
765.000
500
1.512.000
94
Max.
785
52,800
4,080
765
5.100
38,000
1.000
22.500
2.000
7.200
9.000
20,000
-
2,640
4,800
6.900
464.000
1.008
35.700
78.000
420.000
16.800
7.200
2.720
17.000
17.000
510
2.550
785.000
1.000
1.512.000
188
Treatment and Disposal
Total Sector
Mln.
66.000
.
97.500
65
380.000
200
39.000
3.315.000
.
4.500
1.890,000
Expect.
166
68,000
255
168
255
22.500
4.500
4.500
500
97.500
1.000
1.000
1.000
1.000
3.000
1.350
2,500
14.300
480.000
1.115
17.850
40.000
210.000
2.190
1.275
4.675
4.675
1.275
829
39.000
5.525
3.315.000
500
23
4.500
1.890.000
375
HM-
3.315
66.000
5.100
3.315
5,100
45,000
9.000
9.000
1,000
97,500
2,000
8.000
9,000
20,000
12,000
3.300
6.000
29.900
580.000
4.368
35.700
78.000
420.000
21.000
9.000
3,400
17.000
17,000
5.100
2.210
39.000
11.050
3.315.000
1,000
45
4.500
1.890.000
750
Treatment and Disposal
Total Soctor
Mln.
-
66.000
37.500
-
.
25
323.000
.
200
.
-
.
.
.
-
1.275.000
.
1.606.500
Expect
64
66.000
217
64
255
19.125
500
37.500
1.000
650
1.000
1.000
1,148
2,125
5,500
408.000
429
17.850
40.000
210.000
2.190
1.084
4,875
4.675
319
2.125
1,275.000
500
1.606.500
375
Max.
1.275
66.000
4.335
1.275
5.100
38.250
1.000
37.500
2.000
7.650
9.000
20.000
2,805
5.100
11,500
493.000
1,680
35,700
78,000
420.000
21,000
9,000
2,890
17,000
17,000
650
4.250
1.275.000
1.000
1.606.500
750
Treatment and Disposal
Total Sector
Mln.
56,100
37,500
.
25
323.000
.
200
.
.
1.275.000
1.606.500
Expect.
64
56,100
217
64
255
19.125
500
37.500
1.000
850
1.000
1,000
1,148
2,125
5,500
408.000
429
17.850
40.000
210.000
1.662
1.084
4.675
4.675
319
2.125
1.275.000
500
1.606.500
131
Max.
1.275
56.100
4.335
1,275
5.100
38.250
-
1.000
37.500
2.000
7.650
9.000
20.000
2.805
5.100
11.500
493.000
1.680
35.700
78.000
420.000
17,850
7,650
2.890
17,000
17,000
850
4.250
1.275.000
1.000
1.606.500
203
Treatment and Disposal
Total Sector
Mln.
52.800
22.500
.
.
15
304.000
200
.
-
.
765.000
1.512.000
Expect.
38
52.800
204
38
255
18.000
500
22.500
1.000
600
1.000
1.000
1.080
2.000
3.300
384,000
257
17,850
40,000
210.000
1.752
1.020
4.675
4.675
191
1.275
765.000
500
1.512.000
94
Max.
765
52.800
4,080
765
5.100
36.000
1,000
22,500
2.000
7,200
9,000
20,000
2.640
4.600
6.900
464.000
1.008
35.700
78.000
420.000
16.800
7.200
2,720
17.000
17.000
510
2.550
765.000
1.000
1.512.000
188
Page 4-16
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Exhibit 4-2
MODIFIED PRIOR TREATMENT (MPT) BASELINE AND OPTIONS
MPT Baseline
Option 1 (MPT)
Option 2 (MPT)
Option 3 (MPT)
Option 4 (MPT)
Commodity
Zirconium and Hafnium
Waste Strum
Spent synthetic gypsum
TCA lower blowdown
WastewaWf Irealment plan) Wjultt
ftHliifgni
Spent add leaohate horn Zr alloy prod.
Spent add leachate from Zr metal prod.
Leaching rtnse wafer from Zr aloy prod.
Leaching rinse waler from Zr metal prod.
Treatment and Diepotal
Total Sector
Mln.
15,900
Expect.
15,900
31
1.044.000
.
.
16. BOO
400,000
Max.
15.900
6S
2.088,000
660,000
1,600,000
41,800
1,600,000
Treatment and Disposal
Total Sector
Mln.
15.900
.
Expect.
15,900
125
1,305,000
21,000
600,000
Max.
15.900
250
2,610.000
860,000
1.600.000
52,000
2,000,000
Treatment and Disposal
Total Sector
Mln.
15,900
.
Expect.
15.900
44
1,109,250
17,850
425,000
Max,
15,900
ae
2.2 18,500
860,000
1.600,000
44,200
1,700,000
Treatment and Dlepoaul
Total Sector
Mln.
15,900
.
Expect.
15.900
44
1.109,250
17,850
425,000
Max.
15,900
88
2,218.500
860.000
1.600.000
44,200
1,700,000
Treatment and Disposal
Tola! Sector
Mln.
15.900
.
.
.
Expect.
15,900
31
1.044,000
.
16. SIX)
400,000
Max.
15,900
63
2,088,000
860.000
1.600.000
41.600
1JOO.OOO
Total
4.046.S59 8,6B8,848 15,579,851 12,680,624 17.707,297 30,249.080 10,188.948 14.859,824 28.519,341 5.221.048 8,007,420 17,302,708 4,046.959 6,688.848 15,579.851
Note: EPA does not riave enough Information to determine whether Bromine, Oematonea, Iodine, uinlum and Uthlum Carbonate, Soda Ash, Sodium Sullate, and Strontium produce mineral processing wastes.
Page 4-17
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Typically, liquid nonwastewaters (wastes with 1 to 10 percent TSS) are likely to be reduced in
volume prior to stabilization. Therefore, as in the RIA, EPA assumed that approximately 2.25 percent of
the liquid nonwastewater quantities will be stabilized (based on an 85 percent reduction of the initial
amount because of treatments such as settling and neutralization, and an additional 85 percent reduction
because of dewatering). The reduced waste volumes are used for estimating the potentially affected
universe of the newly identified mineral processing wastes.
Wastewaters also may generate solid residues; however, these waste quantities do not result in
significant quantities compared to the other nonwastewaters and therefore they are not included in this
capacity analysis.
4.4 SOIL AND DEBRIS CONTAMINATED WITH NEWLY IDENTIFIED MINERAL
PROCESSING WASTES
In all of the data sources consulted by the Agency, there was little information on the amount of
soil or debris that might be contaminated with former Bevill-exempt wastes. The Agency believes that
most of the soil and debris will probably be generated when facilities begin closing surface
impoundments to comply with the LDRs or as part of corrective action procedures where it will be
necessary to remove the soils for treatment. Consequently, EPA has no estimates for the amount of
contaminated soil and debris that would be subject to the LDRs for this proposed rule. Based on
discussions with commercial treaters (see Chapter 2), the Agency believes that these wastes could be
readily treated to meet the proposed treatment standards. The Agency is seeking comments on this
approach and requests the commenters to provide additional information and data on these wastes.
4.5 MIXED RCRA/RADIOACITVE WASTES
The radioactivity posed by potentially hazardous mineral processing wastes may affect the
amount of available treatment capacity for these wastes. Commercial and on-site treatment facilities for
mineral processing wastes may have difficulty in managing both the radioactive and hazardous chemical
components of mixed radioactive mineral processing wastes, and therefore may experience shortfalls in
providing sufficient capacity for the treatment of these wastes. Adequate data on the generation of these
mixed RCRA/radioactive wastesas not available. Therefore, EPA is soliciting the following types of
information in this proposed rule:
• Data on the identities and quantities of newly identified mineral processing wastes that
are known to be radioactive, including data on radioactivity levels (i.e., specific
radioactivity, by radionuclide species), radioactive weight percent or radionuclides, and
information on management difficulties, due to radioactivity, encountered with these
wastes; and
• Data on the identities and quantities of newly identified, potentially hazardous mineral
processing wastes, as well as other hazardous wastes that are commingled with any of
the 20 mineral processing waste streams currently retained within the Bevill Exclusion
(see 56 FR 27300, June 13,1991).
EPA intends to use information received as a result of these requests to develop estimates of the
quantities of mixed RCRA/radioactive wastes generated and accumulated at mineral processing facilities,
and to estimate the amount of available capacity for the treatment of these wastes.
Page 4-18
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4.6 RESULTS
EPA's analysis of the data in Exhibit 4-1 indicates that, at most, approximately 136 facilities that
generate 118 wastestreams would be affected by promulgation of today's proposed rule. The number of
facilities represent the facilities in each mineral processing commodity sector. Some facilities, however,
have processes that fall into more than one commodity sector. This would reduce the indicated total
number of facilities affected.
Exhibit 4-3 presents ranges of quantities of newly identified mineral processing wastes that are
likely to be affected by today's proposed rule for the modified prior treatment baseline and the four
regulatory options. The results indicate that a total of approximately 4 million to 30 million metric tons
of waste per year— the majority (approximately 85 - 90 percent) being wastewater— would require
alternative treatment capacity. As discussed in Section 4.3, wastewaters are not expected to pose any
capacity problems.
Exhibit 4-3
Total Waste Volumes (mt/y) Potentially Requiring Treatment Under
the Modified Prior Treatment Baseline
Option
Baseline
Option 1
Option 2
Option 3
Option 4
Minimum
4,046,959
12,680,624
10,188,948
5,221,048
4,046,959
Expected
6,688,848
17,707,297
14,859,824
8,007,420
6,688,848
Maximum
15,579,851
30,249,080
26,519,341
17,302,706
15,579,851
Exhibit 4-4 provides the quantities of nonwastewaters that could require alternative treatment
under the modified prior treatment baseline and the four different regulatory options. These quantities
were calculated by first accounting for uncertainty in the input data. As discussed in the RIA, each waste
stream's generation rate was adjusted to account for uncertainty in hazardous characteristics. The
generation rate of waste streams known to be hazardous were not adjusted, while the generation rates of
waste streams that were only suspected of being hazardous were reduced in the expected value case, and
dropped from the minimum value case. The hazardous portion of each stream was divided into a portion
sent to treatment and disposal and a portion stored prior to recycling in the baseline and in each option.
Shifts in management of these streams were modeled by using different percentages treated and disposed
in the baseline and various options. The quantities sent to treatment and disposal were summed in each
sector by waste type (i.e., wastewaters, wastes with 1 to 10 percent solids, wastes with more than 10
percent solids), and divided by the number of facilities in that sector, to get a "model" or average facility
quantity of each waste type. These types were then aggregated together based on the portion of input
material for each waste type that would require neutralization, dewatering, and/or stabilization and
disposal. These model facility quantities were then compared with threshold values to determine the
economic feasibility of on-site treatment and disposal.
Page 4-19
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Exhibit 4-4
Quantities (mt/y) of Nonwastewaters Potentially Affected Under the
Modified Prior Treatment Baseline
Option
Baseline
Option 1
Option 2
Option 3
Option 4
Minimum
Off-Site
Stab/Disp
6,079
14,366
7,574
8,427
6,079
On-Site
Stabilization
129,805
708,793
647,621
155,768
129,805
Expected
Off-Site
StabJDisp
10,381
6,314
23,543
26,409
17,237
On-Site
Stabilization
742,004
1,455,036
1,332,622
781,249
742,004
Maximum
Off-Site
StabjDisp
17,602
11,956
24,055
26,921
17,602
On-Site
Stabilization
1,925,885
2,840,980
2,618,201
1,992,322
1,925,885
While the cost analysis, in the RIA, is calculated on a average facility basis, the capacity analysis
is based on the total industry treatment needs. Therefore, the average facility quantities requiring on-
and off-site treatment and disposal in each sector were multiplied by the number of facilities in that
sector to calculate the required treatment and disposal capacity. The largest increase of required
treatment and disposal capacity would occur if Option 1 were chosen, as seen in Exhibit 4-4. This
increase reflects a shift in management of a portion of secondary materials which are currently recycled.
As indicated in Chapter 2, for metal bearing wastes exhibiting a hazardous characteristic, the
UTS treatment standards are based on chemical precipitation, high temperature metals recovery
(HTMR), stabilization, slag vitrification, acid leaching, and mercury roasting and retorting, depending on
the hazardous constituents and the waste form. UTS for arsenic nonwastewaters is based on vitrification,
and the BDAT for high mercury subcategory wastes is retorting/roasting. All other metal treatment
standards for nonwastewaters are based on HTMR and stabilization technologies. UTS for wastewaters
are based on treatments such as chemical precipitation. (A detailed discussion on the methodology used
for selecting UTS as the treatment standard is provided in the BDAT background document for newly
identified mineral processing wastes.7)
In the original proposal, the Agency noted a few exceptions to these assumptions. Based on the
analysis of available data, EPA noted that some arsenic-containing wastes and high mercury-containing
wastes (e.g., above the High Mercury Subcategory level of 260 mg/kg total mercury) may require
alternative treatments (e.g., vitrification for arsenic and acid leaching/retorting for mercury) to meet UTS
standards. EPA requested commenters to provide comments and performance data on this issue.
However, comments received provided no indication that these wastes pose any treatabiliry problems in
meeting the proposed treatment standards. In addition, the Agency conducted site visits to commercial
treatment facilities and collected data that indicated no treatability problems are associated with these
wastestreams. Therefore, the Agency believes that a one year national treatment capacity variance may
not be required for these wastes, and therefore, in this second supplemental rule, is proposing not to grant
a capacity variance for these wastes.
7 U.S. EPA, Best Demonstrated Available Technology (BDAT) Background Document for Newly Identified Mineral
Processing Wastes, Office of Solid Waste, U.S. EPA, July, 1995.
Page 4-20
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For the purpose of determining the need for a capacity variance, the waste streams are grouped
into three distinct categories:
(1) Wastestreams from elemental phosphorus processing. Three large-volume waste streams -
Medusa Scrubber Slowdown, Anderson Filter media rinsate, and furnace building washdown -
generated by the elemental phosphorus processing industry (approximately 500 to 800 thousand
mt/y) appear to be lacking adequate wastewater treatment capacity. A major generator of these
waste streams, the FMC Corporation's Pocatello, Idaho facility, has stated that these waste
streams pose unique treatability problems (e.g., due to the presence of naturally occurring
radioactive materials) and that a two-year national capacity variance is needed to develop and
construct treatment capacity (Phase IV Notice of Data Availability (61 FR 21418, May 10,
1996)). On August 21,1996, FMC submitted additional data to the docket for the supplemental
proposed rule (61 FR 2338, January 25, 1996, RCRA Docket F-95-PH4A-FFFFF). After careful
review of the additional data (see Appendix G for supporting materials), the Agency has
determined that these wastes would require a national capacity variance, and therefore is
proposing to grant a two-year national capacity variance for these three waste streams.
(2) Other newly identified mineral processing wastes finciuding soil and debris). EPA estimates that
the quantities of newly identified mineral processing wastes that would be affected by today's
proposed rule (other than the mixed RCRA/radioactive wastes discussed above) range from
approximately 4 million to 30 million metric tons/year under the modified prior treatment
baseline and the five different regulatory options. Of these, under a worst-case scenario,
approximately 2.6 million metric tons/year of nonwastewaters would require alternative
treatment under the prior treatment baseline. Most of these wastes (about 1 million metric
tons/year) are expected to need either none or only relatively minor treatment to meet the
treatment standards compared to existing treatment designed to meet hazardous characteristic
levels. The remaining wastes (about 600,000 metric tons/year) represent an actual increase in
required capacity. As shown in Exhibit 4-4, less than one percent of the nonwastewaters are
expected to require commercial off-site stabilization. Given this, as well as the large amount of
available off-site and on-site stabilization capacity for nonwastewaters, a national capacity
variance does not appear to be warranted for these wastes under a modified prior treatment
baseline option. As indicated in Section 4.4, these conclusions are expected to be similar for soil
and debris contaminated with newly idendtified mineral processing wastes,
(3) Mixed RCRA/radioactive wastes (including soil and debris). Despite the uncertainty about
quantities of mixed radioactive wastes containing newly identified wastes that would require
treatment as a result of today's proposed rule, any new commercial capacity that becomes
available will be needed for mixed radioactive wastes that were regulated in previous LDR
rulemakings and whose variances have already expired. Thus, EPA has determined that
sufficient alternative treatment capacity is not available, and is proposing to grant a two-year
national capacity variance for mixed RCRA/radioactive wastes contaminated with newly
identified mineral processing wastes. See the background document for the original Phase IV
wastes for additional discussion of this issue.*
U.S. EPA, Background Document for proposed LDRs for Phase IV: Issues Associated with Clear Water Act
Treatment Equivalency, and Treatment Standards for Wood Preserving Wastes and Toxicity Characteristic Metal
Wastes (Proposed Rule), August 1995.
Page 4-21
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A potentially significant regulatory issue that might affect treatment capacity is EPA's possible
changes to the definition of solid waste. Such changes would encourage environmentally sound
recycling of mineral processing wastes. The Agency's main goal would be to remove regulatory barriers
in order to allow metal and resource recovery, while at the same time improving the degree of
environmental protection. However, since any modifications to the definition of solid waste and Bevill
mixtures are likely to be complex, and the issues associated with such changes must be carefully
analyzed by all affected parties, the Agency is deferring any changes to the definition of solid waste and
Bevill mixtures for mineral processing wastes to a supplemental proposal that will be issued in the
future. After considering comments received in response to this supplemental notice, the final approach
to modifying the definition of solid waste will be incorporated into the Phase IV rule. EPA recognizes
that changes to the definition of solid waste could affect the manner in which a facility will manage its
hazardous waste (e.g., a facility may switch from land disposal to recycling). EPA requests information
that could assist in determining the effect of such changes on the need for alternative treatment capacity.
In particular, EPA requests data on the quantities of mineral processing wastes that are potentially
recyclable, as well as information on the type of recycling process that might be used and the time
required to bring these processes on line.
Exhibit 4-5 provides a summary of the results of the required (under the modified prior treatment
baseline) and available capacity analysis and the capacity variance decisions for the newly identified
wastes under the major treatment system categories.
EXHIBIT 4-5
CAPACITY VARIANCE DECISIONS
Waste
Wastestreams from elemental
phosphorus processing
Newly identified mineral
processing wastes (including soil
and debris)
Mixed RCRA/radioactive wastes
(including soil and debris)
Required Capacity
(mt/yr)
500,000 - 800,000
4 million - 30
million (modified
prior treatment
baseline)
Low
Available Capacity
(mt/yr)
Low
. >800,000" HTMR
• > 1 ,000,000 stabil ization
• Optimization of on-site
stabilization and
wastewater treatment
• > 16,200 vitrification
0
Proposed Variance
Two years from
promulgation of final rule
90 days from promulgation of
final rule
Two years from
promulgation of final rule
* This quantity is total annual feed capacity and does not necessarily represent available capacity.
Page 4-22
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APPENDIX A
DATA ON AVAILABLE STABILIZATION CAPACITY
This appendix has three sections:
A-l: Describes the information the Agency collected from selected treaters on available
stabilization capacity for Phase IV mineral processing and TC metal wastes. Includes an
overview of the Agency's approach, summarizes the results, and provides phone logs.
A-2: Discusses available capacities for metal waste stabilization and metal recovery for
meeting the Phase IV TC metal and mineral processing waste LDR standards.
A-3: Provides a phone log of calls to TSDs who stabilize D008 and other TC-metal hazardous
wastes.
A-4: Summary of meeting with representatives of Chemical Waste Management, Inc. to
discuss comments and data related to Phase IV
A-5: Summary of minutes of April 30, 1996, meeting of EPA and representatives of lead
recovery from batteries
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Appendix A-l
ANALYSIS OF AVAILABLE STABILIZATION
CAPACITY FOR PHASE IV WASTES
This appendix describes the information the Agency collected from selected treaters
on available stabilization capacity for Phase IV mineral processing and TC metal wastes. The
appendix is divided into three parts. Section 1,0 provides an overview of the Agency's
approach, Section 1.2 summarizes the results, and Section 1.3 provides phone logs.
1.0 Approach
The Agency's approach for evaluating available stabilization capacity for Phase IV TC
metal and mineral processing wastes involved six main steps:
1. Develop interview guide;
2. Identify interviewees (e.g., commenters);
3. Conduct preliminary interviews for a few interviewees;
4. Modify interview guide to address problem areas identified in conducting
preliminary interviews;
5. Finish interviews; and
6. Incorporate other information and conduct follow-up activities.
In Steps 1 and 2, EPA developed a preliminary interview guide and identified several
commercial treaters and organizations who submitted comments to the proposed Phase IV
rule.1 Also, some treaters were identified from BRS data reviews2 and previous
interviews.3 In Step 3, EPA conducted a few preliminary interviews and, based on the
results, refined the draft interview guide to clarify questions and target key areas. The final
phone interview guide used questions such as the following (individually tailored somewhat
depending on data supplied previously):
1. How much waste do you treat? How much of this waste is hazardous, as
defined under RCRA (i.e., RCRA Subtitle C wastes)? How much of the waste
that your facility receives is non-hazardous, as defined under RCRA (i.e.,
RCRA Subtitle D wastes)? How much treatment capacity is commercial and
how much is captive (i.e., your own company's)? Do you treat Phase IV
mineral processing and TC metal wastes? If not, do you plan to treat these
These treaters were interviewed as follow-up to comments and thus did not count toward the limited number
of non-federal employees who can be contacted pursuant to the Paperwork Reduction Act
Raghuvan, Raghu. and Jim Laurenson, Memorandum to Bill Kline and C. Pan Lee: Status
Available Capacity Assessment for TC Metal and Mineral Processing Wastes. ICF Inc.. June 1996.
Schwartz, Stephan. Memorandum to Stan Moore and Suzanne Wade: Phone Calls toTSDs Who
and Other TC-metal Hazardous Wastes. Versar Inc., May 1996.
-------�
1
wastes in the future?
2. Approximately what percentage of the Phase IV wastes that you treat are
treated on site at your facility and what percentage is treated off site at the
generator's facility (e.g., large volumes of mineral processing wastes)? What
percentage of the wastes that you accept for treatment is part of a treatment
train that began on a generator's facility (e.g., combustion at generator's site
followed by stabilization of residuals at your facility site)?
3. What quantity (T/yr) of these Phase IV wastes can be treated to proposed UTS
off site or at your facility at the present time and what quantity cannot? What
quantity (T/yr) of these Phase IV wastes can be treated to UTS off site or at
your facility in the future (please specify time period (e.g., within one year))!
4, Would there be any problems treating to individual standards? Would there be
any problems when constituents are in a mixed constituent Phase IV waste
stream (e.g., mixed metals)? With organic UHCs? Why? What waste streams
(please specify waste codes), if any, do you expect will cause you to make
modifications in your treatment processes? What quantity (T/yr) of the total
Phase IV wastes that you treat do these wastestreams comprise?
5. How extensive and difficult to implement would the modifications to your
treatment processes be? How much time would be necessary for modifications
to your treatment processes?
6. How much of which kind of additional Phase IV wastes (e.g., one of the
wastes that may be problematic) can your facility treat? When?
7. Can you provide data to support any of the above answers?
EPA then conducted follow-up activities to fill in data gaps. To assess difficulties in
meeting concentration levels, for example, EPA asked the contacts about the feasibility of
meeting several hypothetical values.
Questions were faxed when requested, and follow-up calls were made through January
13, 1997.
1.2 Results
Exhibit 1 summarizes several observations that can be made from the results of this
data gathering effort. These results are discussed in more detail below:
Overall treatment capacity
• All facilities treat TC metal or de-Bevilled mineral processing wastes.
-------�
Ten facilities-Environmental Enterprises, Environmental Quality, EnviroSafe,
GNI, Heritage Environmental Services, PDC, Rollins, and both of the CWM
facilities-conduct 100 percent of the treatment on site at their facility. One
facility, Environmental Technologies, Inc., conducts about half of its treatment
off site.
Current treatment at facilities ranges from 15,000 tons/year to 300,000
tons/year.
Current available capacity of facilities ranges from 140,000 tons/year to
1,159,000 tons/year.
Modifications to treatment processes
All but the smallest two4 treaters interviewed-both of the Chemical Waste
Management (CWM) facilities, Environmental Quality, Environmental
Technologies, Inc., EnviroSafe, GNI, LWD Inc., PDC, and Rollins
Environmental Services-commented that no modifications would need to be
made to their treatment processes or minimal time (e.g., four weeks) is required
for very minor modifications. Environmental Enterprises and Heritage
Environmental Services noted that it may take two to five years, primarily due
to changing their permits.
Most facilities commented that the exact time needed and difficulty to
implement changes in treatment processes will vary depending on the degree of
changes.
Both of the CWM facilities noted that it would cost approximately $1,000 per
waste stream to develop new treatment recipes.
Additional treatment needed
Both of the Chemical Waste Management (CWM) facilities, Environmental
Enterprises, GNI, and Heritage Environmental Services gave a range of 20 to
100 percent of their TC metal waste streams that have constituents above TC
or UTS levels that require additional treatment.
Heritage Environmental Services and GNI noted that meeting the original
proposed standard for cadmium would require treatment modification because it
is difficult to stabilize it in a mixed constituent waste stream.
Heritage Environmental Services and CWM in Carlyss, LA indicated that
In terms of known or estimated utilized or available capacity.
-------�
1
meeting the original proposed standard for lead would require treatment
modification because it is difficult to stabilize it in a mixed constituent waste
stream and leaching rates vary depending on pH.
GNI, Rollins Environmental Services, and CWM in Carlyss, LA indicated that
meeting the original proposed standard for selenium would require treatment
modifications because it is hard to stabilize it in a mixed constituent waste
stream and leaching rates vary depending on pH.
Heritage Environmental Services, Rollins Environmental Services and CWM in
Carlyss, LA indicated that meeting the original proposed standard for
chromium would require treatment modifications because it is hard to stabilize
it in a mixed constituent waste stream and leaching rates vary depending on
pH.
Three facilities noted that treating organic UHCs would require treatment
modifications. Heritage Environmental Services will incinerate those waste
streams while Environmental Enterprises and PDC will send it to another
facility for treatment. Two facilities-Environmental Quality and LWD Inc.-
specifically stated that organic UHCs can be readily treated to UTS.
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EXHIBIT 1
SUMMARY OF PHONE LOG RESULTS
•
Treater
Chemical Waste Management
Carlyss. LA
Chemical Waste Management
Oakbrook, IL
Environmental Enterprises
Environmental Quality, Inc.
Detroit, Ml
Envrionmental Technologies, Inc.
King of Prussia, PA
EnviroSafe
GNI (Disposal Systems)
Deer Park, TX
Heritage Envrionmental Services
Indianapolis, IN
LWD Inc.
Calvert City. KY
PDC
Peoria, IL
Rollins Environmental Services
Deer Trail, CO
aEPA estimate
Degree of Difficulty
Time
Minimal
6mths
3-5 yrs(due to
permit
modifications)
Minimal
4 wks
Minimal
Minimal
2 yrs
Minimal
Minimal
Minimal
bFrom 1993 BRS. See Attachment A-1
Cost
Initial $1000/
waste
stream;
additional $5-
20/ton
Initial J1000/
waste stream
Maximum Pratical Capacity
On site
200,000 gal/dy
(234,000 tons/yr1)
360.000-450,000
tons/yr
70,000 tons/yr
150,000-200,000
tons/yr
1,1 59,000 tons/yr
200,000 tons/yr
Off site
70,000 tons/yr
Utilized Capacity
15,000 tons/yr
300,000 tons/yr
Ohio: 1 .000 tons/dy
(260.000 tons/yr')
Idaho: 100,000 tons/yr
333.000 wet tons of
liquid wastes/yr
2,400 tons of solids/yr
29.800 tons/yr"
38.962 tons in 1995
41 .557 tons/yr11
100,000-125,000'
tons/yr
Need for Other
Treatment
75% incinerated
to meet organic
LDRs
Incineration of
organics
Incineration of
organics
Low-level
radioactive/TC
metal wastes
Organic UHCs
Incineration of
organic UHCs
Prior treatment of
organic UHCs
Send selenium-
bearing wastes off
site
Additional Treatment Needed for:
Individual Standards
Cd
X
X
Pb
X
X
X
Se
X
X
X
X
Cr
X
X
-—
X
X
As
X
Ni
--
X
Mixed
Constituents
X
X
X
X
X
Organic
UHCs
X
X
X
X
X
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1.3 Phone Logs
Mr. Chuck Grant
Environmental Manager
Chemical Waste Management
Location: Carlyss, LA
Phone: 318-583-3774
Fax: 318-583-4615
Interview conducted by: Gillian Foster
Date of interview: August 23,1996
Mr. Grant responded that their facility does treat Phase IV wastes, and plans on
continuing treatment in the future. Approximately 25 percent of the wastes are treated
to LDR standards, while 75 percent of the wastes are incinerated to meet organic LDRs,
but need metals stabilization. Approximately 200,000 gallons/day of waste can be treated
to UTS on site at the facility. Their facility will need to implement modifications to the
types and quantities of reagents needed to treat various waste types in their stabilization
facility. The time needed to modify recipes for treatment should be minimal. They
estimate that it will cost approximately $1000 per waste stream to develop new recipes.
It is also estimated to increase treatment costs from $5 to $20 per ton. Approximately 20
to 30 percent of TC metal only waste streams have constituent concentrations above TC
or UTS levels that would require additional or modified treatment. For these waste
streams, meeting individual standards for selenium, chromium, and lead are going to be
problematic. They recommend that the limit be set at S.Oppm TCLP for all three
metals. They will not be able to treat TC metal-only wastes with organic UHCs because-
of Subpart CC.
Mr. Mitch Hahn
Chemical Waste Management
Location: Oakbrook, IL
Phone: 630-572-8800
Interview conducted by: Gail Shaw
Date of interview: September 10,1996
Date of follow-up interview: January 2,1997
Mr. Hahn responded that only hazardous waste is received for treatment at their
facility, and Phase IV wastes are treated. Treatment is 100 percent on site. They have
fixed stabilization tanks at their landfills. The quantity of Phase IV wastes that can be
treated to UTS depends on the treatment method. Approximately 70 to 80 percent of
the wastes can meet the lower UTS levels for metals, while 20 to 30 percent will require
development of new treatment recipes (e.g.,different ratios of stabilization agents). Of
these 20-30%, 5-10% can not meet the lower standards and will not be accepted by this
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facility. Applying UHC standards will increase the metal bearing waste streams going to
incinerators (i.e., for organics), but there is ample capacity. There will be problems
treating some of the wastes to individual standards. Difficulties with a mixed constituent
waste stream depend on the metals, which have different stabilization levels and varying
rates of leaching depending on pH. The facility does not know exactly what the impact
of organic UHC will be on metal bearing waste streams because those waste streams
have never needed to be identified. There will be no modifications made to the physical
treatment process. However, all of the waste codes with lowered treatment levels will
need to have thier treatment recipies looked at to determine if any modifications need
made. The difficulty of implementing modifications will vary depending on the difficulty
of changes. First, a bench-scale test will be performed in the lab (requiring several days),
then at the production level. It could take approximately 6 months to implement recipe
modifications depending on when the facility receives the waste streams. The estimated
cost is SlOOO/profile to re-evaluate and develop a new recipe. Refer to the comments on
the proposed rule submitted to EPA for supportive data.
In a follow-up call, Mr. Hahn said that they will not have to change any of their
actual physical processes. The lower the standards are, the more difficult it will be to
modify the recipes. He noted that meeting the hypothetical UTS levels for barium
(D005), chromium (D007), lead (D008), selenium (D010), antimony, nickel, thallium, and
vanadium would be easier than what was proposed in the August 1995 proposed rule.
Only minor modifications to the treatment recipes, requiring several weeks, may be
needed. The facility is working on new data.
Mr. Gary Davis
Vice President
Environmental Enterprises
Phone: 513-541-1823
Fax: 513-541-1638
Interview conducted by: Gail Shaw
Date of interview: September 23,1996
Date of follow-up interview: January 7,1997
Mr. Davis responded that their facility treats approximately 15,000 tons/year.
Approximately 50 percent is hazardous, while the other 50 percent is non-hazardous. He
noted that 100 percent of treatment capacity is commercial. They treat Phase IV wastes;
100 percent are treated on site at the facility, and no wastes are part of a treatment train.
Less than 50 percent of these Phase IV wastes can be treated to UTS at the present
time. In the future, Mr. Davis estimated it could take three to five years to be able to
treat to UTS (primarily because the permit would need to be changed). He noted that
generally there would be no problems treating to individual standards. Treating a mixed
constituent waste stream that has no organic UHCs is not problematic; however, treating
a mixed constituent waste stream with organics will be difficult. They will need to be
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sent off site to an incinerator. Mr. Davis could not estimate what modifications, if any,
would need to be made to treatment processes. He estimated it could take several years,
primarily due to changing the permit for part B. The facility can accept very little or no
additional Phase IV wastes because they are currently close to capacity. The facility can
provide supporting data if requested.
In a follow-up call, Mr. Davis noted that meeting the hypothetical UTS levels for
barium. (D005), chromium (D007), and lead (D008) would require modifications to both
the treatment process and the treatment recipes. Each constituent would require six
months to one year to implement the changes. Meeting the UTS levels for antimony and
vanadium would need modifications to their treatment recipes, requiring one year to
implement. The proposed UTS level for cadmium (D006) could not be met by the
facility. Those waste streams would have to be sent off site for treatment. Mr. Davis
noted that a UTS level of 0.20 mg/L for cadmium would not be achievable; however, a
UTS level of 0.50 mg/L could be met.
Mr. Scott Marls
Technical Manager
Environmental Quality
Location: Detroit, MI
Phone: 313-699-6230
Fax: 313-699-3499
Interview conducted by: Gail Shaw
Date of interview: September 17,1996
Date of follow-up interview: January 8,1997
Mr. Maris responded that their facility treats 300,000 tons/year. Approximately 50
percent is hazardous, while the other 50 percent is non-hazardous. He noted that 100
percent of the treatment capacity is commercial. They do treat Phase IV waste; 100
percent of what is received on site is treated, and no percentage of the wastes are part of
a treatment train. All of the Phase IV wastes can be treated to UTS at the present time
and the same is expected in the future. The facility expects no problems treating to
individual standards or a mfxed constituent waste stream. Also, there will be no
problems treating organic UHCs; their facility uses the process of chemical oxidation,
with bleach being a common oxident. No modifications will need made to the treatment
process. The facility can accept another 20-50 percent of additional Phase IV wastes,
increasing available capacity to 360,000-450,000tons/year.
In meeting the hypothetical UTS levels, Mr. Maris confirmed in a follow-up call
that the facility would have no difficulties. The levels are all the same or higher man the
UTS levels they are currently meeting.
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Mr. Joseph DeSipio and Mr. Rick Valiga
Principal
Environmental Technologies, Inc.
Location: King of Prussia, PA
Phone: 610-354-9050
Fax: 610-354-9851
Interview conducted by: Gillian Foster and Gail Shaw
-Date of interview: August 27,1996
Date of follow-up interview: January 2,1997
Mr. DeSipio responded that the facility treats 65 percent de-Bevilled wastes and
25 percent TC metals. They also treat a small amount of biological wastes. The facility
uses a three-phase treatment system consisting of physical sizing, chemical leaching with .
acids and reagents, and liquids processing. They extract metals out of the aqueous waste
stream into usable concentrations that are sent to industrial processing facilities. The
wastewater is neutralized and discharged into the sewer. Solid waste residue is then
returned to the soil. In general, approximately 50 percent of the wastes treated are
treated off site and 50 percent are treated on site. The interviewee believed that the
percentage of wastes accepted at the facility that is part of a treatment train begun at the
generator's facility is low. The interviewee estimated that the facility could provide
70,000 tons annually of off site capacity and 70,000 tons annually of on site capacity for
typical metal wastes. The only problematic waste stream is TC metal wastes that are also
low-level radioactive wastes. The facility does not currently treat these wastes. However,
Mr. DeSipio indicated that the facility is planning to treat them in the future. The plant
would need 4 weeks to be retrofitted to accept low-level radioactive/TC metal wastes.
The de-watering systems for the soils that pass through would need to be expanded to
handle incresed quantities. The facility can accept almost no additional Phase IV wastes.
They expect all individual standards to be met.
In a follow-up call, Mr. Valiga said that the facility would have no difficulties
meeting the hypothetical UTS levels. He noted in particular that antimony, beryllium,
nickel, thallium, vanadium, and zinc would create no treatment difficulties because they
are easily soluble.
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Mr. Rod Bartehy
Vice President of Public Affairs
EnviroSafe
Phone: 1-800-523-0781, ext, 5470
Fax: 215-956-5438
Interview conducted by: Gail Shaw
Date of interview: September 25,1996
Date of follow-up interview: January 13,1997
Mr. Bartehy commented that their facility in Ohio treats 1,000 tons/day of
primarily hazardous waste, depending on the level of business. 20,000 tons/year of
capacity is available for Phase IV wastes. The facility in Idaho has the design capacity to
treat up to 110,000 tons/year of primarily hazardous waste. The facility usually treats less
than 50,000 tons/year in terms of actual receipts. 40,000 tons/year of capacity is available
for Phase IV wastes. He noted that 100 percent of treatment capacity is commercial.
They do treat Phase IV TC metal wastes; 100 percent of Phase IV wastes are treated on
site at the facility, and a minority of wastes may be part of a treatment train. Most of
these Phase IV wastes meet the UTS at the present time, and would not be a problem in
the future. There would be no problems treating to individual standards or treating a
mixed constituent waste stream. However, the facility can not treat organic UHCs. No
modifications will need made to the treatment process except perhaps minor additive
changes. Mr. Bartehy estimated the facilities could currently accept another 150,000 -
200,000 tons of additional Phase IV wastes. The facility can provide supporting data if
requested.
In a follow-up call, Mr. Bartehy said that the facility would have no difficulties
meeting the hypothetical UTS levels.
Mr. Warren Norris
Sales Manager
GM (Disposal Systems)
Location: Deer Park, TX
Phone: 713-930-0350
Fax: 713-930-2511 ""
Interview conducted by: Gillian Foster
Date of interview: August 21,1996
Date of follow-up interview: Left messages January 2 and January 8,1997
Mr. Norris responded that their facility treats mineral processing wastes and
wastes that fail the TC metals only. The facility does not conduct off site treatment, only
on site at the facility. None of the wastes are pretreated before reaching the site. The
facility accepts liquid wastes that undergo oil removal (reclaimed for heat value),
dewatering, and filtration. The liquid phase is deep well injected. The facility holds a
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no-migration petition variance. The solid phase is stabilized on site or shipped off site
for incineration. The facility manages 333,000 wet tons of liquid wastes before treatment
per year. The facility has a capacity of 1,159,000 tons per year. The facility also
manages 2,400 tons of solids per year. All volumes are approximate. None of the waste
streams will cause the facility to make modifications in their treatment process.
Approximately 50-75 percent of TC metal waste streams have constituent concentrations
above TC or UTS levels. Mr. Morris expects that all TC and UTS standards will be able
to be met for the TC metal waste streams. He noted that cadmium stabilization is
difficult, although not impossible. Selenium does not stabilize well, and arsenic is very
soluble and leaches readily. The facility handles arsenic by mixing the waste with
aqueous wastes or water and then deep wells the arsenic containing liquid phase.
Mr. Terry Farrell
Heritage Environmental Services
Location: Indianapolis, IN
Phone: 317-486-2726
Fax: 317-249-2046
Interview conducted by: Gillian Foster
Date of interview: August 20,1996
Date of follow-up interview: Left message January 8
Mr. Farrell responded that their facility does not treat a significant volume of de-
Bevilled wastes, if at all, and they do not accept TC organic waste streams.
Approximately 60 percent of the wastes they stabilize are generated by their on site
treatment facility. This facility treats plating wastes, acids, and caustic liquid wastes
through metals precipitation and treatment. The treated wastewater is then filtered in a
filter press that generates a liquid, which is discharged to a sewer, and a filter cake, which
is stabilized and disposed in a landfill. About 40 percent of their waste stream is filter
cake that arrives from off site for stabilization and disposal. In order to meet the UTS
for underlying organics, the facility has two options: 1) pre-screen waste materials against
organics and refuse those waste streams; 2) undergo a "significant facility expansion * by
adding a treatment process to the treatment train that will address organics (e.g.,
chemical oxidation, or thermal treatment). The second option could take two years for
the permit modification approval process, engineering, and construction. The time
period would depend upon the type of permit modification that is required (e.g.,Class I,
II, or III). Almost 100 percent of the TC metal waste streams have constituent
concentrations above TC or UTS levels that would require additional or modified
treatment. Metals with organic UHCs are problematic at this facility. Their process is
geared towards handling characteristic metals only. At the least, additional analytical
expense would incur. Mr. Farrell believes that Phase IV would force waste streams to
incineration because many waste metal waste streams would need to be incinerated for
the organic UHCs. In a mixed constituent waste stream, nickel is the hardest constituent
to stabilize. Lead, chromium, and cadmium follow nickel in stabilization difficulty.
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Cyanides present in the filter cake received from off site could require oxidation or
chlorinating to meet the UTS.
Ms. Kim Knotts
Environmental Coordinator
LWDInc.
Location: Calvert City, KY
Phone: 502-395-8313
Fax: 502-395-8153
Interview conducted by: Gail Shaw
Date of interview: September 17,1996
Date of follow-up interview: January 2,1997
Ms. Knotts responded that in 1995, their facility treated 35,320 tons of hazardous
waste through incineration. Another 10 percent was non-hazardous. Additionally, 3,642
tons of hazardous waste and non-hazardous waste was treated through chemical
stabilization (35 percent being non-hazardous). She noted that 99 percent of the
treatment capacity is commercial. The facility does treat Phase IV waste; 100 percent
can be treated to UTS at the present time and the same is expected in the future. The
facility expects no problems treating to individual standards. There will be also be no
problem treating organic UHCs; the facility will vary their stabilization process, using
different chemicals to drive off the organics. Treatment problems may occur with mixed
metals. No modifications will need to be made to the treatment process, except minor
changes in stabilization processes for mixed metals. A few weeks will be necessary for
these minor modifications.
In a follow-up call, Ms. Knotts noted that the facility has not tried to meet levels
as restrictive as the hypothetical UTS levels.
Mr. Mark Rein
Assistant VP of Environmental Affairs
PDC
Location: Peoria, EL
Phone: 309-688-0760
Fax: 309-688-6801
Interview conducted by: Gail Shaw
Date of interview: September 17,1996
Date of follow-up interview: January 2,1997
Mr. Rein responded that the facility receives only hazardous waste for treatment.
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Phase IV wastes (30-40 percent of the waste stream) are treated; 100 percent of wastes
received on site are treated. Approximately 30-40 percent of the waste stream is pan of
a treatment train. He noted that 90 percent of Phase IV wastes can be treated to UTS
at the present time and the same is expected in the future. No problems are expected in
treating to individual standards or a mixed constituent waste stream. There will be a
problem with organic UHCs. Their facility does not have the capability to treat UHCs.
They are treated off site at another facility prior to being received at this facility. No
modifications will be made to the treatment process. Refer to the comments on the
August 1995 proposed rule submitted to EPA for supporting data.
In meeting the hypothetical UTS levels, Mr. Rein commented that the facility
would have no difficulties except with lead (D008). For this constituent, the treatment
recipes would need to be modified, requiring approximately one month.
Mr. Richard Grondin
Technical Manager
Rollins Environmental Services
Location: Deer Trail, CO
Phone: 970-386-2293
Fax: 970-386-2262
Interview conducted by : Gillian Foster
Date of interview: August 21,1996
Date of follow-up interview: January 10,1997
Mr. Grondin responded that 1 percent of their facilities' total waste stream is de-
Bevilled wastes. Approximately 50 percent of the total waste stream is TC for metals
only wastes. The facility does not conduct off site treatment, only on site at the facility.
Twenty percent of its solid waste stream is comprised of incinerator residuals received
from off site. Rollins provides stabilization, chemical precipitation, chemical reduction,
chemical oxidation, and on site disposal in a Subtitle C landfill. The facility presently
receives approximately 100,000 tons to 125,000 tons per year of waste that can be treated
to UTS. The total capacity at the facility is approximately 200,000 tons per year.
Approximately 99 percent of. the waste stream is solid waste and only 1 percent is liquid
waste. Treating selenium (D010) through stabilization to UTS is impossible at this
facility. They generally exclude waste streams with high concentrations of
selenium—currently five to ten tons per year. D010 wastes comprise less than 1 percent
of the total waste treated at the facility. The UTS level for selenium is unachievable due
to several factors: 1) selenium is an emphoteric metal; it is leachable in many matrices at
both low and high pHs; 2) selenium cannot be reduced or oxidized efficiently; 3) the
optimum pH for selenium stabilization is between 6 and 7. However, at pH 6-7, all other
TC metals will readily leach from the matrix at levels above the TCLP and UTS
standards. As a result, many selenium bearing wastes are sent to Canada for disposal.
Mr. Grondin believed that the Phase IV LDRs would result in more D010 waste shipped
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to Canada for disposal. In treating chromium (D007), the facility will have to increase
the amount of reagent used, thus increasing the cost. D007 wastes comprise 10 percent
of the total waste stream. Generally though, no extensive modifications to the treatment
processes will be necessary. Except for selenium, there should be no problem treating all
other TC metal wastes and de-Bevilled wastes to UTS.
In meeting the hypothetical UTS levels, Mr. Grondin commented that the facility
would have no difficulties except with selenium (D010), which could not be treated. For
this constituent, he noted that a UTS level of 5.7 would be achievable,
In addition to phone conversations, a site visit to Deer Trail was conducted by Mr.
Howard Finkel, Project Manager at ICF Incorporated, on August 20, 1996.
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APPENDIX A-2
CONSL'LTING GROUP
fCF Incorporated
9300 Lee Highway
Fairfax, VA 22031-1207
703/934-3000 Fax 703/934-9740
June 14, 1996
MEMORANDUM
To: Bill Kline and C. Pan Lee, EPA
From: Raghu Raghavan and Jim Laurenson
Subject: Status Report on the Available Capacity Assessment for TC Metal and Mineral
Processing Wastes.
This memorandum addresses available capacities for metal waste stabilization and metal
recovery for meeting the Phase IV TC metal and mineral processing waste LDR standards. We
are currently conducting the following activities:
• We are combining and substantially updating the discussion of available
commercial treatment capacity given in the background document for the capacity
analyses supporting the proposed LDR rule.
» We have conducted a preliminary review of the biennial reporting system (BRS) .
for 1993 to identify commercial facilities providing metal waste stabilization and
metal recovery capacities.
* We have compiled BRS information on the maximum operational capacity and
utilized capacity for various treatment systems providing stabilization or metal
recovery at these facilities.
• We have compared the BRS information with the results of the capacity analysis
performed for the Third Third LDR rule (1990).
• We are in the process, of contacting companies who are operating selected
commercial facilities to improve our data and understanding of the available
capacity for the wastes affected by the proposed rule.
The remainder of this memo presents our preliminary results of the BRS data review and our
activities concerning the contacting of facilities.
A facility required to submit the BRS must complete a separate and independent Form PS
for each on-site hazardous waste treatment, disposal, or recycling process system that was existing
and operational, for which there were plans to build and start operations, or that was in the
closure process. The information given in Form PS includes estimates of the maximum
operational and actually used capacities for each system type available on site. After a
preliminary review and comparison of data given in the Form PS in 1991 and 1993 BRS, we
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decided co focus on the RCRA capacity related information and other data given in Form PS in
1993 BRS for the following metal recovery and stabilization systems:
* Metal Recovery Systems
MO II High temperature metais recovery
MO 12 Retorting
MOB Secondary. Smelting
M014 Other metals recovery (e.g., ion .exchange, reverse osmosis, acid leaching,
etc.)
MO 19 Metals recovery - type unknown
* Stabilization
Mill Stabilization/Chemical fixation using cementitious and/or pozzolanic
materials
Ml 12 Other stabilization
Ml 19 Stabilization - type unknown
By using the information given in Form PS to define the commercial capacity availability of each
system, we were able to list separately the facilities having commercially available and non-
commercial capacities for metal recovery and stabilization. The following lists are attached with
this memo as an illustration of the preliminary results of maximum and utilized RCRA capacities
that we obtained from use of Form PS in the 1993 BRS:
* Commercial stabilization systems and capacities;
* Non-commercial stabilization systems and capacities;
• Commercial metal recovery systems and capacities; and
• Non-commercial metal recovery systems and capacities.
The attached preliminary tables have been analyzed further by comparing their contents with
information on the utilization of capacity given in other forms — Forms WR and GM — in the
1993 BRS. As mentioned before, die BkS information was compared with the results of the
capacity analysis performed for the Third Third LDR rule.
/
Based on the analysis of 1993 BRS completed to-date, it seems that there are nearly 30
operational facilities providing commercial stabilization capacity. The utilized capacity for
stabilization appears to be approximately 750,000 tons per year. The maximum operational
capacity at these commercial facilities has yet to be confirmed. (For example, the attached table
on commercial stabilization indicates that several facilities reported maximum capacities that far
exceeded utilized capacities. These data must be confirmed through personal contacts of the
facilities or by using other reliable sources of information.) However, it seems that the available
stabilization capacity would be more than the previous estimate of I million tons per year. The
1993 BRS information also showed that additional stabilization capacity is utilized and available at
nearly 60 non-commercial facilities. As for metal recovery, nearly 60 commercial facilities have
reported the utilization of approximately 600,000 tons of capacity in 1993. Additional capacity for
metal recovery is also being provided at nearly 120 non-commercial facilities. The maximum
operational capacity at commercial metal recovery facilities must also be confirmed. (As with
stabilization capacity, the attached table on commercial metal recovery shows large differences
between maximum and utilized capacities.)
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At present, we are trying to improve the data obtained from BRS on maximum
operational and utilized capacities for commercial stabilization and metal recovery. It is necessary,
however, to improve upon the quality of these numbers through a limited number of phone
contacts of selected facilities. It is also necessary to obtain at least some qualitative information
addressing the logistics and applicability of existing technologies to meet the UTS for newly
identified mineral processing wastes and other TC metal wastes.
We have selected the following six companies to discuss the available capacity for metal
waste stabilization:
1. Laidlaw Environmental Services,Inc.
2. Rollins Environmental Services
3. Chemical Waste Management
4. Peoria Disposal Company
5. Gibson Environmental
6. Republic Environmental Systems, Inc.
The first three companies operate commercial hazardous waste landfiHs in different states and
commented on the proposed Phase IV LDR rule. Most of these landfills were reported in EPA's
Commercial Treatment/Recovery Data Set (May 1990) and in the 1993 BRS to have stabilization
capacity on site. The last three companies listed above were also reported in BRS to have large
capacities for metal waste stabilization. All of these companies may be interested in providing
available capacity on stabilization for some of the hazardous waste affected by Phase IV LDRs.
We have selected the following six companies to discuss the available capacity for metal
recovery:
1. INMETCO, Inc.
2. Quemetco, Inc.
3. Revere Smelting and Refining Corp.
4. Recontek Inc.
5. ETICAM Process •
6. Encycle Texas Inc.
INMETCO provided comments on the proposed Phase IV LDR rule. The next two companies
showed high utilization of secondary smelting capacity at their facilities. The last three companies
were selected due to the need for confirming that they are active in processing a wide range of
metal-bearing hazardous wastes, as reported in the capacity analysis background document
supporting the proposed rule. We are expecting to resolve some of the major discrepancies
between maximum and utilized capacities shown in the attached table on commercial metal
recovery systems (e.g., Phibro-Tech, Inc.) without contacting the facilities.
We are asking one or more of the following questions (depending on the information
already provided or expected) after contacting the right person in each of these companies:
• What is the maximum capacity for stabilization and/or metal recovery installed at
each of the facilities operated by the company? How was this capacity measured?
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» When was the facility originally built? What kind of technology confirmation was
required before designing, building, or starting operations at the facility?
• What is the current utilization of capacity at each facility? What percentage of
capacity is utilized for commercial purposes? Are there any limitations in the use
of commercial capacity? What is the non-commercial capacity used for?
• What are the types of capacities available? For example, is stabilization
technology based on physical encapsulation or chemical fixation? As another
example, what are the metals recovered from the wastes? Are there any technical
limitations in the use of technology(ies) used at the facility?
• What types of industries/wastes are being provided with commercially available
treatment capacity? Newly-identified mineral processing wastes? Other TC metals
required to meet UTS?
• Will the company be interested in building and/or operating on-site metal waste
stabilization or metal recovery facilities for selected new customers? Has the
company considered or provided similar services in the past? What are the
logistics and economic considerations in developing this additional capacity?
In addition to contacting these companies, we are in the -process of contacting a few selected
trade associations to confirm our new findings on the availability of commercial stabilization or
metal recovery capacity, and the feasibility of building new waste treatment capacities on site. We
also plan to discuss these topics with some technical specialists in metal waste stabilization or
metal recovery. For example, we plan to contact one of the authors of the attached paper on
chemical fixation, Gregory Indelicate, to discuss the applicability of new techniques in chemical
fixation for hazardous waste treatment.
Please call Raghu Raghavan at 703-934-3417 or Jim Laurenson at 703-934-3648 if you
have any questions on this memorandum.
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Commercial Stabilization Systems and Capacities '
(Basis: 19938RS-Form PS)
System
Facility facility Nam« ! Cadm
COD991 300484 HIGHWAY 38 UNO DEVELOPMENT CORP M111
C A 0980 883 177 GIBSON ENVIRONMENTAL Mill
ILD00080581 2 PEORIA DISPOSAL CO INC M1 1 1
Ma*
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Non Commercial Stabilization Systems and Capacities
(Basis: 1993 BRS-Form PS)
System i Maximum RCRA Utilized RCRA
Facility Facility Name
ID4890008952 USDOE IDAHO NATL ENGINEERING LABORATORY
MID005356860 CMC, INLAND FISHER GUIDE
LAD01 03951 27 ROLLINS ENVIRONMENTAL SERVICES
ALD003397569 ACIPCO (AMERICAN CAST IRON PIPE COMPANY)
CAD0091 51 671 E I DUPONT DENEMOURS & CO
ALD046481 032 SANDERS LEAD COMPANY, INC.
ILD006271696 OLIN CORP
ILD0052631 57 NORTHWESTERN STEEL & WIRE #2
CAD009114919 CHEVRON USA PRODUCTS CO, RICHMOND REFIN
AZ4570024055 DAVIS MONTHAN AFB
LAD008184137 SCHUYLKILL METALS CORP
IND0051 46683 THE FORD METER BOX CO., INC.
NCD9861 81 451 M ANNINGTON CERAMIC TILE
OHD032271975 MARION STEEL COMPANY
NYD980779540 WEST VALLEY DEMONSTRATION PROJECT
ALD9831 91 966 VIRGINIA CAROLINA CHEMICAL SO
VAD065417008 GRIFFIN PIPE PRODUCTS CO
IND064708845 KUNKLE FOUNDRY CO.JNC.
GAD033842543 TRI-STATE STEEL DRUM INC
C0789001 0526 U.S. DEPARTMENT OF ENERGY - ROCKY FLATS
ALD095688875 ZENECA INC-COLD CREEK
FLD984243097 BIO MEDICAL SERVICE CORP
NM089001 051 5 U.S. DOE LOS ALAMOS NATIONAL LABORATORY
MOD006308407 A.B. CHANCE COMPANY ALLEN STREET COMPLEX
IN 01 21 581 698 WABASH NATIONAL CORPORATION
PAD004329835 PENNZOIL PRODUCTS CO ROUSEVILLE RERNERY
CAD982412165 TOPPAN WEST, INC
PAD041731670 CERDEC CORP - DRAKENFELD PRODUCTS
MOT300010022 A C F IND SHIPPERS CAR LINE DIVISION
MSD033353129 THE CLARION LEDGER
MSD097909485 RELIABLE ELECTRIC UTILITY PROD
FLD9821 20024 BOSTON WHALER INC
IND056041213 LEER MIDWEST
OKD000758557 CHROMALLOY DH/ISION-OK
GAD098583909 HERCULES INC OXFORD PLANT
MOD981 709272 IT ANALYTICAL SERVICES ST. LOUIS
CTD981 063431 PFALTZ & BAUER INC
DC81 7002431 1 NAVAL RESEARCH LABORATORY
KSD0071 50477 GNB INCORPORATED
OKD001 824564 AMERICAN AIRLINES, M & E CENTER
OKD007220148 AMERICAN AIRLINES, COMPOSITE CENTER
OK DOS 13986 12 UNIT PARTS COMPANY
OKT410010797 GEA RAINEY PLANT ill
CAD001 216548 JOSLYN JENNINGS CORP
CAD0561 60336 LITTON IND ELECTRON TUBE DIV.
CAD982324154 COMPOSITE STRUCTURES
CO789001 0526 U.S. DEPARTMENT OF ENERGY - ROCKY FLATS
MED001 097237 SNS PLASTICS CO INC
OKD000829440 ZINC CORPORATION OF AMERICA
VAD003444379 VIRGINIA METALCRAFTERS INC
i Code ' Capacity Capacity
M111 360,000 i
M111 i 190,360 107,871
M111 ) 130,0001 65
M111 i 60,034 i 2,000
M111 50,000 i 18,080
M111 44,777' 26,019
M112 40,320 1,309
M111 35,092 27,192
M111 31,590
M111 25,000 24,167
M111 25,000 10,499
M112 15,000 : 1,721
M111 12,000 7,935
M112 4,500 : 3,277
M111 2,865 i 906
M111 2,500 2,500
M111
M111
M111
M111
M112
M112
M111
JM111
M112
M111
2,300 i 1,236
1,125 244
1,040 175
831
500 244
459 137
173 60
150 52
117! 11
100 65
M111 75 5
J«111 75 23
M111
M111
M111
M112
M111
M111
M112
M111
M111
M112
M111
M111
M111
M111
M111
M112
M112
M112
M112
M112
M112
M112
40 10
34 34
25 12
24 24
4 4
3 24
0 0
0 0
0 0
0
170
187
38
212
7
-
.
-
-
8
3
-
Pag«1
-------�
Non Commercial Stabilization Systems and Capacities
(Basis: 1993 BBS-Form PS)
MOD985821719 MIDAMERICAN TRUCK MAINTENANCE
OKD000829440 ZINC CORPORATION OF AMERICA
MD61 50004095 NATIONAL INSTITUTES OF HEALTH
MD61 50004095 NATIONAL INSTITUTES OF HEALTH
M119
M119 ,
M111 :
M112 .
.
3
0
0
TOTAL FOR NON-COMMERCIAL FACILITIES
1,036,112 236,526
Pag* 2
-------�
Commercial Metal Recovery Systems and Capacities
(Basi: 1993 BRS - Form PS)
System Maximum RCRA Utilized RCRA
Facility Facility Nam«
NY09811 82769 KBF POLLUTION MANAGEMENT INC
CAD00848802S PHIBRO-TECH, INC.
PAD002395887 HORSEHEAD RESOURCE DEVELOPMENT CO INC
PAD990753089 GENERAL BATTERY CORP - READING COMPLEX
MND006148092 GOPHER SMELTING & REFINING COMPANY
ILD984766279 RECONTEK INC
CAD069124717 MICRO METALLICS CORPORATION
ALD046481032 SANDERS LEAD COMPANY, INC.
PAD981038227 WORLD RESOURCES COMPANY
MOD059200089 DOE RUN CO BUICK SMELTER
Code i Capacity Capacity
M019 4,035,363 | 1,757
M014 2,322,554 I 608,199
M011 1 300,0001 270,000
M013 83,600 3,894
M013 48,000 ! 60,251
M014 48,000 i 357
M011 28,050 39
M013 ! 25,000 i 5,200
M014 ! 24,250 • 20,446
M013 21,175 1,339
PAD981 11 0570 HORSEHEAD RESOURCE DEVELOPEMENT CO INC M011 20,000 1,216
CAD088S04881 KINSBURSKY BROTHERS INC,
MND981 098478 U.S. FILTER RECOVERY SERVICES, INC.
CAD070148432 DREW RESOURCE CORPORATION
CAD069124717 MICRO METALLICS CORPORATION
MND985746569 RECYCLIGHTS, INC.
LAD0571 09449 UOP * SHREVEPORT PLANT
ILD005087630 UNITED REFINING & SMELTING CO
IND093219012 HERITAGE ENVIRONMENTAL SERVICES, INC
CAD001 968361 LEARONALINC
NYD001 325661 LEARONALINC.
LAD981152903 NEW ORLEANS SILVERSMITHS
FLD984217877 CHEMICAL POLLUTION CONTROL INC
MID9855671 14 CYANO CORPORATION OF MICHIGAN INC.
NYD048148175 MERCURY REFINING COMPANY INC
PAD002390961 BETHLEHEM APPARATUS CO INC
PAD987367216 ADVANCED ENVIRONMENTAL RECYCLING CORP
OHD061614673 DAYTON WATER SYSTEMS
CAD981689953 LESHER COMMUNICATIONS INC.
ILD005087630 UNITED REFINING & SMELTING CO
CAD982440273 BAY PHOTO LAB INC.
CAD0691 38899 J&B ENTERPRISES
NYD001 325661 LEARONAL, INC.
ILD000675249 AMERICAN CHEMICAL & REFINING
KS1 571 9241 40 MCCONNELL AIR FORCE BASE
LAD087029872 ALFRED'S PROCESSOR SALES/SERVICE
PAD089352983 FEDERATED-FRY METALS
MND981002470 ELECTROCHEMICALS, INC
MAD000650051 WINDRELD ALLOY INC.
NYD08622SS96 AT&T NASSAU PLACE
CAD981 424732 QUICKSILVER RECYCLING INC
IND005226949 REMOTE CONTROLS INC.
NYD086225S96 AT&T NASSAU PLACE
RID001200609 PEASE & C JRREN INC
AZT050010685 ALLIED PRECIOUS METALS RECYCLING CO.
CAD981424732 QUICKSILVER RECYCLING INC
R I D001 200252 TECHNIC INC
MAD0006500S1 WINDFIELD ALLOY INC.
M014 i 15,980 10,500
M014 8,655 418
M014 i 8,501 3,346
M014 5,976 i 31
M014 5,622 610
M014 2,600 726
M011 2,500 126
M014 2,105 I 6
M014
1,142 i 100
M014 1,004 | 46
M014 i 890 I 157
M0 19 842 683
M014 788 190
M012 510 311
M012
375 i 350
M012 345 172
M014
M014
M014
M0 14
M0 14
M011
M014
M014
259 197
209 23
209 5
186 80
133 | 53
125) 6
1041 52
104
M014 100 I 39
M013
M0 14
M0 14
M014
M019
M014
M011
M0 19
M013
M0 14
M011
M013
83 | 83
78 64
38 1
38 29
36 32
27 27
25 12
22 7
20 60
5
5 4
3 0
Pag*1
-------�
Commercial Metal Recovery Systems and Capacities
(Basi: 1993 BRS - Form PS)
RID001 200252 TECHNIC INC M019
NYD071600100 STATE UNIVERSITY OF NY AT BINGHAMTON M014
CA0069138899 J&B ENTERPRISES M0 11
NY0030485288 REVERE SMELTING & REFINING CORPORATION M013
CAD981 160948 PHIBRO-TECH, INC. AKA ENTECH RECOVERY, I M014
PAD087561015 INMETCO INC M011
2 84
1 0
0 j 0
i - 114,362
560
40,168
CAD982411993 MERCURY TECHNOLOGIES INTERNATIONAL M012 <
IND0001 99653 QUEMETCO, INC. • M013
RID98 1886 104 GANNON & SCOTT INC M013
C00983788688 ENVIROSERVE INC. M014
IND984891994 BOLIOEN METECH, INC M014
148,548
6
.
64
MID9856 19824 NORTRU INCORPORATED M014
RID063890214 BOLIDEN METECH INC M014
RID981886104 GANNON & SCOTT INC M014
153
32
IND000718130 REFINED METALS CORPORATION M013
MOD030712822 SCHUYLKILL METALS CORPORATION M013 !
CAD981 978752 PASADENA CITY COLLEGE M014 i - ;
CAD982523102 PHOTOTEK M014 ! - !
TXD084281575 TEXAS INSTRUMENTS, INC. M014 i -
TXD981514383 ALPHA OMEGA RECYCLING, INC. M014
TXD988079307 FUJI TRUCOLOR M014
TX6213820529 LONGHORN ARMY AMMUNITION PLANT M014
TOTAL QUANTITY FOR COMMERCIAL FACILITIES !
i'
- i
-
7,015,635 I 1,295,222
Page 2
-------�
Non Commercial Metal Recovery Systems and Capacities
(Basis: 1993 8RS- Form PS)
System Maximum RCRA Utilized RCRA
Facility
Facility Name
Code
Capacity
Capacity
LAD008184137 SCHUYLKJLL METALS CORP
M013
350,000
6,417
IND000717959 GENERAL BATTTERY/EXIDE CORPORATION
M013
240,000
132,923
CA000834428S DICEON ELECTRONICS INC
M014
127,284
58,687
MA0990886301 ALTRON INCORPORATED
M014
123,853
82,877
CAD980816763 VELIE CIRCUITS INC.
M014
114,679
110,509
MND050730175 HARD CHROME INC
M014
112,594
170,898
CA0983601360 SOUTH BAY CIRCUITS INC
M014
107,381
76,755
PAD990753089 GENERAL BATTERY CORP • READING COMPLEX M013
106,400
4,956
IAD984568204 UNIVERSAL CIRCUITS INCORPORATED
M014
106,255
38,729
MID006409387 PLASTIC PLATE I
M014
92,160
43,536
MNT280010257 NICO PRODUCTS INC
M014
85,488
54,712
MND980700900 BUREAU OF ENGRAVING, INC - INDUSTRIAL DV M014
84,762
42,400
CAD008492951 HUGHES MISSILE SYSTEMS CO
M014
72,448
130
MND045976107 PRO-TECH INC
M014
72,195 j
28,731
MND116224288 PROFESSIONAL PLATING INC
M014
45,872
19,187
PAD005031448 ERIE PLATING COMPANY
M014
45,746
45,746
NJD011417516 PLASTI CLAD METAL PRODUCTS INC
M014
43,853
6,649
MND981089832 UNIVERSAL CIRCUITS, INC.
M014
43,716
25,761
MID981090509 LACKS, AIR LANE
M014
42,952
42,952
FLD004092839 GULF COAST RECYCLING INC
M013
41,000
27,513
CAD983654633 TRUST PRINTED CIRCUITS
M014
33,361
17,608
MND980681589 AVTEC FINISHING SYSTEMS INC
M014
30,901
10,587
MND006481287 JOYNER'S SILVER AND ELECTROPLATING
M014
29,633
15,638
IND980898522 CUSTOM CIRCUITCRAFT, INC.
M014
28,022!
15,613
CT4170022020 US NAVAL SUBMARINE BASE
M014
25,500
23
GAD070330576 GNB BATTERY TECHNOLOGIES
M013
25,200
24,010
RID059735761 ADVANCED CHEMICAL COMPANY
M014
18,657
827
ARD981908890 NUCOR YAMATO STEEL
M011
17,000
12,427
CAD009680232 GRAPHIC RESEARCH INC
M014
16,971
2,286
MND006219232 MICOM CORP
IM014
13,136
11,259
NYDO01273242 QUEENS PLATINQ COMPANY INC
M014
7,500
1,088
NHD982202673 ABC FABRICATORS INC
M014
6,844
3,332
PAD002116994 TORPEDO WIRE A STRIP INC
M014
4,918
624
MND053422762 UNIVERSAL CIRCUITS INC
M014
4,170
3,963
NYD041293127 R D SPECIALTIES INC
M014
3,753
AZD980896310 CONTINENTAL CIRCUITS
M014
3,700
751
MND085114890 TELEX COMMUNICATION INC
M014
3,508
718
AZD980816276 TALUEY DEFENSE SYS
M014
3,123
IND075954222 DIVEflSFlELD SYSTEM INC.
M014
2,752
440
MAD001411081 RAYTHEON COMPANY
M014
2,717
1,368
MND006253801 SUPERIOR PLATING INC
M014
2,365
647
NYD052782497 NEWSDAY, INC.
M014
2,180
MND079731519 UNISYS CORPORATION
M014
1,719
CAD982519423 SAN JOSE MERCURY NEWS
M014
1,344
MND980615496 ROSEMOUNT AEROSPACE INC.
M014
1,043
518
AZD063274609 CONTINENTAL CIRCUITS CORP
M014
1,000
216
KYD985083625 APPALACHIAN REGIONAL MEDICAL CENTER
M014
957
11
CAD982436172 MULTILAYER TECHNOLOGY, INC.
M014
911
193
Pag*1
-------�
Non Commercial Metal Recovery Systems and Capacities
(Basis: 1993 BBS- Form PS)
KYD074047556 GE AIRCRAFT ENGINES
M014
822
21
CAD983600339 KAISER FOUNDATION HOSPITALS
M014
651
580
DED003913266 OCCIDENTAL CHEMICAL CORPORATION
M012
600
153
GAD980847479 HITACHI CHEMICAL ELECTRO-PRODUCTS INC M014
506
404
KYD130399363 HUMANA HOSPITAL-UNIVERSITY OF LOUISVILLE M014
450
24
MOD985801380 MONSANTOA COMPANY
M014
436
108
KYD074051202 LEXINGTON CLINIC
M014
420
24
CAD063110605 CHEVRON PETROLEUM TECH. CO.
M014
415
CAD071557029 THE GRASS VALLEY GROUP, INC.
M014
410
98
ALD008163388 OCCIDENTAL CHEMICAL CORPORATION
M012
400
120
MAD981063001 CPC INCORPORATED
M014
375
129
MND981089790 WEST PUBLISHING COMPANY
M014
365
123
MND985668227 PRECISION DIVERSIFIED IND., INC.
M014
311
217
CA2170023152 USNAVY CHINA LAKE NAVAL AIR WPNS STN
M014
288
288
MND0834676S8 MAYO FOUNDATION
M019
280
240
OKD055943286 GRAPHIC ELECTRONICS
M014
271
PAD134752S83 BURNDY CORP
M014
258
67
PAD980554570 OSRAM SYLVANIA INC - WARREN
M014
252
39
NHD986466688 CIRCUIT CONNECT INC
M014
250
188
FL2800016121 USAF CAPE CANAVERAL STATION
M014
218
37
NYD045201688 AMERICAN BOARD CO
M014
209
197
MAD001014174 AGFA DIVISION, MILES INC,
M014
204
33
ALD004019642 OCCIDENTAL ELECTROCHEMICALS CORP.
MQ12
200
88
MDD121338297 CARROLL COUNTY ITEMS
M014
163 i
16
NYD082788126 GEOMETRIC CIRCUITS, INC.
M014
150
83
PAD003004587 ATOTECH USA INC • STATE COLLEGE
M014
133
21
CAD108148958 SAINT JOSEPH MEDICAL CENTER
M014
125
63
NYD045606480 3M PRINTING & PUBLISHING
M014
125
11
CAD047784574 KETEMAA&E
M014
119
LAD062666540 PIONEER CHLOR ALKAU COMPANY
M014
115
33
CAD008314908 SOLAR TURBINES INOHARBOR DRIVE FACILITY M019
110
22
CTD983876814 COMPONENT TECHNOLOGIES, INC.
M019
92
64
CAD047297593 NATIONAL SMELTING & REFINING
M014
91
NYD002241982 HADCO CORPORATION
M014
87
15
OHD004174827 R.R. DONNELLEY & SONS COMPANY
M014
87 i
46
MND058330473 ADVANCED FLEX, INC. - PLANT 1
M014
87
13
MAD086538394 RAYTHEON COMPANY
M014
78
MNT280010414 UNIVERSITY OF MINN MPLS CAMPUS
M014
66
59
KYD981854987 ST. JOSEPH HOSPITAL
M014
65
32
KYD045739471 AMERICAN GREETINGS CORPORATION
M014
62
MND000819268 ALUANT TECHSYSTEMS, INC T.C.AMMUN.
M014
60
20
NYD049838568 EXCEL PRECISION, INC.
M014
59
14
55"
AKD000643239 BP EXPLORAT1OIN ALASKA INC PRUDHOE BAY M014
58
CTD001183763 CIRCUIT WISE INC
M014
54
KYD068324037 LEXINGTON HERALD LEADER COMPANY
M014
50
17
NYD987000759 COLOR DATA EAST
M014
50
MND982425589 STAR TRIBUNE NEWSPAPER
M014
48
CAD076243815 TELEDYNE AIRCRAFT PRODS-CAST PRODS OPS M014
44
37
NH DO81255788 ADVANCED CIRCUIT TECHNOLOGY
M014
42
31
KYD985085166 OUR LADY BELLEFONTE HOSPITAL
M014
40
34
Page 2
-------�
Non Commercial Metal Recovery Systems and Capacities
(Basis; 1993 BRS- Form PS)
KY621 0020479 USAARMC AND FORT KNOX
KYD1 44303864 HARDIN MEMORIAL HOSPITAL
MND982639775 T.R.C. CIRCUITS INC.
COD981549413 S AS CIRCUITS INC
CTD0011S9S57 COMBUSTION ENGINEERING, INC,
KYD00638366S GATEWAY PRESS INC.
PA0890090004 US DOE - BETTtS ATOMIC POWER LAB
MND006147102 QUEBECOR PRINTING INC.
MAD99128950S CHILDREN'S HOSPITAL CORP.
CAT080031461 CSUF
CAD983576760 PROGRESSIVE CIRCUIT PROD
GA736001S450 VA MEDICAL CENTER
KYD068135516 HIGHLANDS REGIONAL MEDICAL CENTER
M014 38 28
M014 35 25
M014 34 i 7
M014 33 '' 18
M014 32 1
M014 30 12
M014 30 i 0
M014 ; 30 ; 15
M014 28 17
M014 i 25 1
M014 ! 25 1
M014
M014
MD3750832Q62 FREDERICK CANCER RESEARCH AND DEVELOPS M01 4
MND0481 66672 INSTANT WEB, INC
CAD0801 29000 GENENTECH INC
FL680001 4585 USNASA KENNEDY SPACE CENTER
NYD033490640 ANDIN INTERNATIONAL
FLD060240207 MARTIN MARIETTA MISSILE SYSTEMS
CAT0006 18603 CHEVRON RESEARCH & TECHNOLOGY
M014
M014
M0 14
M0 14
M014
M014
CA2890012584 LAWRENCE LiVERMORE NATIONAL LABORATOR'M014
CAD00922Q898 TELEDYNE RYAN AERONAUTICAL
COD085270270 BALL AEROSPACE & COMMUNICATIONS GROUP
FLD004100152 E-SYSTEMS ECI DIV
UTD9809S9191 HERCULES AEROSPACE
MND0811 38604 ALLIANT TECHS YSTEMS PROVING GROUND
MND981 536006 LITHO SPECIALTIES, INC.
MED03771 9846 US DEPRTMENT OF VETERAN AFFAIRS
CA71 70024528 USNAVY NAVAL WEAPONS STN CONCORD
MND980826457 MCF-ST1LLWATER
CTD001 1 83763 CIRCUIT WISE INC
FLD980841746 MARTIN MARIETTA ELECTRONIC SYSTEMS
MS62 10809871 WATERWAYS EXPERIMENT STATION
KYD980844757 RIVERPORT IMAGING
KY5 1700241 73 NAVAL ORDNANCE STATION
MND985703024 SOURCE, INCORPORATED
CAT0006 17597 USC HEALTH SCIENCES CAMPUS
NYD043835081 AIR TECHNIQUES INC
FL2570024404 USAF PATRICK
MDD050793926 TOWSON STATE UNIVERSITY
VAD000820712 UNIVERSITY OF VIRGINIA
ME81 7002201 8 US NAVAL AIR STATION
MND98S684S20 IMPRESSIONS INC.
CAD075301390 TELEDYNE AIRCRAFT PRODUCTS
FLD984225821 HEALTHSOUTH DOCTORS'HOSPITAL
MND041786930 ADVANCED FLEX, INC. • PLANT 2
MND9856S7047 QUEBECOR PRINTING ST. CLOUD, INC.
FLD004104105 HONEYWELL INC
KYD985095140 GOOD SAMARITAN HOSPITAL
M014
M0 14
M014
M014
M0 19
M014
M014
M014
M014
M019
M014
M014
M014
M014
M019
M014
M014
M014
M014
M0 14
M014
M014
M014
JW19
M0 14
M0 14
M014
M014
MOD071 999783 UMSL DANGEROUS CHEMICALS STORAGE BLDG M014
23 8
23 23
22 i 1
22 : 12
21 2
21 15
20 7
18 5
18 1
18 1
18 0
16 2
16 i 0
15 ! 6
15 i 0
14 12
13 1
13 1
12 0
12 1
12 1
11 1
10 3
10 2
10 7
10 8
10 3
10 7
9 1
9 5
9 1
8 5
8 7
8 6
8 6
7 6
7 1
6 3
6 1
Pag* 3
-------�
Non Commercial Metal Recovery Systems and Capacities
(Basis: 1993 BRS- Form PS)
ME9570024S22
NYD00223S182
NYD981 875481
MND985677210
MAD04 171 0609
NMD041 358904
CAT000613372
KSD980852669
CAD099457061
CA1 800005034
CAT00061758f
MND0008 19292
FL81 70023792
CAT080033392
MND980792642
CAD072518517
VAD046960449
ME71 7002201 9
CAD079622569
M A D001 027325
FLD064824030
MADO0 1423631
NYD000810986
CAD009587700
CAD047791421
M 04213820489
MID041 793589
CT0010174613
CA1 170090020
NYD000799239
KS0007233323
NY6360010312
MAD071 723563
NHD073976904
CAD066233966
PAD002330165
CAD000628032
CAD001 425206
CA0008319089
CAD020530846
CAD028878015
CAD0691 30995
CA0980673347
CAD980737837
CA0980885941
CAD98 1385958
CAD982417172
CAD982484826
CAD990843716
CAT000646257
US AIR FORCE BASE - LORING M014
MARTIN MARIETTA CORP AIR FORCE PLNTfSt M014
PEPSI-COLA COMPANY M014
CONTAINER GRAPHICS CORP M014
TECH-ETCH, INC. M014
NEW MEXICO INST. OF MINING & TECHNOLOGY M014
KCA ELECTRONICS INC. M014
UNIVERSITY OF KANSAS M014
MAGNAVOX ELECTRONIC SYSTEMS CO M014
USN ASA AMES RESEARCH CENTER M01 4
USC UNIV PARK CAMPUS M014
ADVANCED FLEX, INC, -PLANTS M014
USN COASTAL SYSTEMS CENTER M014
CALIFORNIA STATE UNIVERSITY NORTHRIDGE M014
MANKATO STATE UNIV M014
BECKMAN INSTRUMENTS INC M014
J ABCOCK & Wf LCOX CO N N F D M01 4
PORTSMOUTH NAVAL SHIPYARD M019
AEROJET ELECTRONIC SYSTEMS PLANT , M014
GARE INCORPORATED M014
MCDONNELL DOUGLAS MISSILE PRODUCTION M01 4
NORTHEASTERN UNIVERSITY M014
CORNELL UNIVERSITY LIFE SAFETY : M014
TELEDYNE ELECTRONIC TECHNOLOGIES M014 i
CARPENTER TECH. CORP. -SPECIAL PROD. DIV M014
LAKE CITY ARMY AMMUNITION PLANT M014
PARLIN INDUSTRIES INCORPORATED M014
KLOCK CO DIV OF WICKES CO INC I M01 4
USNAVY PT LOMA NAVAL COMPLEX M014
SYRACUSE UNIVERSITY (QUAD) M014
KANSAS PLATING INC M0 14
VAMC - NORTHPORT M014 i
NEW ENGLAND DEACONESS HOSPITAL M014 i
GENCORP POLYMER PRODUCTS M014
QUEMETCO, INC. - M013 |
EAST PENN MFC CO M013 \
AIRCRAFT X-RAY LABORATORIES, INC M014
RAYTHEON COMPANY ESD M014
CHROMALLOY ADV TURBINOLOGY M014
GDE SYSTEMS INC M014
STANFORD UNIVERSITY HOSPITAL M0 1 4
HEWLETT-PACKARD COMPANY M0 14
U.S. CIRCUIT, INC. M014
SACRAMENTO BEE ! M014
ALLERGAN MEDICAL OPTICS j M014
AMBITECH, INC M0 14
NAPA PIPE CORP M014
UNIVERSAL CIRCUITS M014
ILC TECHNOLOGY M0 14
FLIGHT ACCESSORY SERVICE DIV. OF HAWKER M014
5 2
5 1
5 : 8
4 2
4 1
4 2
3 1
3 1
3 0
3 177
3 2
2 1
2 0
2
2 1
2 2
1 1
1 1
1
1 0
1 0
1 0
1 0
0 0
0 0
0 0
0 0
0 0
0 ( 0
0 2
0 0
0 0
0 0
0 0
1,609
146
- 3
,
-
• *
-
M> *
* <•
-
.
-
..
-
.
'
Page 4
-------�
Non Commercial Metal Recovery Systems and Capacities
(Basts: 1993 BRS- Form PS)
COD0826S7420 SCHLAGE LOCK COMPANY
CTD01 8695999 AEROSPACE METALS
DED0023378Q6 NVF COMPANY
KSD116030909 COLT TECHNOLOGY CORPORATION
MAD001 032353 GLOBE NEWSPAPER CO.
M014 - .
M014 . |
M014 i - , 34
M014 .
M014 • - 14
MID0471 53077 PRODUCTION PLATED PLASTICS INCORPORATEIM014 -
MND0061 59149 THE JOHN ROBERTS COMPANY
MND006258115 JAPS-OLSON CO.
MND985667807 ADVANCED FLEX, INC. • PLANT 2
NED007281728 LINCOLN PLATING COMPANY
NED986387041 SUPRA COLOR LABS INCORPORATED
NYD986875326 HERAEUS PMR
PAD005031497 AMERICAN TINNING & GALVANIZING CO
PA D0 14299523 WEINSTOCK CONESTOGA INC
PAD987377504 INTERNATIONAL ENVELOPE CO
VTD001 075886 MERIDEN STINEHOUR PRESS
ALD000826958 AUBURN UNIVERSITY
CAD009584210 CALIF INSTITUTE OF TECHNOLOGY
CAD9823241S4 COMPOSITE STRUCTURES
CTD002592020 BEAVER BROOK CIRCUITS INC.
CTD023869423 COMPONENTS TECHNOLOGIES, INC
CTD099762015 INTERMAGNETICS GENERAL CORP
CT0572826873 CT ARMY NATIONAL GUARD BRADLEY BASE
DED003930799 E.I. DUPONT CHESTNUT RUN
MIT270012198 GRAND HAVEN BRASS FOUNDRY
MND985668227 PRECISION DIVERSIFIED IND. INC.
GU91 70090022 USNAVY NAVAL HOSPITAL COMPLEX
KSD007237241 BOEING COMPANY, THE
M014 ; - 6
M014 ; - 5
M014
M014 - . .
M014 ; • .
M014 - 39
M014
M014 - 1
M014
M014
M019 - ; 0
M019 . !
M019 . j
M019 . |
M0 19 - |
M019 - I
M019 - |
IM019 - | 1
!M019 - !
M019 . !
JM014 - i
M014 - |
TOTAL QUANTITY FOR NON-COMMERCIAL FACILITIES 2,361 ,290 I 1 ,1 50,491
Pages
-------�
. HAZMAT MANAGEMENT
Chemical fixation increases
options for hazardous
waste treatment
THE HA2ARDOL3 AND SOLED WASTE AMENDMENTS (HSWA)
to the Resource Conservation and Recovery Act (RCRA) gov-
ern the manner in which hazardous materials are managed.
Disposing RCRA hazardous wastes on or in the land is no
longer an accepted remedial option. This land disposal restric-
tion requires that all listed and characteristic hazardous wastes (as defined
by RCRA) must be treated according to specified standards before they
are disposed [40 CFR 268.40}. These treatment standards define tech-
nologies and concentration limits. Hazardous wastes that do not meet me
standards are prohibited from being disposed on land, such as in landfills,
surface impoundments, land treatment units, injection wells, and mines
or caves.
BY GREGORY J,
INDEUCATO
A.NT> GARY A.
TIPTOX
20
The Environmental Protection Agency
(EPA) permits land disposal of some hazardous
waste streams provided the toxidry or mobility
of the specific hazardous constituents has been
reduced to required treatment standard con-
centrations. Such is the case with hazardous
wastes exhibiting conchy characteristics (TCs)
as idendied in 40 CFR 261.24. Specifically,
wastes contaminated with arsenic barium, cad-
mium, chromium, lead, mercury, selenium aad
silver — known as the RCRA metals — fall
under the standard.
Given diese TC concentration limits, EPA
gives generators me ability to choose from sev-
eral treatment technologies. The standard to
which the effectiveness of other treatment tech-
nobgies for a specific waste is composed is called
the best demonstrated available technology.
M«y 1990
Ramitfiri options. Treatment generally is
the only oprion for metal-containing listed wastes
and wastes that include any RCRA, metals in con-
centrations exceeding the TC treatment stan-
dard There are several non-treatment methods;
however, their applicability is limited. These
include
* Redaaifiaitiim of the material, fbltased Irt dis-
posed. This involves obtaining a variance to clas-
sify the waste as hazardous and dispose it as
non-hazardous. Although redassification is an
inexpensive alternative, it is being phased out as
variances expire and are not renewed.
* Disposal in a permaKdhasardatii Tzastefaal-
hy. The waste is transported as hazardous waste
to a hazardous-waste disposal facility, where it
is treated and disposed. The advantage of this
method is that me waste can be removed from"
the sice quickly. However, the waste still must
be treated to meet pre-disposal treatment stan-
dards; in addition, transportation, and offeite
treatment and disposal of hazardous waste can
be costly and increase the generator's risk of
exposure to liability.
* Reclamation sod recycling. As long as the
waste contains specific metals in concentrations
high enough for recovery, recycling is an attrac-
tive option, eliminating long-term liability and
reducing the volume of waste generated. How-
ever, diis method may not be viable if concen-
trations are not at threshold levels.
Thus, generators usually are forced to treat
metal-contaminated waste using an accepted
treatment technology, such as solidification and
stabilization processes, thermal decomposition.
sorbents, osmotic and ion-exchange methods,
and ftocculanon and precipitation.
-------�
Solidification/stabilization. This com-
mon process treats waste by physically or chem-
ically immobilizing the constituents, diminishing
their effective mobility and toxioty. Many solid-
ification and stabilization processes use cement-
ing or encapsulation to immobilize
contaminants. A variety of materials — such as
portland cement and other calcium-based
cements, silicates and other siliceous materials,
and even asphaltics and waxess — are used as
binders to stabilize the meals, or surround or
incorporate the metals in a matrix.
In cement-based approaches, wastes are
mixed directly with cement or similar setting
materials; me metals then are incorporated and
bound in me cement. The pH increases as the
cement cures, and most mulovalent cations are
converted into insoluble hydroxides or carbon-
ates. However, metal hydroxides and carbon-
ates are insoluble only over a narrow pH range;
as the curing process consnucs and pH increases,
the solubility of these metal compounds will
increase as well
Another approach is to add a siliceous mate-
rial with lime, cement, gypsum and odier suit-
able setting agents. Siliceous material includes
fly ash. blast furnace slag, and calcium, sodium
or potassium silicates. Pordand cement and lime'
are the most commonly used setting agents.
Under proper conditions, a reaction will take
place between the silica-rich material and the
polyvalent metal ions, yielding a weaidy bonded
metal-silica material
Various materials generally present in typi-
cal waste streams can inhibit tfce effectiveness of
solicMca rion/stahdizarioc; these materials incMr
sulfetes, organies (oil and solvents, for *»wpH
and many oftnemeois being UPsiiBil Taemaic*
rials prevent or retard the caring process, reduc-
ing the strength and durability of me treated
waste and increasing dse wsceptibilhy for leach-
ing of the contaminants.
Treated wastes also are highly susceptible to
changing chemical condhnns, such as lower pH.
Simple cemented wastes are subject to leaching
in die presence of even mildly acidic solutions
such as rainwater, diereby rendering the process
ineffective for immobilizing the metals. As the
matrix breaks down, me encapsulated material
will begin to leach. Similarly, the matrix, if not
Chemical fixation of dowaterod slud§o from
etoetronics/spociaity parts manufacturer
(ME Votaw tanm «n IMS *• 28*.
processed properly, can retain a large amount of
water that is not chemically bound. This can
structurally weaken the final produce, making it
susceptible to leaching. Over time, the water wi
mi grate out of the treated waste material and. in
me process, leach out die metals.
Other solidification processes vary in applic-
ability and effectiveness. Many of the thermo-
plastic processes — such as asphaMc, bitumen
and paraffin-based methods — are costry and
have limited compatibility with many waste
streams.
These methodologies are enhanced if the
contaminants can be chemically stabilized or
"fixed" in the molecular structure of die solidi-
fied product. The applicability and effectiveness
of the vinous chemical fixation protocols avail-
able depend on the nature of the contaminants,
their concentrations, die matrix, other metal
interactions and interferences, and physical and
chemical parameters. These factors must be
understood fullv to maximize treatment effec-
Ch*mic«i fUaMocv Chemical fixation is a
treatment process that employs reagents
-------�
Fixation
designed for the specific contaminant or
contaminants in the waste stream. Using
die pozzolanic material as a silica source.
die metal-affected waste is remineralized is
non-leachable metal silicates. The physic-
ochemical reaction process, which involves
hydration, sorpuon, molecular cross-link-
ing and other reactions, ultimately produces
a monolithic, calcium-metal silicate mate-
rial with potentially high structural suaigrh.
Chemical fixation uses predetermined
"* •-*
ical activity of such specific metals as cad-
mium, mercurv and arsenic may need to be
stabilized or modified: diis is especially true
for metals that complex with orgarucs.
Reaction lanerics must be optimized to
ensure effective fixation of the contaminants
in the waste stream. Several types of
reagents can be added to induce and facil-
itate the chemical fixation process. These
include:
• Mixing agents, which facilitate the dis-
persion of organics and help incorporate
the metal(s) into the mixture;
• Inhibitors, which are used to slow
hydration reactions so the slower silicate
complexing reactions can occur,
Chemical fixation of municipal incinerator ash
•a^^AAB *-•- i^*^« TflM«A^^M* BI^U llljJ •^•^te Ct*U tmtml M«*Ate
mfttm Ma* •MB IrMIBMX rOTbl UHH IMV rllN If IV IHBRB
(pp*) Umimt 24-tavevt(M|/D 28-tfav can (atf)
(Teip:Mi/D SV-AI sw-«2 sw-i sw-i
Cadmlim 19.65
Chremiam 95.30
Lead 1,028.00
Nickel 105.00
Zinc 1.453.00
1.00
5.08
5.90
20.00
250.00
ND
m
2J8
m
0.22
NO
NO
2.00
NO
0.17
ND
ND
NO
NO
0.85
NO
NO
NO
ND
ND
NO - non-detectable
*Tae mean was calcalatad tram sampln taken M six dHlennl days.
SW-A1 and SW-1: mixture of 10% fly ask, 90% bottom asa. pozzolan, reagents
SW-A2 and SW-2: mixture ot By ash. poznlaes. raagants
treatment protocols based on the contam-
inants in .the waste stream. The protocols
specify the volumes, concentrations and
proper sequencing of proprietary reagents,
fljyi ^i npnyfl?^ iippropims PTi?nnt7 30*3 roc*
tion times for each step. Special attention
is given to matrix interferences and inter-
actions involving metal solubility, such as
ionic strength, valence state, redox poten-
tial, pH and competing ions. It may be nec-
essary to reduce the toxicity of specific
contaminants (for example, he.xavalent
chromium or cyanide) before chemical fix-
ation takes place. In other cases, the chem-
• Complexing agents, which facilitate
reactions between amorphous silica and the
metal contaminants; and
• Accelerators, which increase the rate
of die silicate reactions as the inhibitors are
consumed.
Series of reactions. When properly
combined, die metals-affected waste, fixing
agents and proprietary chemicals (as deter-
mined by the appropriate protocol) pro-
duce a series of reactions. First, calcium
silicates from me pozzolanic material begin
to decompose, releasing calcium oxide and
silica. Then, me calcium hydroxide is pre-
cipitated with the hydrated calcium silica
gel under conditions that allow silica com-
plexes to form.
Next, proprietary chemicals (selected
based on the contaminants present) are
added to the waste stream, increasine the
viscosity of the mixture. This acts as an
effective interparricule lubricant, which
accelerates the homogenization of the mix-
ture and simultaneously decelerates the dif-
fusivity of other components in the
cementation reaction.
At this point, the calcium oxide and cal-
cium silicates hydrate while other chemi-
cals dehydrate, generating cross-linkage
among parades and dehydrated molecules.
This helps prevent volume expansion in the
solidified mixture. In diis stage, the cemen-
tation reaction begins to accelerate.
Next the hydrated calcium silica gel and
crystals physically and chemically entrap
the contaminants within the solidified
matrix. Many of die metal components are
incorporated into the crystalline structure
through ion exchange, substitution, solid
solution and complexing processes. Some
fine inorganic particles are encapsulated
physically within the macropores and
micropores of the silicate matrix, while
some metals are absorbed on the surface of
die crystals and the particles of die fixing
agent. Contaminant entrapment and encap-
sulation are enhanced naturally by the cage-
like structure associated widi me previously
formed cross-linked molecules.
Finally, the dissolved or dispersed
organic components are physically trapped
and encapsulated in die macropores and
micropores of me solidified mixture matrix,
or are absorbed or chemisorbed on me sur-
faces of diese pores dirough dipole-dipole
interaction. London-force attraction or
hydrogen bonding. Remaining components
are incorporated chemically into me matrix
dirough a variety of processes, which can
include complex formation, chemical (cova-
lent) bonding and cross-linkage formation.
The process overcomes die tendency of
organic waste components to inhibit die
cementation reaction.
The solidified mixture produced by diis
process has much greater density and
mechanical sueugJi, which results in sub-
stantially lower leaching rates of die final
waste product; 28-day, unconfined com-
pressive strengths of more than 4,000
pounds per square inch (psi) have been
achieved in some treated organic sludges,
widi as much as 12,000 psi in non-organic
22
> Mftv 1996
-------�
Fixation
materials. Chiractenstically, an increase in
the density of a solid indicates diminished
permeability, eliminating any substantial
mobility of hazardous components within
the solidified waste. The increased median-
ical umigih also minimizes the generation
of additional surfaces from micro- and
macro-fissures resulting from structural fail-
ure. Water penetration and the subsequent
transport of soluble metals constituents are.
therefore, minimized.
Chemical fixation advantages.
There are distinct advantages in using mis
proprietary chemical fixation process:
• It can be used to treat a wide range of
waste streams
• There is minimal increase in the vol-
ume of the treated waste; and
• The process is relatively inexpensive.
Unlike many conventional solidification
processes, chemical fixation can treat a wide
range of waste streams, including complex
multiconcaminant inorganic wastes and the
typically hard-co-treat, organically contam-
inated wastes. Waste streams treated suc-
cessfully by this process include soils
contaminated by heavy metals, organically
contaminated soils, electroplating sludges,
paint-sludge wastes, sandblasting grit cont-
aminated by heavy metals, API separator oils
and sludges, petroleum tank bottoms, wastes
conammg poiychbonatcd btphenyis (PCBs),
asbestos wastes, and incineration ash.
Con.fi.dence // a: faith or belief th
one will .to in u right, proper, or
effective wa
Wouldn't ^OK like to have
confidence in your hazardous
waste management company?
LWD customers can sleep well at night, with
confidence in our:
* RCRA Incineration • Trucking
• Field Services •Landfill
MGXII
LWD INC
That's Confidence.
That's LW.
P.O. Box327
Cabot Ctyff4209
502695-8313
VISIT BOOTH #355 ATHAZMAT INTL
-------�
Mix formulations can be modified to
•accommodate specific waste streams so that
the waste takes an active role in die cemen-
tation phase of stabilization. Some wastes
even function as chemical reagents, assist-
ing in their own stabilization by contribut-
ing to physical hardening, thereby reducing
or eliminating permeation and leaching
Mai fixatioe can trot i wife nap K wtstt
Bl(
BnuuB
--- 1 »-.-—-* ^_ »™_^l ^—^^ ^^^ j-^-— *^_ —A ^^^^iJ^^^L-
an raN-to-treii IFPB msns, n reBumy
tow cost and witt natal ratine neroa.
concerns. Also, by altering the design of die
mix, processed waste can b« poured as a
plastic solid similar to concrete and cast into
blocks, super sacks, rollofif boxes and other
forms suitable for disposal. The processed
waste also can be stabilized into a final state
widi a soil-type texture. In either tbrm, low
solubility reduces me potential for ieaching
to a negligible degree The resulting treated
waste yields analytical results beiow EPA's
TC leaching procedures.
Typical solidification/stabilization
processes add cement to the micture,
increasing die volume of me waste. Chem-
ical fixation limits volume
expansion of the resultant
waste material. Because dis-
posal charges at most land-
fills arc based on volume, dus
translates into significant sav-
ings. In one test, a 65-per-
cent organic oily waste
sludge that was solidified
showed an increase in vol-
ume of less dran 50 percent In anodier test,
soil containing PCBs at 30 parts per mil-
lion was treated with chemical fixation, widi
a resulting 15-percent volume reduction
and a 28-day compressrvc strength of 3,250
psi. When compared to me costs for treat-
ment and disposal of hazardous waste, treat-
ment processes and subsequent disposal of
non-hazardous waste is significandy less
expensive.
Chemical fixation can be customized for
a facility's specific hazardous waste treat-
ment and disposal program. Years of devel-
opment and application has resulted in an
extensive data base of treatment reactions
for metal-contaminated wastes. More than
700 waste streams have been evaluated and
successfully treated. More dian 400 waste
streams have been treated successfully in
bench-scale testing, and more than 100
waste screams have been treated in field
applications. ~
Gregory/. hdtHmw a manager of tmer-
gftcy aid repudiation saricafor CURA Inc.
(Dailas). Gary A. Tipton is an environmental
cvnswXtmt hi Houston. RftufarT Ltishmg 10 obtssn
fitnher information on the chemical fixation
proas cm amtaa Lndelictxo a $OQ/4$6-7l 17,
at.220.
Instant
Holding
Tanks
tare-flu*
* Idsd for wostt ookfiny tun tnw^cKy
* 100 to 100,000 gofioa upodties
• fuBy coUapsUi&portaUi
• Used by Ui Army, Hfliry, Marine He
THIBSBfTUi HtZIUTTOOt
IN srao rot f«sr BtatEDwr savia
Dewatermg
Reaction
Patented
Technology
Oil Spill
Clean-up
Coda No. 302 on Reader &n*» Cam
SEE US AT HAZMATINTU BOOTH #351
di&Na 3X an fl«*rSarvwe Cud
I * May 1996
25
-------�
Appendix A-3
— -^*-* .a-jore,
FROM; Stephen
SUBJECT: Phone Calls to TSDs Who Stabilize 0001 and
TC-mstal Hazardous Wastes
13 Hay 3*
At your request I contacted ceo&ercial Treatment, Storage,
Disposal (TSD) facilities in m Regions 5 and 6 in order to
determine if they perceived that there votild be any proxies to
stabilize brass/broais foundry TC-aetal hazardous vastes to
Universal Treatment Stinkard (UTS) levels. More specifically, I
asJced if they could use conventional stabilisation technology to
treat foundry sand-type DOOf (TC for Lead), including the lead and
all Underlying Hazardous Constitsents (UHCs), to the UTS levels.
Further, X requested any treatability data that the TSDs might have
to support their contention that they could perform the repaired
treatment. Attached is a list of the TSCs contacted. Also
attached ar* the record* of the »»l^phffn< contacts, including the
details of their telephone responses.
Kin* TSDs were-• contacted, seven of which actually performed
stabilization of TC-metai vastes, either on-site, or shipped to one
of their facilities elsewhere in the country.
of the tvo facilities that did net stabilize vastes, one is
primarily a Deepwell disposer, and,if they received such waste they
would subcontract its' treatment. The second of the tvo did not
manag* foundry-type wastes, or any other bulk solids, but mostly
managed drummed wests* •
In general, each c£ the seven facilities that performed the
requested stabilization said that they manage foundry sand D003
wastes, or wastes that they believed were similar. Each said that
they didn't Believe that there were any significant problems in
producing the necessary poizolonic recipe to stabilize the waste in
question to all applicable WSS levels, including the lead
component. (Host seemed familiar with the UTS requirement for lead
of 0.37 ppm TCLP, rather than the current 0009 lead requirement of
s.o ppm*) one facility said they do *My type of stabilization to
UTS levels routinely, - and find ae difficulty 90% of the time.
(Initially they wera only able to hit all UTS levels about 70% of
the tiae, but have since improved.)
-------�
'
1 - Do you reeaiv* aoa-wa*tawmt«r vast** froa
-cundri»5? Do you ree*iv« similar vastosf If siadlar
ar» th«y aiailag? '
Typical fc^ndry vasta contains fin* sand aartielu
esntaainmtad with m Jaw parcairt: lud^ zinc, coppor.
2 - If so, do yon stabilize tho»« vast** vitli pezzolonic-typ*
agmxta? •
3 - IZ so, vtiat tTpical aix of vmt«?/statoHlz«r/vast* do you us«?
I
4- To what TCLP levels ar« you abl« to stabiliz* tho _BDAT/TC
a«fal«? CXH HI HIVS - QAIX JOR SMTKUynP/THEAZED HETIL'
o-rs
.«nh>.toy
S- Would you fOXSM probl«m« la traating t&*M wastMi to TC/UTS
lavals? • - -
00 N
-------�
COHTACT PERSOH:
^~^^^^^^B"MMBBHMMBH^HI>»w~ ^^"""M^^^^^^BB^^^
Oo you racaiva ica-vastavatar nasta* tram brass/fazm*
fotatdrlasf Do yen racaiva slailar wastasJ, Xf -*-^-«-*^^^<
iTHSk.-/7
Typical fcucdry vm«t« cc:rtaina flu
eontaaiamtM with a f «r pttewt laad, zinc, cepp«r
4 o'
2 - If so, do you rtatoiliz* t&osa vastas vitH pezzole&ie*typ*
3 - If so, vfcat typical »J3t of watar/stabilizer/vasta do yea us*?
4- -To
TO? lavals ar« you abl* to stahiliza th« BDAT/TC
BDtTX OAflL FOR liM'l'RLiTED/Tg23lTg) HSTAL
5- Weald yea fers«« probl«m« la
•to TC/tns
-------�
HAHE/ADDSZSS/PHOH2 0? FIBHjSlV-ssCprf
CONTACT
- Do you
foradtiM? Do 700 r«emiv« similar vistas? If
ars tfc*y siailarf
T7pic»l foundry vast* contains flzui scad
eo&taaiaatAd vith, « f«v p«zeast l««d, tine,
2 - If ao, do yea stabilize t&0s«' v««tu viti pozxolonic-typa
3 - Ii ao, what typical six of vatar/stabilizer/vast:* do you
4. To what TCLP lavml* an yen abl« to rtabiliz« tH« BDJIT/TC
ratals? OUT WZ ATI DAIX fOE TOITBZlTlP/qr>TfD
coNsnrnzjrrs? i^ p^^g*^— d&t*
5- Would yam fors«* probl«m* in trmating tha»« vast** to TC/trrs
lavals?
-------�
/
OF rZBK: A ETS/6***.
CONTACT PESSOH
/o
- Do you
rc'or.driaa? Co you r*e«iv« siailar vistas? If siailar
ar« ta«y similar?' **"«•
Typical foondsy vmsta contains
cantamiamted witu m ten p cresnt Ua«f tine,
2 - If so, do you stafeilix* t&dsa vmstu vittt pcziolonic-typ«
'
3 - If se, what typical mix of watar/stabilizor/wasta de you tzs«?
4- To what TCLP l«v«l* *sm yea abla to stiiMUga t&a BOIS/TC
CAH WE HKTO PIV*1^ FOft OH7RB1SSS/TSE&SZO
S- Would yea fori«« preblan in treating t&asa vasiMs to TC/OTS
-------�
CONTACT
1 - Co yen reeaiva aom-wasta*atar wastas from fcrasa/ferenza
fo-or.dri**? Do you rec«iv« siailar wast««? if siailar. vbv
aon th«y siailaz?
Typical fotmdzY varta cotrtaias fin« aar.d
ar. p«zt
contaminated vlth a fcv p«rc«rt l«ad, zinc, coppar.
2 - If so, do yea stabilize t&os* wastes vith pczzolonic-typ*
staiilixiag agaata?
3 - If so, what typical *•<•» of vatar/stabilizar/vast* do yon us«?
4- To wHat TCLP 1«7«1« ar* yoa abia tostabilixa th* BDAT/TC
C&8 WE HXVZ DADL FOR USTKEMZD/TRZAIED METAL
s- would yea fossa* problama in traating thas* im«tas to TC/CTS
-------�
Qf
CQSTACZ 9SHSOH:
Do you rmcmivm
fotmdzies? Do you r«c«iv« siallar vast**? if siailar
ar* tn«y similmr? *-**«,
Typical fotmdr? vast* carrt*ina fin« <»^^ particles
a f«r
2 * Z£ so, do you stabilize tho5« wastas vitH potzolcnic-typ*
agatrt«? w.,-
Yes
3 - Xf so, wiiat typical mix of vmtcr/stabilizar/vmsta do 700 us*?
4- TO what TCU l«v«ia »r* you asl* to staliilis* t2ut BDAT/TC
FOR
s- would you f ow«* probleM in treating tfc*«* vast** to
-------�
CQHTACS
- Do you r«c«v« aoa-vajrtewmt«r v&sta« from braas/bronzV
four.drits? Do you rac«iv« siailar va«r«a? if similar, why
&«y siailar? '
Typical 'ctmdry wast* contains fine sand particles
contaminated vitii m f«v percant ludf zinc, copper.
xO
2 - If so, da you staJaiiiz* t±tos* vist»s with porzolcrdc-typ«
stabilizing agtnta? \A,
3 - If so, vhat tTpical six of w»t*r/sta±Jiliz«r/vast« do you os«?
4-
To vhat TCL? l«v«l« «rm you a±>l« to stabillz* th« BDAT/TC
dUI WZ ELVZ DA33L FOR UH'IB E,ATTO/TO£IgSS
5- Weald yen fors«« prabl«ms in trmating tbesa vmctus to TC/TTTS
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coimcrzD
1 - ONI Group (Disposal systems)
P.O. BOX 1914
Beer Par*, T3C 77536
Mr. Warrea Horris - 7l3/i30-2SSS
2 - clean Harbors of Chicago
11300 stoney island Avoirae **
Chicago, IL €0617
Mr. 'Tia SetSloff - 312/646-6202
3 - AETS/CUamical Wasta Manag«a«nt
W124 NS451 Boundary Read
M&nomen«« Falls, wi 53051
Mr. Alan Kcuata - 414/255HS€5S
4 - S«ritaf * Environmental sarvic*«
7901 w. Morris Str««ft
Indianapolis, IB 40231
Ks. Darcy Ha? - 317/243-O811 «xt.!4f3
5 - Envirit« carp.
16435 S. Cantar Xvaaaa
Harv«y, ZZi 6042S
KT. David R»y«S - 708/598-7040
L
6 - Rollins Environaantal S«rvicas (IA) , Inc.
P.O. Box 731T7
Baton Roug«, IA 74137
Fred Gurdass - 302/428-3161 §
Richard Srondaa - 970/3*6-2293 (Colorado facility)
7 — chesical Wasta
7170 John Brannon Road
early as, IA 70663 :
Ms. Ran«« Dillion- * 3 It/ 583-2169
8 * Traataaat One
S743 chesvood
Houston, S 77087
Ks. SHiala Axastron? - 5Q2/327-1860 (Louisville, K facility)
THSI 00 HOT HAOTIZ B01X SOUBS, IHCL. FODHDRX
WASTES.
-------�
P.O. BOX 709
city, rx 77392
M». Tracy Holist«r - 409/945-3301
BEEFWSi FXCXLTTT. . THEY WOULD SU8CQKTP*
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Appendix A-4
MEMORANDUM
TO: T>P RCRA Docket
SUBJECT: Capacity-Related Information
DATE: May 23,1996 UK Al" I
Participants:
Anita Cummihgs, EPA/OSW
Mike Petruska, EPA/OSW
Kevin Igli,CWM
Mitch Hahn, CWM
Paul Borst, EPA/OSW
Mary Cunningham, EPA/OSW
Jim Buchert, Versar
C. Pan Lee, EPA/OSW
Jose Labiosa, EPA/OSW
Steve Silverman, EPA/OGC
Sue Slotnick, EPA/OSW
Jim Thompson (Phone), EPA/OECA
This meeting note mainly summarized the capacity-related information. (For treatment
issues, please refer to meeting npttfs prepared by Versar for Waste Treatment Branch.) CWM
provided treatment data (CBI) to EPA, They stated that industries are generally lack of data for
UHC in the wastes streams. They will provide volume data for the 20 to 30% of total waste
streams received which are subject to additional treatment if they have to meet the proposed UTS
for some of TC metals. Another 5 to 10% (in addition to 20 to 30%) of currently approved waste
streams will not be able to meet the proposed UTS even with the development of new recipes.
CWM's current stabilization capacity of 500,000 tons per year is provided by their
facilities in (I) EmeUe, AL; (2) Kettleman City, CA; (3) Arlington, Or; (4) Model City, NY; (5)
Fort Wayne, IN and (6) Menomonee Falls, WI. They are not currently using stabilization
capacity maximally.
Attached please find a copy of meeting notes prepared by Versar for OSW/WTB.
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DRAFT SUMMARY OFtMEETING WITH REPRESENTATIVES OF CHEMICAL
WASTE MANAGEMENT (CWM) TO DISCUSS COMMENTS AND DATA RELATED
TO PHASE IV
May 23, 1996, 10:00 - 12:00
2800 Crystal Station f^D A f"T
Arlington, VA LJ|\ APT
2nd Floor, Costale Room
ATTENDEES: Sec Attachment 1
The following summarizes the issues that were discussed at the May 23, 1996 meeting between
EPA and CWM representatives. This narrative does not provide a verbatim account of the
meeting, and for the purposes of clarity and continuity, items are sometimes not presented in the
order in'which they were discussed.
The purpose of this meeting was for EPA and CWM representatives to discuss comments and
additional data regarding the Proposed Phase IV rule (proposed treatment standards for
characteristic metal wastes). The primary concerns expressed by CWM were treatment of
wastes that (1) have problems meeting current LDRs; (2) have more than one metal contaminant;
(3) contain arsenic, lead, or selenium; and (4) have low levels of contamination. CWM also
expressed concerns about the perceived inconsistencies between RCRA and TSC A and the HWTR
and Phase IV rules.
After copies of the meeting agenda (attachment 2) were distributed, CWM began with a few
opening comments: The comments submitted by CWM were based on a survey of their
technical managers. Additional data were provided by CWM that backs up their comments with
real waste stream data. In general, CWM lacks data for UHCs, because there have been no
previous regulatory drivers requiring generators to test for these constituents in their wastes.
CWM asserted that from a policy standpoint, the Phase IV proposal does not make sense. For
example, concerns were railed regarding scenarios such as the following: if a waste is
characterized as D008, it will need to be treated for UHCs, but if a similar waste had the same
UHCs at higher concentrations, but did not contain lead, it may not be hazardous, and therefore,
could be sent to a Subtitle D facility without treatment Because it Ms TCLP for lead, the first
waste pulls the organks into Subtitle C. CWM also mentioned the current EPA policy which
states that a hazardous waste with metals cannot be burned vmlftvi it contains organic UHCs
above the UTS levels. If the UHC levels are barely exceeded, incineration may not be
appropriate, but it is allowed.
CWM stated that the current system is working fine, and wondered what value was added by
the proposal. The UHC requirement complicates the waste characterization process when
generators use their knowledge of the characteristics of the waste stream; at low UHC levels,
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DRAFT
the generators would just be guessing. Currently, no one can certify that the UHCs are not in
the waste.
Sometimes decharacterized waste is sent to a Subtitle C landfill. (The changes to 40 CFR 258
have resulted in better construction of Subtitle D landfills, and the design standards are much
closer to Subtitle C than before.)
Agenda items 1 and 2: Applying UTS and UHCs to Characteristic Metal Wastes
CWM stated that their technical managers provided their data quickly, and more may be
available. They also stated that when, for example, D008 is treated, treatment is halted when
the concentration of the lead in the waste is below the characteristic level of 5.0. Sometimes the
TCLP result may be lower than 5.0, but CWM has not tried to reach 0.37, and although they
have achieved this level on some occasions, they do not know if it can be reached on a regular
basis. Typically, the waste will carry multiple waste codes, and interaction of the metals will
interfere with the test results (e.g., low lead leachate, but high chromium leachate levels). CWM
indicated that they need to examine the waste streams individually, and determine what new (and
possibly cheaper) reagents they need to add to meet the UTS. CWM referred to their original
comments where they stated an estimated cost of about $1,000 per waste profile to do this. They
mentioned that one of their facilities recently examined different profiles and determined that the
cost of changing their stabilization recipes increases the treatment cost by about 32 percent
CWM estimates that about 70 to 80% of the waste that they currently treat can meet UTS
without additional cost
The current CWM treatment capacity is 500,000 TPY, but "20 to 30 percent' of this will
require a new treatment recipe to meet the UTS for D004 through D011 wastes. The recipe for
a batch stabilization is specific for that batch and is determined on a case-by-case basis. CWM
tries different recipes in the lab, and then scales up the process. Treatment is verified at each
step in case the original sample was not representative of the waste.
CWM disagrees with EPA's positions that (1) treating to meet the characteristic level does not
exempt a waste from RCRA, and (2) even though there is good treatment now, it should be
modified if there is better treatment When treating for metals to UTS, there can be other
changes to the wastes characteristics (e.g., solubility) mat may effect its treatment Problems
can occur when treating at low ppm levels. For example, when the standard is 0.5 ppm and a
waste has been treated to 0.7S ppm, re-treatment with bulk reagents can lead to incidental
dilution. (Multiple facilities use a back hoe and a pit to do stabilization.)
CWM believes that pre-treatment is too costly, and competition is already difficult. EPA
believes that pre-treatment to homogenize wastes should not be cost prohibitive, because, based
on the reaction kinetics, treatment would be ineffective without it Sometimes pre-treatment
(e.g., crushing) is done to facilitate the process. Sometimes problems such as different particle
sizes, or a "sticky* clay matrix can require pre-treatment
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DRAFT
Problem wastes include those that contain arsenic, lead, and selenium. Treatment of wastes
containing selenium is a consistent problem, especially as an UHC. Sometimes lead is a
problem, but CWM can normally treat to meet UTS most of the time. Treating for more than
one metal at a time is a problem. Results depend on the interaction of the metals in the waste.
In addition to the "20 to 30 percent" of wastes that are difficult to treat, CWM indicated that
5 to 10 percent are "untreatable," CWM was unsure of the characteristics of these wastes (data
and information was not presented at the meeting). EPA is interested in a breakdown (i.e., soil;
debris, process) of these wastes. CWM uses the alternative standards for debris, and generally
segregates "problem* wastes such as those that contain arsenic and selenium.
When asked about the co-mingling of wastewaters that generate a sludge, and whether the
stricter standards will lead to source segregation, CWM stated that they did not believe so.
Rather than installing a second tank, CWM believes an electroplater will send the waste to a
neater to get rid of the problem before 90 days. They believe that generators will keep looking
for a TSDF to solve their problem, such as sending wastes to Stabilex and Laidlaw in r^naH^
and that generators will treat the waste themselves only in an exception. In general, generators
call a TSDF for large one-time wastes, and focus on minimization of continuous process waste.
The CWM waste treatment database (comprised of 6 yean of data, from all of their sites) may
not contain information on trying to treat selenium to lower levels, because CWM only tries to
meet the current BOAT levels. CWM stated that the TCLP for selenium in a waste may not
change, even when the treatment process recipe for that same waste is modified. Treatment of
wastes containing beryllium was not included as part of CWM's data submission, but they could
look into it if necessary.
Agenda item 3; May 10,1996 NOD A
• Organic UHCs
CWM does not have much data on organic UHCs except for PCBs treated in conjunction with
metals. TOC data is also not available because the generators do not provide it, and CWM does
not ask for it For example, additional TOC information .may be requested if organics are
identified on a waste profile as present at significant concentrations (e.g., one percent). In
general, there is no analytical data to back this value up. CWM does not request halogen
analysis for wastes to be stabilized. When meir database was queried, only a few examples were
found. Preview CWM comments to EPA regarding organic UHCs were guesses, based on their
PCS data. CWM conducted stabilization tests in 1985 on low level (1%, 2%) organics, and
may have some dm (CWM did not have the data at the meeting, and would need to retrieve it
from their database).
CWM asserted that treating foundry sands is not a problem if the levels of organics are known.
Treating foundry sands with TC level metals can be a problem. CWM asserted that when
treating a waste, they need to consider how the level of organics will effect the treatment They
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DRAFT
also examine the level of interference of the constituents, and the effect that these constituents
(especially organics) have on liners.
Regarding treatment with organically modified clay, CWM has not reviewed this process yet,
but has tried organic oxidation and stabilization (same principle), and submitted their data to
EPA. The data show that the treatment does not work well. When the waste is stirred, organics
are volatilized. When cement is added, heat is generated, and more organics are volatilized.
Even low levels of organics will he volatilized, and these organics are not easily captured.
EPA is examining the following scenario: if a waste meets the UHC standard, then it
automatically meets the SubttttejCC standard (i.e., Air Emission Standards for TSDFs). EPA
is looking for data that correlates UHC concentrations to the 40 CFR Part 264 Subtitle CC (i.e.,
Air Emission Standards for TSDFs) action levels, and if the above scenario works in both
directions. CWM commented that it would primarily depend on the efficient operation of the
stabilization technology. Subtitle CC air emission controls could cover the VOCs that were
driven off during treatment, but adequate capture may be a problem. Particulates are captured,
but VOCs are a problem because of the huge air volume.
When asked which organic UHCs are most likely to be found in wastewater treatment sludges,
CWM stated that they do not have data for plating sludges with low levels of organics because
their waste profiles do not always have this information. This may be asked of their customers
if the new rule is promulgated. Treated F006 and F009 wastes have not been tested for
phthalates, etc., and CWM does not know if they are present EPA suggested that a generator
would know what was in a solvent used in cleaning operations, or the plant engineers should
have a feel for this data. CWM suggested that the dectroplaters trade association might know
this information.
To determine the volume of UHCs and the levels of UHCs in wastewater treatment plant
sludges, CWM could only give an educated guess, from the information in their database. This
would tell them where to look in the future. Surveying their managers and doing a database
query would take a couple of weeks.
CWM data for DO 12 through D043 wastes has some metals information, but not much on
UHCs. EPA wants to get an idem of what is in the waste (e.g. phthalates, solvents, etc.). To
accomplish this, the CWM **?tt*"«f can be queried by company name, process name, waste
code, etc., and after input from their technical managers, CWM could extrapolate a response.
The "order of "^fp***^" test for organics was recommended by CWM technical managers as
an approach to alleviate the problem of wastes with low levels of organics (but CWM has no
data to support this).
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DRAFT
• PCBs
Last year CWM stabilized 46,000 tons of D004 through D011 wastes with TSCA levels of
PCBs. TSCA allows land disposal of "solid" PCBs in a TSCA cell without incineration. There
is substantial dan to support that "solid* PCBs stay in place once stabilized. RCRA requirement
to incinerate may be counterproductive. CWM indicated that the levels of PCBs in the waste
they treat are so high that even the order of magnitude solution could not solve this problem.
CWM expressed concerns over inconsistencies; TSCA allows land disposal, and treating the
UHCs of metal wastes will require incineration. TSCA landfill standards are only slightly
different than RCRA standards. CWM suggested that the TSCA standards are sufficient for the
PCBs and the metals would be treated.
* Petroleum contaminated media
CWM requested clarification of the 261.4 exclusion for UST corrective action wastes:
Q: If a waste is characterized as D008, the proposal requires treatment for UHCs (e.g.,
benzene) that seem to be excluded under 40 CFR 261.4. What is the purpose of the exclusion?
A: The exclusion is for hazardous waste identification purposes only. If a waste is hazardous
for any other reason, the exclusion is void, and the waste is subject to all RCRA provisions,
including LDRs.
• Costs associated with change
Paul Borst/EPA asked if UHC standards would lead to exports or waste minimization, rather
than incineration. The answer will depend on economics (currently, incineration can cost from
$1,300 to $1,400 per ton). Paul will follow-up with CWM to discuss the nature and types of
wastes where the proposal has more than a moderate cost impact.
• Environmental reasons for change in light of HWIR
CWM expressed concerns about how the HWIR rule may be in conflict with the Phase IV rule;
that the Agency seemed to be going in opposite directions in terms of stringency.
EP A is constrained because of the consent decree. Also, HWIR is based on total concentrations,
and Phase IV Is based on TCLP concentrations. CWM was asked if they knew of any obvious
wastes that would be covered under the Phase IV rule, and be exempted by HWIR. CWM data
is TCLP-based. They do not have much information on the relation of totals to TCLP results.
Generally CWM does not run a total analysis on untreated waste.
CWM discussed the issue of contingent management and risk. LDRs are not required to be met
if placed in a low risk area. A risk model on a properly designed Subtitle C landfill in a dry
climate might indicate that not much treatment is required for waste disposal. This changes if
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DRAFT
the area is subject to high precipitation. Similarly, CWM is intrigued because wastes can be
delisted at higher than BDAT levels, because delisting is based on risk.
» Lead-bearing Smelter Wastes (Slag from lead-acid batteries)
CWM requested clarification of an issue in the May 10, 1996 NODA.
Q: If a battery is smelted to meet the LDRs, does the slag require further treatment?
A: If the slag is characteristic, all other non-LDR requirements must be met. The slag must
be sent to a Subtitle C unit or treated to non-characteristic levels, and then sent to a Subtitle D
unit. The waste has met the LDR treatment standard, and the residue does not need to be
treated further for Subtitle C disposal.
At the end of the meeting the following Action Items for CWM were discussed:
• Provide break-out (media, process, etc.) of the 20 to 30% of wastes that need to
be re-tested.
• Provide break-out (media, process, quantities, etc.) of the 5 to 10% of wastes that
need are "untreatable."
• Provide list of industry wastes that CWM expects will have UHCs and organics.
Include corresponding SIC codes if possible.
* Provide data on testing of organics and interference problems.
• Provide information on foundry sands. Include data for organics and metals, and
provide treatment costs and volumes.
* Provide data on treatment of Selenium wastes (treatment recipe is CBI)
CWM expects to have aU information to EPA by June 17. CWM will call Anita Cummings with
a tentative schedule for individual items.
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Attachment 1: List of Attendees
Anita Cummings, EPA/OSW/WTB
Mike Petruska, EPA/OSW/HWMMD
Kevin Igli, CWM
Mitch Halm, CWM
Paul Borst, EPA/OSW
Mary Cunningham, EPA/OSW/WTB
Jim Buchert, Versar
C. Pan Lee, EPA/OSW/HWMMD
Jose" E. Labiosa, EPA/OSW
Steve Silverman, OGC/EPA
Sue Slotnick, EPA/OSW
Rhonda Craig, EPA/OSW
Jim Thompson, EPA/OECA (via Phone)
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Attachment 2: Meeting Agenda
EPA/Chemical Waste Management
May 23, 1996
Agenda
1. Applying UTS to Characteristic Metal Wastes
2. Applying UHCs to Characteristic Metal Wastes
3. May 10, 1996 NODA
Metal UHCs
Organic UHCs
Inorganic Combustion Policy
PCBs
Petroleum contaminated media
Costs associated with change
Environmental reasons for change in Light of HWIR
Lead-bearing Smelter Wastes (Slag from lead-acid batteries)
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Appendix A-5
DRAFT SUMMARY OF MINUTES OF APRIL 30, 1996 MEETING OF EPA AND
REPRESENTATIVES OF LEAD RECOVERY FROM BATTERIES
April 30, 1996, 1:00-2:00 p.m.
2800 Crystal Station
Arlington, VA
2nd Floor, Conference Room B
ATTENDEES
Mary Cunningham, EPA/OSW/WTB
Michael Petniska, EPA/OSW/HWMMD
C. Pan Lee, EPA/OSW/HWMMD
Anita Cummings, EPA/OSW/WTB
Suzanne Wade, Versar
Robert Steinwurzel, Swidler & Berlin/ABR
Susan Panzik, S&B
Jean Beaudoin, JCBGI/BCI
Jack Waggener, RCI
Charles M. West, RCI
Katie Champon, WBN
Introduction
DRAFT
The purpose of this meeting was. for EPA and representatives of lead recovery from batteries
(Association of Battery Recyclers, Resource Consultants Inc., and Battery Council International)
to discuss proposed treatment standards for lead characteristic wastes. Mary Cunningham
opened the meeting by explaining the historical background for setting treatment standards under
the Land Disposal Restrictions (LDR) Program. For listed waste codes, residuals carry the
waste code forever, unless the waste is delisted. After treatment to the LDR levels, listed wastes
may be placed in a Subtitle C landfill. For characteristic wastes, residuals are considered
characteristic until they.no longer exhibit the characteristic of hazardousness. For wastes treated
by recovery of lead, residuals may be placed in a Subtitle D landfill if the lead concentration in
the leachate is less than the TCLP limit If this standard is not met, the characteristic waste
could be disposed of in a Subtitle C landfill or undergo further treatment until it no longer
exhibits the characteristic of hazardousness, at which time it could be placed in a Subtitle D
landfill.
Discussion
The following questions, concerns, and issues were discussed:
1. Universe of wastes treated by recovery of lead
EPA: What other types of wastes are treated with battery wastes? (Cunningham) What
are the underlying hazardous constituents? Do the characteristics of the slag
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remain the same (no substantial differences) when other wastes are added to the
treatment process? (Petruska)
Ind.: Believes the main issue is slag (residuals). If other wastes are going into the blast
furnace, are they also "treated" by "recovery of lead"? Feedstock includes
Appendix 11 list constituents (lead materials from various industries).
(Steinwurzel)
Conclusions: Based on limited information, EPA could state that the primary waste
treated is lead and that other wastes do not appear to sigmficaily change
the characterics of the slag. EPA could ask for public comment on this
issue in the Notice of Data Availability (NODA).
2. Lead-contaminated soil and other non-smelter DQQ8 wastes
Ind.: How is lead-contaminated soil to be managed? (Steinwurzel) How are other
D008 wastes to be managed that don't go through smelters, such as remedial
wastes, building debris, soil and debris. Industry has data on 7 sites for mobile,
commercial excavation plus stabilization (pug mill or phosphate stabilization). It
was stated that these wastes usually go to Subtitle D landfills after treatment or
are capped in place. (Beaudoin)
EPA: In the Phase H Rule, all available data was evaluated when UTS was
promulgated. Limited data and comments were received, so the Agency went
forward with UTS based on the available data. It was ths Agency's belief that
existing stabilization processes (as evidenced by the data) are not optimized for
the lower UTS levels, so these stabilization! data may not be reflective of actual
capabilities. (Cunningham) EPA believes stabilization can achieve lower levels,
but there is little supporting data. When the Phase H Notice was published, little
feedback was received to suggest that characteristic lead wastes are substantially
different from metal wastes in EPA's database and couldn't meet UTS. EPA's
position with respect to characteristic soil is mat it is substantially different from
the metal wastes in EPA's database, so it is assigned case-by-case standards.
(Cunningham)
Conclusion: EPA; If there is limited capacity, implementation of the rule for these
metal-bearing waste streams could be deferred. Otherwise case-by-case
standards could be allowed until the HWIR Media Rule is in place.
Alternatively, a generic variance could be used. (Pstruska)
Ind.: ABR would prefer to defer implementation and maintain the
characteristic levd of 5 ppm as the standard until HWIR goes into effect
Cleanup limits for Supertund sites include characteristic levels and site-
specific standards (ARARs). It was noted that cleanup is usually under
state supervision, so more stringent limits may be imposed. (Steinwurzel)
DRAFT
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3. ArittiriQP*1 treatm^nr nf secondary lead
EPA: What types of treatments are used for secondary lead (after recovery of lead)?
East Penn. runs their lead waste through a reverberator repeatedly until it is non-
hazardous (i.e., passes TCLP test for characteristic metals). (Petruska)
Ind.: Usually stabilization or further HTMR is used for secondary lead treatment
Conclusion: See ABR response above.
4. Qpacitv issues
EPA: Pan Lee is working on capacity issues. Large quantity remediation, sites
sometimes treat ortsite for economic reasons. Mobile, commercial stabilization
units are more commonly used. Regions 4 and 10 rejected soil washing as a
viable option for most lead-contaminated soil because it only works reliably on
sandy soil. Pan Lee noted that LDRs are not in effect if the treatment is in-situ,
for example, if surface contamination is present, then chemicals can be plowed
into the soil for treatment. It is believed that less than 10 percent of stabilization
sitesjise jnsitu treatment. (Pan^^r^aband^ne^|ites it is more economical to do
)n)than6un ilit wiiVf Mmui|l'ilTiiii*(ii ngnin) It may be
(ataomSion) than frun tht wasttuuuu|lfrtirnagt ogtiin) It may be feasible to ma
the waste through the furnace at RCRA corrective action sites, if there is an
operational furnace present. (Petruska)
Ind.: Industry has data on 7 sites for mobile, commercial excavation plus stabilization
(pug mill or phosphate stabilization). It was stated that these wastes usually go
to Subtitle D landfills after treatment or are capped in place. (Beaudoin) Dozens
of Superfund sites involved. 'Can get lower numbers than characteristic, but not
to UTS. Smelters with RCRA Part B permits doing Corrective Action. LDR
, still applies to corrective action. (Steinwurzel)
Conclusion: Analysis needs to be completed to determine capacity. Hot a problem for
existing standard, but may be for UTS (see next issue).
5. Capacity of processes to treat below S oom for lead
EPA: Witt is the capacity of stabilizers treating to below 5 ppm? Some can do it but
not an. This could be capacity problem for treatment levels below 5 ppm for
lead.
Ind.: Stabilization process is limited by chemical reactions. Hot necessarily better to
add more of everything. Must be tailored for each site. Some variability must
always be expected. Approximately 3 ppm is probably the best consistent target.
(West) Feedstock is variable also. (Beaudoin)
DRAFT
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Conclusion: There are probably no capacity problems unless the lead standard is
changed to 0.37 ppm, then there could be some problems. The issue of
. whether to use a variance or an alternate plan is still under consideration.
6. Proposal for conflpgent manaEement options
Ind.: The idea was introduced for an alternative LDR for generated lead if it can be
proven that the lead does not leach. The industry would like to get away from the
treatment emphasis on secondary lead and instead try a contingent management scenario
like monofills instead of Subtitle C. (Steinwurtzel)
EPA: HWIR may be an appropriate rule to incorporate this type of idea. (Petruska)
Conclusion: See EPA response above.
7. Underlying hazardous constituents
Ind.: Would underlying hazardous constituents (UHQ have to meet BOAT levels?
(Champon)
EPA: Flexibility is decreased by specifying treatment method, but then limits are not
needed for other constituents. Treaters would only have to meet characteristic
level.
Conclusion: See EPA response above.
Closing/Summary
The Notice of Data Availability is scheduled to go out next week. June 30 is the deadline for
the rule. Industry does not plan to submit additional data, A videotape of the lead recovery
process was provided to EPA.
DRAFT
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APPENDIX B
DATA ON AVAILABLE VITRIFICATION CAPACITY
This appendix has two sections:
B-l: Provides a phone log of vitrification facilities and vendors the Agency contacted.
B-2: Describes the vitrification technology, its applicability, limitations/constraints, and
availability/costs.
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Appendix B-l
PHONE LOGS OF VITRIFICATION FACILITIES
Mr. Matt Haas
Geosafe Corporation
Location: Richland, WA
Phone: 509-375-0710
Interview conducted by: Gail Shaw
Date of interview: March 7,1997
Date of follow-up interview: April 11,1997
Mr. Haas believes that their facility may be the only supplier of in-situ vitrification. They
currently have one system operating which has an available capacity of 15,000 tons/year. The
facility can readily expand its operations to three systems if the demand arises. Therefore, their
current maximum capacity would be 45,000 tons/year.
Mr. Doug Rosholt
MSE Technology Applications
Location: Butte, MT
Phone: 406-494-7100
Interview conducted by: Gail Shaw
Date of interview: March 7,1997
Date of follow-up interview: April 11,1997
Mr. Rosholt responded that their commercial facility supplies plasma vitrification. The
unit's available capacity is 2,000 tons/year; that is also their maximum capacity.
Ms. Yvonne Eglanton
Vortech Corporation
Location: Collegeville, PA
Phone: 610-489-2255
Interview conducted by; Gail Shaw
Date of interview: March 7,1997
Ms. Eglanton responded that their corporation is a vendor of vitrification technology
equipment.
-------�
Mr. Matt Mede
Retech
Location: Ukiah, CA
Phone: 707-462-6522
Interview conducted by: Gail Shaw
Date of interview: March 7,1997
Mr. Mede responded that their corporation is a vendor of vitrification technology
equipment.
-------�
Appendix B-2
ATTACHMENT TO MEMORANDUM FROM BILL KLINE (U S EPA)
TO ICF INCORPORATED, MARCH 17, 1994
Vitrification,
1. process Description
Vitrification is the process by which contaminated soils a*.
converted into chemically inert and stable glass and crystalline
materials by a thermal treatment process operating at a
temperature of 2000 degrees F to 2800 degrees F. This technology
is primarily intended for the treatment of heavy metals; however,
an organics content of up to 20% can be handled. A high current
of electricity is passed through electrodes inserted into the
contaminated soil. The heat causes a melt that gradually works
downward through the soil . Organic constituents are destroyed
while the inorganic contaminants ar« immobilized in the high
compress ive strength glass-like or ceramic end product. A volume
reduction of 20% to 45% is achieved. Types of vitrification
processes include glass-melting furnaces*, hrrtrti-lrfeiBperaYTlrw flurft-
wail reactors.
2 . Waste AT?P 1
Vitrification was originally tested as a means of
immobilizing low level radioactive metals. • However, it can be
applied to a wide range of contaminants. The process destroys
nitrates and partially decomposes sulfate compounds. Fluoride
and chlorine compounds are dissolved into the glass materials up
to their limits of solubility. Wastes containing heavy metals,
PCBs, for example, will either fuse or vaporize.
3. Limitations/Constraints
vitrification processes ar« very energy intensive (800-1000
kw/ton) , requiring temperatures up to 2500 degrees F for fusion
and melting of the waste-silicate matrix. Commercial waste
management companies may not have built vitrification processes
because: vitrification is only specified as BOAT for a few
relatively small-volume hazardous wastes, there is little, if any
operating experience with the process, and RCRA permitting
officials have essentially no experience with this process.
Total organic concentrations are limited to 20% by weight. Also,
inorganic debris is limited to a maximum of 20% by volume.
4. Availability/Capacity/Costs
At this time, vitrification processes have not been widely
accepted. As mentioned above, this may be due to the high
operation costs, technical complexity of the process, and
difficulty in obtaining permits. The cost of this process can go
up to $1000 per ton, with an average cost in the range of $400-
$600 per ton of soil. The following companies* are believed to
provide vitrification processes:
1. B&W Nuclear Environmental Services, Inc.; pilot-scale
-------�
unit: 200 Ib/hour
2. DOE/Battelle Memorial Institute's Pacific Northwest
Laboratory? pilot scale; 3 units constructed, 6 other
units planned: 10-25 tons/day
3. Electro-Pyrolysis, Inc.: pilot-scale unit: 100-500
Ib./hour
4. EM&C Engineering Assoc.; bench-scale? hoped to go full-
scale in 1993
5. Geosafe Corp.? full-scale unit: 4-6 tons/hour? 1 unit
constructed, 1 other unit planned
6. J.M. Huber Corp.
7. Penberthy Electromelt International, Inc.
8. Pyrogenics, Inc.
9. Stir-Melter, Inc. (subsidiary of Glasstech, Inc.)-" full-
scale unit: 2 tons/hour
10. Texaco Syngas, Inc.? full-scale unit: 2-4 tons/hour
11. Thagard Research Corp.
12. Western Product Recovery Group, Inc.? full-scale unit:
600-1000 Ib./hour? 1 planned unit
13. Vortec Corp.: pilot-scale unit: 20 tons/day
14. Vulcan Resources, Ltd.
15. Westinghouse Electric Corp.
* NOTE: Many of the above-mentioned bench-scale/pilot-scale
systems for each of the treatment technologies were reported as
being such nearly a year ago. Thus, it is quite feasible that at
least some of these systems are now commercially available as
full-scale systems.
-------�
APPENDIX C
DATA ON AVAILABLE WASTEWATER CAPACITY
This appendix has two sections:
C-l: Discusses available treatment capacity at Centralized Waste Treatment facilities. The
information was collected in the 1991 Waste Treatment Industry Questionnaire by the Office
of Water and represents 1989 data.
C-2: Wastewater treatment systems data from the 1991 Biennial Reporting System.
-------�
Appendix C-l
UNfTEO STATES ENVIRONMENTAL PROTECTION AGENCY
WASHINGTON, D.C. 20460
Memorandum
To: Benjie Carroll (OS-321W)
OFfCCOF
WATER
From: Debra DiCianna
Engineering and Analysis Division (WH-552)
Date: April 30,1 993
Subject: Treatment Capacity Information from Waste Treatment industry Project
Attached is me information you requested regarding available treatment capacity at
Centralized Waste Treatment facilities, This information was collected in the 1991
Waste Treatment Industry Questionnaire by th« Office of Water and represents 1 989
data. Names and addresses of facilities are also listed.
All of the facilities included have received a final or interim RCRA Permit. None of the
information provided pertains to waste which is underground injected. Some facilities
did not supply the capacity information requested due to complex operations.
Therefore, two totals are presented. One total represents the actual values reported.
The second total Is scaled-up to included facilities which did not submit data. Below
are listed the overall totals:
1989 Reported Capacity Total: 9,669,61 1 ,960 gals/year
1 989 Scated-Up Capacity Total: 1 1 ,341 ,084,753 gats/year
( * Reported Capacity Total + 11 x Average Capacity)
if you wish to obtain any additional information or have any questions, please contact
at (202) 260-7141.
Tudor Oavies (WH-551)
Ramona Trovato (WH-550G)
Woody Forsht (WH-552)
Bruce Kobelski (WH-550GJ
-------�
FACILITY c*wanr pen HAZARDOUS WASH w*#**
kAME
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-------�
UASIEUATER TREATMENT SYSTEMS DATA FROM THE 1991 BIENNIAL REPORTING STSTEH
EPA 10 MUN8EK
CAOOS08068SO
CAD059494310
CAT080033681
CT0000844399
CTOOO 1184894
CIB07213B969
CI0990672081
110000666206
ILD064418353
IND006050967
IND09J219012
MDD9805551B9
MND9B1098478
HC0121700777
NED043S34635
NJ0002141950
N JO 002385 730
NJD089216790
NVD980895338
NY0000691949
NYD080336241
OH0000724153
OHD004178612
OH0087433744
OM>007233836
OR0009020231
000980725592
PAD010154045
PAD059087072
PAD085690592
R 10980906986
TND00337692B
UA0041337130
WVD0043253S3
UVD076826015
A
INF QUANTITY
GAL
FROM BRS DATA
1,106,843
2,281,976
4,762,512
360,768,560
$74,131
11,185,574
60,067,991
16,231.493
1,793,987
2,772,124,412
53,475.694
1,662,231
4,597,350
1.901,489
6,678,629
655,428
10,347.456,240
48,923.122
641,903
11,222,398
25,079,632
29,714,577
16,642,080
0
570,943,381
185,493,828
39,115,200
17,186,856
26,770,000
1,483.895
1,416,960
7,835,470,800
282,837.630
1,743,953,866
223,468,565
B
MAX OPP CAP
GAL
FROM IRS DATA
13,250,000
27,000,000
1,207,824,000
2,283,660,000
1,370,500
28,632,648
777,777,310
30,398,036
6,240,000
50.677,025
150,804,016
50,360,000
8,417,487
7,008,000
53,191,794
4,000,000
14,064,054,720
163,112,860
5,057,200
0
240,920,000
75,000.000
98,160,000
0
354,285,248
728,763,458
76,867,000
27.000,000
981,120,000
434,280
3,961,224
8,400,000,000
366,313,416
2,188,298,888
93,013,402
c
MAX OPP CAP
GAL
FROM OU SURVEY
1,894,333
0
0
1,760,668,673
2,375,000
38,535,860
1,760,668,673
106,202,000
14,000,000
0
299,290.000
44,100,000
15,130,000
75,000,000
243,992
54,000,000
14,600,000,000
52,560,000
750,400
7,800,000
0
63,000,000
86,300.000
23.400,000
720,000,000
407,788,113
407,788,113
30,000,000
74,200.258
35,985,587
6,000,000
8,710,227
37,193,500
2,102.000,000
0
0
L10 EFF QUAN
GAL
FROM BRS DATA
1,082,109
2,280,000
4,078,584
414,810,000
571,370
9,307,911
60,882,904
8,381,001
1,704,941
2,979,115,244
45,735,915
3,925.928
2,783,240
1,711,340
6,669,144
198,676
10,522,748,640
49,675,058
428,907
11,196,084
24,503,779
37,446,700
13,286,400
0
557.166,418
577,768,882
38,985,200
12,783,720
53,472,500
127,569,600
1,733,520
7,835,470,800
282,401,819
2,537,140,000
217,813,732
E
NEU OPP
CAPACITY
FROM BRS DATA
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
240,000
0
94,500,000
1,200,000
0
28,902,728
0
66,000,000
220,544,853
0
0
0
0
0
0
F
DIFFERENCE
IN OPP CAP
C-B
-11,355,667
-27,000,000
-1,207,824,000
-522,991,327
1.004,500
9,903,212
982,891,363
75,803,964
7,760,000
-50,677,025
148,485,984
-6,260,000
6,712,513
67,992,000
-52,947.802
50,000,000
535,945,280
-110,552,860
-4,306,800
7,800.000
-240,920,000
-12,000,000
-11,860.000
23,400 000
365*714*752
-320,'975*345
, 330,921,113
3,000,000
-906,919,742
35,551,307
2,038,776
-8,391,289,773
-329,119,916
-86,298,888
-93,013,402
G
AHfXWl
AVAILABLE
B-A
12.UJ.158
24,718,024
1,203,061,488
1.922.891,440
796,569
17,447,074
717,709,519
14,166,541
4.446.01J
-2,721,447,387
97,328,J22
48,697,769
3,820.117
5,106,511
46,513,165
3,344,572
3,716,598,480
114.189,738
4,415,297
-11,222,398
215,840,168
45,285,423
81*517*920
Q
-216,65fl,13J
541*269*630
37,751,800
9,813,144
954,350,000
-1,049,615
2,544,264
564,529,200
83,475*786
444,345,022
-130.455.164
>
"O
1
i
M
n
•
*N*
TOTAL
24,707,689,233
32,566,972,513
22,835,584,729
26,444,830,066
411,387.581
-9,731,387,784
7,859,283,279
-------�
APPENDIX D
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-Site and Off-Site
Data Keys
WASTE CODE
D004 - Arsenic
D005 - Barium
D006 - Cadmium
D007 - Chromium
D008 - Lead
D009 - Mercury
D010 - Selenium
DO 11 - Silver
ORIGIN CODE
1 The hazardous waste was generated on site from a production process, service activity,
or routine cleanup (including off-specification or spent chemicals).
2 The hazardous waste was the result of a spill cleanup, equipment decommissioning, or
other remedial cleanup activity.
3 The hazardous waste was derived from the management of a non-hazardous waste.
4 The hazardous waste was received from off site and was not recycled or treated on site.
5 The hazardous waste was a residual from the on-site treatment, disposal, or recycling of
a previously existing hazardous waste.
-------�
SOURCE CODES
Code Waste source
Code Waste source
CLEANING AND DECREASING
A01 Stripping
A02 Acid cleaning
A03 Caustic (Alkali) cleaning
A04 Rush rinsing
AOS Dip rinsing
A06 Spray rinsing
A07 Vapor degreasing
AOS Physical scraping and removal
A09 Clean out process equipment
A19 Other cleaning and degreasing
SURFACE PREPARATION AND FINISHING
A21 Painting
A22 Electroplating
A23 Hectroless plating
A24 Pbotpharing
A25 Heat treating
A26 Pickling
A27 FMring
A29 Other surface coating/preparation (Specify
in Comments)
PROCESSES OTHER THAN SURFACE
PREPARATION
A31 Product rinsing
A32 Product filtering
A33 Product distillation
A34 Product solvent extraction
A35 By-product poeessiiig
A36 Spent catalyst removal
A37 Spent process liquids removal
A38 Tank sludge removal
A39 Slag removal
A40 Metal forming
A41 Plastic* forming
A49 Other processes other than surface
preparation (Specify in Comments)
PRODUCTION OR SERVICE DERIVED ONE-
TIME AND INTERMITTENT PROCESSES
AS1 Leak collection
A53 Cleanup of spill residues
A54 Oil changes
A55 Filter/Battery replacement
A56 Discontinue use of process equipment
A57 Discarding off-spec material
A58 Discarding out-of-date products or
chemicals
A59 Other production-derived one-time and
intermittent processes
A60 Sludge removal
REMEDIATION DERIVED WASTE
A61
A62
A63
A64
A65
A69
Superfund Remedial Action
Superfund Emergency Response
RCRA Corrective Action at solid waste
management unit
RCRA closure of hazardous waste
it unit
Underground storage tank cleanup
Other remediation
POLLUTION CONTROL OR WASTE
TREATMENT PROCESSES
A71 Filtering/screening
A72 Metals recovery
A73 Solvents recovery
A74 Incineration/Thermal treatment
A7S Wastewater treatment
A76 Sludge dewatering
A77 Stabilization
ATS Air pollution control devices
A79 Leachate collection
A89 Other pollution control or waste treatment
OTHER PROCESSES
A91 Clothing and personal protective
equipment
A92 Routine cleanup wastes (e.g., floor
sweeping*)
A93 Closure of management unit(s) or
equipment other man by remediation
specified in codes A61 - A69
A94 Laboratory wastes
A99 Other
-------�
FORM CODES
Code Waste description
Code Waste description
LAB PACKS
LAB PACKS - Lib packs of mixed wastes,
chemicals, lab wastes
B001 Lab packs of old chemicali only
B002 Lab packs of debris only
BOOS Mixed lab fades
B004 Lab packs containing acute hazardous
wastes
B009 Other lab packs (Specify in Comments)
LIQUIDS
INORGANIC LIQUIDS - Waste that is primarily
inorganic and highly fluid (e.g., aqueous), with low
anprndrri inorganic solids and low organic content
B101
B102
B103
B104
BIOS
B106
BIO?
BIOS
BI09
B110
Bill
Bl 12
Bl 13
B1I4
BUS
B116
Bl 17
B119
Aqueous waste with low solvents
Aqueous waste with low other toxic
orgamcs
Spent acid with metals
Spent acid without metals
Acidic aqueous waste
Caustic solution with metals but no
cyanides
Caustic solution with metals aad cyanides
Caustic solution with cyanides but DO
metals
Spent caustic
Caustic aqueous waste
Aqueous waste with reactive sulfides
Aqueous waste with other reaetives (e.g.,
explosives) •
Other aqueous waste with high dissolved
solids
Other aqueous waste with low dissolved
solids
Scrubber water
B205 Oil-water emulsion or mixture
B206 Waste oil
B207 Concentrated aqueous solution of other
organic*
B208 Concentrated phenolics
B209 Organic paint, ink, lacquer, or varnish
B210 Adhesives or epoxies
B211 Paint thinner or petroleum distillates
B212 Reactive or polymerizable organic liquid
B219 Other organic liquids (Specify in
Comments)
SOLIDS
INORGANIC SOLIDS - Waste that is primarily
inorganic and solid, with low organic content and
low-to-moderate water content; not pumpable
B301
B302
B303
B304
B305
B306
B307
B308
B309
B310
B311
B312
B313
B314
B31S
B316
B319
Waste liquid mercury
Other inorganic liquids (Specify is
Comments)
Soil contaminated with organics
Soil contaminated with inorganics only
Ash, slag, or other residue from
ncineration of wastes
Other "dry* ash, slag, or thermal residue
'Dry* lime or metal hydroxide solids
chemically "fixed"
'Dry* lime or metal hydroxide solids not
•fixed"
Metal scale, filings, or scrap
Empty or crushed metal drums or
containers
Batteries or battery parts, casings, cores
Spent solid filters or adsorbents
Asbestos solids and debris
Metal -cyanide salts/chemicals
Reactive cyanide salts/chemicals
Reactive sulfide salts/chemicals
Other reactive salts/chemicals
Other metal salts/chemicals
Other waste inorganic solids (Specify in
fl \
ORGANIC LIQUIDS - Waste that is primarily
organic and is highly fluid, with low inorganic
solids content and low-to-moderate water content
B201 Concentrated solvent-water solution
B202 Halogenstad (e.g., chlorinated) solvent
B203 Nonhalogenated solvent
B204 Halogenated/nonhalogenated solvent
mixture
ORGANIC SOLIDS - Waste that is primarily
organic and solid, with low-to-moderate inorganic
content and water content; not pumpable
B401 Halogensted pesticide solid
B402 Nonhalogenated pesticide solid
B403 Solid resins or polymerized organics
B404 Spent carbon
B405 Reactive organic solid
B406 Empty fiber or plastic containers
-------�
FORM CODES
(Continued)
Code Waste description
Code Waste description
B407 Other halogenated organic solids (Specify
in Comments)
B409 Other no&halogenatad organic aolids
(Specify is Comments)
SLUDGES
INORGANIC SLUDGES * Waste that is primarily
inorganic, with moderate-to-high water content and
tow organic content, and pompable
B501
B502
B503
B504
BSQ5
B506
-B507
R508
B509
B510
B511
B512
B513
BS14
mis
B516
BS19
sludge without metals
sludge with metals/metal hydroxide
sludge
Wastewater treatment sludge with toxic
organica
Other wastewater treatment sludge
Untreated plating sludge without cyanides
Untreated plating sludge with cyanides
Other sludge with cyanides
Sludge with reactive sulftde*
Sludge with other reactive*
Deputing sludge with metal scab; or
filings
Air pollution control device sludge (e.g.,
fly ash, wet scrubber sludge)
with organic*
Sediment or lagoon dragout ^ftfi^Hmif***?
with inorganic* only
Drilling mud
Asbestos slurry or sludge
Chloride or other Mae itadge
Other inorganic sludges (Specify in
ORGANIC SLUDGES > Waste that is primarily
organic with low-to-moderate inorganic solids
flf «tv< water content, **v^ pompeble
B601 Still bottoms of halogeoated (e.g.,
chlorinated) solvents or other organic
liquids
B602 Still bottoms of nonhalogenated solvents or
other organic liquids
B603 Oiiysludge
B604 Organic paint or ink sludge
B605 Reactive or poiymerizabie organies
B606 Resins, Ian, or tarry sludge
6607 Biological treatment sludge
B608 Sewage or other untreated biological
sludge
B609 Other organic sludges (Specify in
Comments)
GASES
INORGANIC GASES * Waste that is primarily
inorganic with a low organic content and is a gas at
atmospheric pleasure
B701 Inorganic gases
ORGANIC GASES - Waste mat "a primarily
organic with low-to-moderate inorganic content and
is a gas at atmospheric prcmnun
B801 Organic gases
-------�
SYSTEM TYPE CODES
Code System type
Code System type
METALS RECOVERY (FOR REUSE)
M011 High temperature metals recovery
M012 Retorting
M013 Secondary melting
MO 14 Other metals recovery for reuse: e.g., ion
exchange, reverse osmosis, add leaching,
etc, (Specify in Comments)
M019 Metals recovery - type unknown
SOLVENTS RECOVERY
M021 FfvMonation/distillation
M022 Thin film evaporation
M023 Solvent extraction
M024 Other advent recovery (Specify in
Comments)
M029 Solvents recovery » type unknown
OTHER RECOVERY
M031 Acid regeneration
M032 Other recovery: e.g., waste oil recovery,
nonsolvent organics recovery, etc.
(Specify in Comments)
M039 Other recovery - type unknown
INCINERATION
M041 Incineration - liquids
M042 Incineration - sludges
M043 Incineration - solids
M044 Incineration - gases
M049 Incineration - type unknown
ENERGY RECOVERY (REUSE AS FUEL)
M051 Energy recovery - liquids
M052 Energy recovery - sludges
M053 Energy recovery - solid*
M059 Energy recovery - type unknown
FUEL BLENDING
M061 Fuel blending
AQUEOUS INORGANIC TREATMENT
M071 Chrome reduction followed by chemical
precipitation
M072 Cyanide destruction followed by chemical
precipitation
M073 Cyanide destruction only
M074 Chemical oxidation followed by chemical
precipitation
M075 Chemical oxidation only
M076 Wet air oxidation
M077 Chemical precipitation
MOTS Other aqueous inorganic treatment: e.g.,
ion exchange, reverse osmosis, etc.
(Specify in Commeots)
M079 Aqueous inorganic treatment - type
unknown
AQUEOUS ORGANIC TREATMENT
M081 Biological treatment
M082 Carbon adsorption
MOS3 Air/steam stripping
MOM Wet air oxidation
MOSS Other aqueous organic treatment (Specify
in CommenU)
M089 Aqueous organic treatment - type unknown
AQUEOUS ORGANIC AND INORGANIC
TREATMENT
M091 Chemical precipitation in combination with
biological treatment
M092 Chemical precipitation in combination with
carbon adsorption
M093 Wet air oxidation
M094 Otter organic/inorganic treatment (Specify
M099 Aqueous organic and inorganic treatment -
type unknown
SLUDGE TREATMENT
M101 Sludge dewatering
M102 Addition of excess !»«!*>-
M103 Absorption/adsorption
M104 Solvent extraction
M109 Sludge treatment - type unknown
-------�
SYSTEM TYPE CODES
(Continued)
Code System type Code System type
STABILIZATION
Mill Stabilization/Chemical fixation using
cementitious and/or pozzolanic materials
Ml 12 Other stabilization (Specify in Comments)
Ml 19 Stabilization - type unknown
OTHER TREATMENT
M121 Neutralization only
M122 Evaporation only
M123 Settling/clarification only
M124 Phase separation (e.g., emulsion breaking,
filtration) only
M125 Other treatment (Specify in Comments)
M129 Other treatment - type unknown
DISPOSAL
M131 Land treatnxnt/application/fanmng
M132 Landfill
M133 Surface tmpnmidmMit (to be dosed as a
landfill)
M134 DeepweU/nnderground injection
M135 Direct discharge to sewer/POTW (no prior
M136 Direct discharge to surface water voder
NPDES (no prior treatment)
M137 Other disposal (Specify in Comments)
TRANSFER FACILITY STORAGE
M141 Transfer facility storage, waste was
shipped off site with no on-site TDR
activity
-------�
ACTIVITY CODES
Code Waste minimisation activity
iiiiiiiiiiiHifioti activity
RECYCLING ACTIVITY
W01 On-site beneficial use/reuse began during
1993
W02 Off-site beneficial use/reuse begm during
1993
SOURCE REDUCTION ACTIVITY
GOOD OPERATING PRACTICES
Wll
W12
WI3
W14
W19
Began to segregate types of hazardous waste
to make them more amenable to recycling
Began to segregate (stopped combining)
hazardous waste from non-hazardous waste
(Note: for purpose* of hazardous waste
repotting, reduce* volume of hazardous
waste, but does not reduce total waste
volume)
Improved maintenance scheduling,
rccordkeeping, or procedures
Changed production fr*hffalf to
equipment and feedstock changeovers
Other changes in operating practices
(Specify in Comments)
INVENTORY CONTROL
W21 Instituted p
•dares to ensure that
W22
W23
W24
W25
materials do not stay in inventory beyond
sbdf-lifc
Began to tnft outdated r"*>*^**l~fyfi*i""<> to
use if still effective
tfaelf-life requirements for stable
materials
Instituted better labelling procedures
j clearinghouse to
materials dot would otherwise be discarded
W29 Other (Specify in Comments)
SPELL AND LEAK PREVENTION
W31 Improved storage or •*•«*"»; procedures
W32 Improved procedures for loading,
unloading, and t ransfer operations
W33 Installed overflow alarms or automatic
ihui-off valves
W34 Installed secondary containment
W35 Installed vapor recovery systems
W36 Implemented inspection or monitoring
program of potential spill or leak sources
W39 Other (Specify in Comments)
RAW MATERIAL MODIFICATIONS
W41 Increased purity of raw
W42 Substituted raw maffaials
W49 Other (Specify in Comments)
PROCESS MODIFICATIONS
W51 Instituted dosed4oop recycling
W52 Modified equipment, layout, or piping
WS3 Changed process catalyst
W54 T««ritMt«»d better controls on operating
conditions (flow rate, temperature, pleasure,
residence time)
WSS Changed from small volume containers to
faille containers to *iM*M*^*yg discarding of
empty onotaineri
WS8 Other (Specify in Comments)
Cleaning and Degreasint
W59 Modified stripping/cleaning equipment
W60 Changed to mechanical stripping/cleaning
devices (from solvents or other materials)
W61 Changed to aqueous cleaners (from solvents
or other materials)
W62 Reduced the number of solvents used, to
make waste more amenable to recycling
W63 Modified containment procedures for
cleaning units
W64 Improved draining procedures
W6S Redesigned parts racks to reduce dragout
W66 Modified or installed rinse systems
W67 Improved rinse equipment design
W68 Improved rinse equipment operation
W71 Other (Specify in Comments)
-------�
Code Waste minimization activity
ACTIVITY CODES
(Continued)
Code Waste minimization activity
Surface preparation and finishing
W72 Modified spray systems or equipment
W73 Substituted catting materials used
W74 Improved application technique*
W75 Changed from spray to other syttem
W78 Other (Specify in Comment!)
PRODUCT MODIFICATIONS
WBI Changed product specifications
W82 Modified design or composition
WS3 Modified packaging
W89 Other (Specify in Comments)
OTHER SOURCE REDUCTION ACTIVITY
W99 Specify in Comments
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D004
0004
D004
D004
D004
D004
D004
D004
D004
D004
D004
D004
D004
D004
D004
D004
D004
0004
D004
D004
D004
D004D005D006D007D008
D004DOOSD006D007D008
D004D005D006D007D008
D004DOOSD006D007D008
D0040005D006D007D008
D004D005D006D007D008
D004D005D006D007D008
D004D005D006D007D008
D004D005D006D007D008
D004D0050006D007D008
D004D005D006D007D008
D004D005D006CXX)7D008
D004D005D006D007D008D009
D004D005D006D007D008D009
DQ04D005D006D007D008D009
D004D005D006DOQ7D008D009
D004D005D006D007D008D009
D004D005D006D007D0080009
D004DOOSD006D007D008D009
D004D005D006D007D008D009
D004DQ05D006D007D008D009
D004D005D006D007D008D009
D004D005D006D007D008D009
0004DOOSD006D007D0080009
D004D005D006D0070008D009
D004D005D006D007D008D009
D004D005D006D007D008D009D01 OD01 1
D004D005D006D007D0080009D010D01 1
D004D005D006D007D008D009D010D01 1
DCKMD005D006D007D008D009D010D01 1
D004D005D0060007D008D009D010D01 1
D004D005D006DOQ7D008D009D01QD01 1
D004D005D006D007D008D009D010D01 1
D004D005D006D007D008D009D010D01 1
D004DOOSD006D007D008D009D010D01 1
D004D005D006D007D008D009D01 1
D004D005D006D007D008D010
D004D005D006D007D008D010
D004D005D006D007D008D010
D004D005D006D007D008D01 0
D004D005D006D007D008D01 0
D004D005D006D007D008D010
D004D005D006D007D008D01 1
D004D0050006D007D008tX)1 1
D004DQ0SD006DOQ7D009D01 1
D004D005D007D008
D004D005D007D008
D004D005D007D008DO 1 0
D004D005D007D008D010
D004D005D008D010
Type
M022
M039
M039
M039
M041
M042
M043
M043
M061
M077
M077
M077
M077
M078
M081
MOSS
M125
M132
M141
M141
M141
M019
M039
M039
M039
M041
M043
M043
M061
M111
M141
M141
M141
M039
M039
M039
M039
M039
M039
MQ39
M043
M049
M141
M141
M141
M141
M141
M061
M077
M077
M111
M122
M125
M12S
M125
M132
M125
M039
M039
M039
M141
M141
M141
M039
M061
M043
M049
M125
M039
M141
M122
EPA-ID
COD980591184
WA921 4053465
WAD089335150
WA7890008967
OHD048415665
KYD006373922
OHD048415665
NYD980592497
COD980591184
IAD984591891
NJD030239412
NY0001325661
ORD9871 96771
AZD091 235457
TXD008085185
TXD00808S185
TXD0080S5185
TXD041S15420
WA921 4053465
WA7890008%7
WA7890008967
SC1 890008989
WA21 7002341 8
WA2170023418
WA2170023418
UTD981552177
UTD9815S2177
UTD981552177
COD980591 184
IND078911146
WA21 7002341 8
WA21 7002341 8
WA2170023418
WAD058367152
WA1170023419
WA2170023418
WA2170023418
WA1 170023419
WA21 7002341 8
WA21 7002341 8
TXD008079642
TND000772186
WA2170023418
WA1 17002341 9
WA2170023418
WA2170023418
WA1 17002341 9
GAO096629282
CQD991300484
MID092947928
COD991300484
GAD073460941
MID092947928
OKD065438376
OKD065438376
LrTD991301748
CAD069124717
WA2170023418
WA21 7002341 8
WA7890008967
WA21 7002341 8
WA7890008967
WA21 7002341 8
WADOS8367152
COD980591 184
OHD048415665
TN421 0020570
OHD083377010
WA2170023418
WA2170023418
UTD982598898
Volume (tons)
0.179
0.009
1.4
0.003
0.104
82.836
38.724
0.166
6.146
1,000.80
5,525.23
65.93
12.738
40
1Z997.23
11,553.09
34,659.28
0.34
0.009
0.004
. 0.004
0.03
3.68
0.78
2.96
1.61
17.682
19.865
0.825
0.4
0.75
2.96
8.74
0.4
16.46
21.14
10.54
0.06
0.83
10.53
12.13
2.99
1.4
0.06
58.69
116.3
16.46
2.167
841.605
6.563
1.683
0.531
7.86
4.1
186.817
52.95
4,777
0.25
0.03
1.1
0.51
1.1
12.56
0.23
1.375
4.926
1.75
0.085
0.02
0.021
0.247
SIC-Codc
9711
2411
9999
4953
2869
4953
3861
2835
3674
2899
3674
3674
2879
2879
2879
9711
9999
9999
9711
9711
9711
9999
9999
9999
4953
9711
9711
9711
4953
9711
9711
9711
9711
9711
9711
2821
9711
9711
9711
9711
9711
4953
9511
9511
8221
9511
9511
9511
3341
9711
9711
9999
9711
9999
9711
4953
4953
7389
9711
9711
9511
Form Code
B119
B319
B302
B009
B119
B114
B119
B519
B119
B114
B114
B114
B402
B219
B319
B409
B319
B519
BOOS
B404
B407
BOOS
B409
651 9
B609
B319
B319
B319
B316
B219
B319
B319
B409
B609
B307
B114
B
B114
B113
B
B102
B114
B319
B304
B319
B319
B319
B319
B409
B609
B102
Source Code
A37
A59
A32
A04
A49
A29
A19
A92
A92
A92
A94
A91
A92
A94
A33
A56
A06
A
A06
A94
A
A94
A94
A91
A78
A94
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
2
1
2
2
1
2
1
1
1
1
1
1
1
1
Pagel
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-srte
Waste Codes
D004D006D007
D004D006D007
D004D006D007D008
D004D006D007D008
D004D0060CX37D008
D004D006D007DQ08
D004D006D007D008
D004D006D0070008D009
D004D006D007D008D009
D004D006D00700080009D01 0
D004D006D007D008D009D01 0
D004D006D007D008D009D01 1
D004D006D007D008D009D01 1
D004D006D007D008D009D01 1
D004D006D007D008001 0
D004D006D007D008D010
D004D006D007D008D010D01 1
DOO4D006D007D010
D004D006D008
D004D006D008D010
D004D006D011
D004D007
D004D007
D004D007
D004D007
D004D007
D004D007D008
D004D007D008
D004D007CXXJ8
D004D007D008
D004D007D008
D004D0070008D010
D0040007D008D010
D004D007D008D010
D004D007D009D011
D004D007D003D011
D004D007D010
D004D008
D004D008D009
D004D008D009
D004D008D009D010
D004D008D011
D004D008D011
D004D009
D004D009
D004D010
D004D010
D004D010
D004D010
D005
DOOS
D005
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D005
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
Type
M061
M141
M039
M039
M071
M141
M141
M039
M141
M039
M141
M039
M061
M141
M039
M043
M043
M125
M077
M137
M039
M032
M039
M041
M122
M125
M039
M043
M043
M061
M141
M039
M077
M141
M039
M141
M137
M111
MO41
M061
M041
M039
M141
M039
M141
M122
M124
M132
M137
M014
MQ39
M039
M039
M039
M039
M041 .
M043
M043
M043
M043
M043
M043
M072
M077
M077
M077
M077
M077
M077
M078
M111
EPA-ID
COD980591184
WA7890008967
WA4 170090001
WA7890008967
CAD038139143
WA7890008967
WA4170090001
WA21 7002341 8
WA2170023418
WA2170023418
WA2170023418
WA7890008967
COD980S91184
WA7890008967
WA5170027291
UTD981552177
NYD980St2497
PAD987321767
PAD041895566
7ND004048690
CAD097456099
ORD103027181
HID981 164254
LAD053783445
VAD046991097
OHD083377010
WA21 7002341 8
UTD981552177
UTD981S52177
COD980591184
WA2170023418
WA789Q008967
MID064191216
WA7890008967
WA7890008967
WA7890008967
TN3890090001
ALD983191966
LADOS378344S
COD980S91184
UTD981552177
WA7890008967
WA7890008967
WA7890008967
WA7890008967
OKD0071 58454
CAD054467996
TN8570024044
TND003376928
CTD042279513
WA2170023418
WA9214053465
WA7890008967
WA7890008967
WA7890008967
OHD04841566S
OHD048415665
MID000724724
NVD980592497
NYD980592497
NYD980592497
NYD980592497
CADOO8250383
AUX)62464748
AZD981 636665
NCD003195161
ORD0509S5848
VTD001080126
PAD043882323
NM0890010515
TN8570024044
Volume (tons)
0.275
0.002
2,91
0.02
1,995.00
0.021
1.51
0.003
0.003
0.008
31.14
0.03
1.375
0.034
2.03
0.354
0.002
1,125.94
1.8
3,271.89
0.813
671.796
13.358
0.2
1.376
0.234
0.63
1.899
0.622
1.856
0.58
0.09
263.228
0.09
0.002
0.002
0.01
2.500.00
2,5
0.206
4.397
0.04
0.037
0.008
0.008
315
21,600.73
0.14
1.31
85.8
0.409
0.108
0.293
0.03
0.006
0.25
0.046
4.5
0.091
0.243
0.012
1.66
0.117
17,018.00
44.82
1,442.00
20.046
375.135
44,995.47
0.286
0.29
SIC-Code
9999
9711
9999
3471
9711
9711
9711
9711
9711
9999
9999
9711
9999
3861
3471
3471
3674
2491
2491
2879
2824
7389
9711
9999
9999
9711
9999
1481
9999
9999
9999
1475
2879
9999
9999
9999
9999
9999
3341
3699
2869
9711
9711
9999
9999
9999
4953
4953
2821
3861
3861
3861
3861
3471
2819
3675
3675
3499
3423
3675
9711
Form Code
B319
B319
8105
B319
B409
B319
B319
B219
B119
B119
B409
B009
B119
B103
B106
BS03
B119
81 19
B207
B407
B409
B319
B502
B119
B409
8302
8114
8102
B319
B319
8119
81 19
8113
851 9
81 14
81 19
B319
8003
8009
8203
8310
B319
B505
8113
8114
8119
8316
8114
B119
B316
Source Code
A22
A92
A59
A22
A22
A09
A31
A92
A99
A78
A 94
A94
A75
A69
A99
A53
A32
A08
A49
A94
A59
A49
A32
A57
A22
A37
A7S
A49
A40
A25
A09
A94
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
2
1
2
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
Page 2
-------�
1993 BRS Data (QM Form) - TC Metal Wastes Managed On-site
Waste Codes
DOCS
DOOS
D005
DOOS
DOOS
0005
0005
0005
DOOS
DOOS
DOOS
DOOS
0005
0005
DOOS
DOOS
DOOS
D005D006
D005D006D007
D005D006D007
DOOSD006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
DOG5D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D0060007D008D009
D005D006D007D008DOOi
DOOSD006D007D008D009
D005D006D007D008D009
D005D006D007D008D009D010D01 1
D005D006D007D008D009D011 .
D005D006D007D008D009D01 1
DOOS0006D007D008D010
D005D006D007D008D01 0
D005D006D007DQ08D01 1
D005D006D007D008D01 1
D005D006D007D008D01 1
D005D006D008
D005D007
D005D007
D005D007
DOOSD007
D005D007
D005D007
D005D007
D005D007
D005DQ07
D005D007
D005D007
D005D007
D005D007
D005D007D008
D0050007D008
D005D0070008
D005D007D008
D005D007D008
D005D007D008
D005D007D008
D005D008
D005D008
D005D008
D005D008
DOOSD008
D005D008
D005D008
DOOSD008 •
Type
M112
Ml 12
Ml 21
M125
M125
M125
M125
M135
M137
M141
M141
M141 -
M141
M141
M141
M141
M999
M141
M039
M141
M039
M039
M039
M039
M123
M141
M141
M141
M141
M141
M039
M121
M124
M141
M132
M039
M141
M111
M141
M039
M141
M141
M077
M022
M039
M039
M039
M039
M039
M049
M061
M137
M141
M141
M141
M141
M039
M043
M094
M121
M12S
M125
M141
M039
M039
M039
M039
M041
M043
M043
M061
EPA-ID
IND121581698
ORD050955848
WIDOS9972935
GAD003275468
GA0003275468
GAD003275466
MID005344973
MND151774049
TND987790284
WA7890008967
WA2170023418
WA921 4053465
WA7890008967
WA2170023418
WA7890008967
WA9214053465
WID003967148
WA9214053465
WA21 7002341 8
WA2170023418
WA1 17002341 9
WA2170023418
WAS170027291
WA7890008967
GAD982S08426
WA2170023418
WA2170023418
WA1 17002341 9
WA2170023418
WA7890008967
WA9214053465
CA61 700231 09
CA61 700231 09
WA9214053465
TXD041515420
WA1 17002341 9
WA1 170023419
OHD083377010
WA7890008967
WA4170090001
WA7890008967
WA4170090001
NCD038547519
COD980591184
WA821 4053995
WA1 170023419
WA2170023418
WA51 70027291
WA921 4053465
TND003376928
COD980591184
TN0003376928
WA921 4053465
WA1 17002341 9
WA21 70023418
WA921 4053465
WA7890008967
NYD980592497
TX721 3821 831
IND006042386
CA2890012923
OHD083377010
WA7890008967
WA21 700234 18
WA7890008967
WA2170023418
WA7890008967
OHD048415665
OHD048415665
NYD980592497
COD980591184
Volume (tons)
10.5
102.091
1,403.21
10,797.10
10,302.30
464.8
0.5
5.85
120.71
0.032
0.009
0.28
0.007
0,56
0.001
0.08
0.012
0.02
1.62
1.62
4.72
1.12
1.8
0.18
3.011
0.1
0.61
4.72
1.42
0.08
0.13
10,120.95
10,120.95
0.13
10.88
0.11
0.11
0.298
0.001
0.59
0.38
0.3
7.634.33
0.234
0.03
0.56
0.11
0.002
3.09
0.33
0.041
22.49
0.004
O.S6
0.11
4.32
0.001
0,644
200.16
3.36
0.512
0.3
0.001
1.118
0.18
0.28
0.05
1
0.3
0.025
0.825
SIC-Code
3715
3339
2851
2819
2819
2819
3471
3545
9999
9711
9711
9999
9711
9999
9711
9511
9711
9711
9711
9711
9711
9711
9999
8221
9711
9711
9711
9711
9999
9711
3731
3731
9711
2821
9711
9711
7389
9999
9711
9999
9711
3675
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
38S1
3483
3471
9711
7389
9999
9711
9999
9711
9999
4953
4953
3861
Form Code
B409
B304
B114
B319
B319
B319
B505
8113
B119
B219
B219
B319
B409
B409
8801
8001
8219
B409
B319
8113
B119
B219
B319
B319
B319
B114
81 14
B319
B114
B409
B409
B319
B319
B409
B113
B319
B319
B319
B319
B219
B319
831 9
B319
B119
BOOS
8112
8103
8002
B119
B119
B319
B009
Source Code
A29
A39
A03
A49
A75
A92
A38
A05
A59
A49
A19
A19
A94
A3S
A59
A09
A29
A94
A59
Origin Code
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
PageS
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D005D008
D005D008
D005D008
D005D008
D005D008
D005D008
D005D008
D005D008
D005D008
D005D008
D005D008
D005D009
D005D009
D005D009
D005D011
D005D011
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
O006
D005
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
D005
D006
D006
D006
D006
D006
0006
0006
0006
D006
D006
0006
0006
0006
0006
D006
0006
Type
M077
MOT?
M077
M077
M111
M122
M129
M141
M141
M141
M141
M039
M13S
M141
M039
M141
M014
M014
M032
M032
M039
M039
M039
M039
M039
M039
M039
M039
MOSS
M039
M043
M043
M043
M043
M043
M061
M071
M071
M071
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M072
M073
M073
M074
M074
EPA-ID
MADQ65781197
NYD000809327
PAD003046794
PAD980712525
NMD980744551
CA0983614835
NMD980744551
WA2170023418
WA921 4053465.
WA7890008967
WA2170023418
WA7890008967
CAD0091 25303
WA789000896?
WA7890Q0896?
WA7S90008967
106890190089
NED007281728
CA6170023109
NCD101773992
WAD988519252
WA1 170023419
WA2170023418
WA921 4053465
WA7890008967
WA0000097S75
WA8S70024200
WA1170023419
WA2170023418
WA7890008967
CAT000612150
OHD048415665
M1D000724724
NYD980592497
TXD008079642
COD980591184
NYD002238582
NYD002221430
NYD002207520
CAD981376023
CAD990843377
CAD000093SOO
CAD009548256
CAD041160672
CAD001 946383
CAD008271090
CAD008387060
CAD008392722
CAD009603184
CAD981379100
CAD097458533
CAD009630708
CA00082S0383
IND05295952S
6AD0001 43677
KSD007482011
MND006253801
MSD008181S62
NCD0034S9336
NJD981 184591
NYD001 230341
NYD002229326
NJD002461234
W1D054105218
WD0541 05218
PA0002161685
R1D001 191931
CAD008289183
NYD982730S32
CAD044429884
MID0060044S1
Volume (tons)
19,315.13
1,897.87
6,108.79
133.4
259.053
1.251
370
0.28
0.168
0.12
1.72
0.003
29.191
0.003
0,007
0.007
0.037
4,607,24
0.787
5.485
6.39
0.001
14.6
0.42
0.014
19.2
0.06
0.028
0.42
0.05
67.372
0.45
£05
0.062
6.81
0.275
9,691.92
67.2
455.379
1,704.75
26,522.10
14,152.80
1.103.54
6,005.00
6.042.54
1,321.10
417.014
3,152,63
3,002.50
1.04Z54
2,236.26
14,265.22
0.266
3,991.24
225.188
1,801.50
109,790.67
6.405
2,695.68
207.173
106.339
7,516.71
207.507
5,241.70
24,020.02
2,658.73
400.334
10,989.58
1,245.83
7,457.10
1.167.19
SlC-Code
3827
3861
3229
3676
3679
2819
3679
9711
9711
9999
9711
9999
2851
9999
9999
9999
8733
3471
3731
3519
5013
9711
9711
9711
9999
3471
4581
9711
9711
9999
3341
4953
2899
3861
3471
3471
3471
3451
3451
3452
3452
3452
3471
3471
3471
3471
3471
3471
3644
3678
3471
3452
3471
3721
3471
3471
3471
3471
3471
3471
3559
3429
3429
3469
3471
3452
3471
3728
3471
Form Code
B114
B119
B105
8114
81 19
B513
B119
8119
B219
B219
8409
B319
8604
8319
8119
B219
B106
B119
B206
B119
B219
8319
B319-
8319
B307
8003
8009
B490
B105
B107
B114
B107
8107
8107
B107
B107
B107
8107
81 07
8107
8107
8107
8107
B107
BS02
B107
B107
8114
B107
B107
B107
8107
B107
8107
B107
B107
8107
B107
8107
B107
8107
8107
8107
Source Code
A08
A29
A21
A31
A75
A60
A75
A38
A94
A22
A99
A29
A74
A94
A59
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A31
A22
A22
A22
A22
A22
A22
A22
A03
A22
A22
A22
A22
A22
A22
A22
Origin Code
1
1
1
1
.1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
1
1
Page 4
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
0006
D006
D006
0006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006D007
D006D007
D006D007
DOQ60007
D006D007
D0060007
D0060007
D0060007
D006D007 .
D006D007
D006D007
D006D007
D006DOQ7
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
Type
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M078
M092
M101
M101
M122
M125
M125
M125
M129
M129
M132
M132
M133
M133
M133
M133
M137
M137
M137
M137
M137
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M999
M039
M039
M039
M039
M039
M043
M061
M071
M071
M071
M071
M071
M071
M071
M071
M071
M072 •
M072
M072
M072
M072
M072
M072
EPA-1D
CAD981 635741
CTD001 170877
CTD001454032
CAD981449416
GA00631 52573
KSD007233323
MID9S5583459
MIT270010325
MID005511852
NCD098770746
NHD001091073
MAD980730857
WID0541 05218
WID054105218
PAD987332897
MDD003093S07
TXDOS4385018
CAD000093500
KSD007233323
AZD982434383
IDD070929518
MI0092947928
PAD000765982
SCD043979822
WA0000097675
OKD000829440
TN2170022600
IDD070929518
IDD070929518
IDD070929518
1DD070929518
TND003095635
TND003376928
TN3890090001
WAD041 920554
WAD041 920554
WA1 17002341 9
WA21 7002341 8
WA7890008967
TXD008092793
WA1 17002341 9
WA21 7002341 8
WA921 4053465
WA7890008967
WA2170023418
WA921405346S
WA7890008967
W1D003967148
WAD009249509
WAD009491200
WA8570024200
WA2170023418
WA7890008967
NYD980592497
COD980591184
CAD097458533
CAD097458533
iNDOOS177050
NYD002204543
MDD069396711
NYD982530313
PAD096225081
UT0571724350
VAD000019364
CAD079S99460
CAD079599460
MAD980672216
NYD01 3563390
PAD003006798
PAD096225081
PAD003009461
Volume (tons)
4,203,50
187.656
608,841
5,884.18
209,328.57
1,368
0.09
2,084.09
13.188
13.636
101,514.47
1,756.51
55,085.91
123,^59
92.069.10
3.6
22,159.00
14,152.80
1.368
14.584
235.2
2.649
0.071
0.5
8.4
6,570.00
0.09
378.263
134,441.20
0.275
39,908.26
649.7
0.3
91.85
1.51
1.51
0.001
1.23
0.06
1.3
0.028
1.14
0.09
0.051
14.11
0.46
0.014
2.412
526.82
48,177,00
0.21
0.03
0.02
0.063
0.206
2,908.02
4,271.16
12.344
5.257.70
5,888.59
4,769.60
986.468
179.566.31
' 33.25
13,616.37
2,019.96
184.506
20.751
2,51 2.83
493.232
172.394
SlC-Code
3471
3579
3471
3471
3691
3471
3471
3826
3471
3728
3825
3827
3429
3429
2816
2816
3452
3471
3691
2819
4911
3471
3339
2819
2819
2819
2819
3471
9711
9711
9999
2869
9711
9711
9711
9999
9711
9711
9999
9511
3711
3471
4581
9711
9999
3861
3644
3644
3471
3678
9999
3471
3471
3471
3621
3471
3471
3471
3471
3471
3471
3678
Form Code
8105
B106
B107
B119
B106
81.13
B107
8107
B119
81 19
B119
B119
81 03
B106
B502
B316
8107
B113
B114
B310
8
8319
8119
8316
8113
8119
8319
851 1
8119
8119
8219
8219
B219
8309
B319
8319
8319
8319
B409
8409
8409
8001
8
8119
B319
B319
8319
B009
B105
8105
B113
B103
8103
B106
B107
B114
B114
B103
B107
B107
8107
8107
B107
8107
Source Code
A02
A22
A22
A01
A31
A01
A22
A22
A01
A01
A22
A49
A25
A03
A75
A32
A22
A01
A09
A78
A
A29
A99
A64
A92
A64
A49
ASS
A59
A
A59
A02
A23
A29
A22
A69
A22
A31
A22
A22
A22
A22
A22
A22
A22
A31
A22
Origin Code
_
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
2
1
1
2
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
PageS
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D006D007
D006D007
D006D007
D006D007
D006DQ07
D0060007
D006D007
D0060007
D006D007
D006D007
D006D007
D006D007
D006D007
0006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D0060007D008
D00600Q7D008
D0060007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D0060007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D0060007D008
D006D007D008
D006D007DQ08
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
0006D0070Q08
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
0006D007D008
D006DCX57D008
D006DD07D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
Type
M077
M077
M077
M077
MOT?
M077
M079
M092
M101
M111
M111
M111
M111
M121
M125
M129
M129
M129
M137
M137
M141
M141
M141
M141
M014
M032
M032
M039
M039
M039
M039
MQ39
M039
M039
M039
M043
M043
M049
M061
M071
M071
M071
M072
M072
M077
M077
M077
M077
M077
M077
M091
M091
M111
M111
M111
M111
M121
M121
M129
M129
M129
M132
M137
M137
M137
M141
M141
M141
M141
M141
M141
EPA-tD
GAD0001 43677
NYD981 482839
MAD001066059
PAD00237854S
PAO09622S081
VAD003259561
NCD067441394
PAD074013327
TT0570090001
ALD000622464
OKD001824564
OKDOOf824564
OK0007220148
CTD990672081
GAD091534776
WAD0419205S4
WAD0094912CX)
WAD041920SS4
TND052144011
TN3890090001
WA9S71 924647
WA2170023418
WA7890008%7
WA9S71924647
CAT000646257
ME7170022019
SCD003344496
WA1 170023419
WA2170023418
WA217CX)23418
WAD020233441
WA1170023419
WA21 70023418
WA41 70090001
WA7890008967
KSD981 506025
NYD980592497
TN8570024044
COD9805i1184
KSD980688477
NYD064730294
MID005068143
MIDOO5063143
PADOOS031448
CAD097030993
PAD041731670
TXD007365984
TX2571724333
TX2571724333
TX2571724333
NJD002385730
NJD00238S73Q
OKD081398612
OKOOB2708371
OKD081398512
TX321 3820738
CTD990672081
VAD098442148
WAD006454516
WAD0064S4515
TX2S71724333
TND980847024
TND051 386506
TND9821S7570
TN3890090001
WA1170023419
WA2170023418
WA1170023419
WA2170023418
WA4170090001
WA1 170023419
Volume (tons)
66,718.45
415,014
6,891.41
36,588.82
47,843.70
952.939
1.684.41
2,055.35
75.6
3.502
59.86
127.14
38.037
0.013
2.374
31,155.55
48,177.00
31,155.55
2.755.78
0.23
0.035
0,86
0.023
1.75
1.568.97
0.705
41.05
33.08
1Z01
0.14
0,19
1.6
67.67
0,08
0
O.S09
0.543
0.17
O.S19
23.353
200.167
1,695.25
1,695.25
68,050.04
12.79Z60
73,134.28
33.954.78
7.08
8,446.20
58.34
21.572.90
215.729.50
114.04
0.86
97.758
53.19
1.804
2,303.52
362.9
362.9
30.97
11.14
6,902.61
22.52
0.03
17.71
0.22
1.6
156.89
0.08
15.37
SIC-Code
3471
3471
3471
3471
3471
3471
2754
3471
9511
4953
4512
4512
4512
3724
2591
' 3471
3471
9711
9711
9999
9711
3728
9711
9711
9711
9711
3961
9711
9711
9711
9999
4953
3361
3721
8734
3651
3651
3471
3471
• 2816
3672
9711
9711
9711
2869
2869
3714
3743
3714
3444
3724
3549
2674
2674
9711
9711
9711
9711
9711
9711
9711
Form Code
B119
B103
B106
B105
B107
B119
B119
B103
B103
B114
B310
B403
B403
BIOS
B503
B119
B119
B119
B119
B319
B319
B409
B104
8205
B219
B319
B319
B319
B319
B519
B319
B009
B114
B105
B119
B119
B107
B119
B114
B119
B119
B205
B207
8101
8114
B302
B310
B504
B490
B114
B119
B119
6119
B205
B219
B219
B319
B319
B319
B409
Source Code
A22
A22
A22
A22
A31
A22
A22
A22
A02
A06
ASS
A01
A01
A31
A21
A22
A49
A40
A59
A21
A26
A22
A22
A22
A22
AOS
A22
A29
A03
A19
A51
A3?
AOS
A71
A75
A29
A31
A75
A29
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page6
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D006D007D008
D006D007D008
D006D007D008D009
D006D007D008D009D010
D006D007D008D009D01 1
D0060007D008D009001 1
D006D007D0080010
D006D007D008D010
D006D007D008D010
D006D007D008D01Q
D0060007D008D010
D006D007D008D010
D006D007D008D011
D006D007D008D011
OCX)6D007D008D011
D006D007D008D011
D006D007D008D011
D006D007D008D011
D006D007D008D011
D0060007D0080011
D006D007D009
D006D007D010
D006D007D011
D0060007D01 1
D006D007D011
D006D007D011
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
DOOSD008
D006D008
D006D008
D006D008
D006D008
D0060008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
Type
M141
M141
M137
M125
M039
M141
M039
M039
Ml 41
M141
M141
M141
M014
M039
M039
M071
M072
M077
M077
M141
M137
M111
M039
M077
M077
M141
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M043
M077
M077
M077
M077
M077
M077
M078
M091
M101
M111
M111
M111
M111
M111
M112
M112
M119
M121
M122
M122
M125
M129
M132
M132
M132
M13S
M137
M137
M137
M137
M137
M141
M141
M141
EPA-ID
WA2170023418
WA9571 924647
TN3890090001
WVD08S911854
WA2170023418
WA21 7002341 8
WA1 17002341 9
WA2170023418
MID092947928
WA9571 924647
WA1 17002341 9
WA957 1924647
FID060240207
WA2170023418
WA2170023418
CAD097483523
PAD990827610
GAD084235621
COD007057995 '
WA21 7002341 8
TN3890090001
OKD000758S57
WA7890008967
MAD002068831
PRD987366069
WA7890008967
WA7890008967
WA2170023418
WA7890008967
WA7890008967
WAD027S30526
WA0020233441
WA2170023418
WAS170027291
WA7890008967
WA2170023418
KSD981 506025
MND98099680S
MAD001 027325
OKD000829440
NYD002227296
NC0980602445
TXD066349770
MDD002901197
NJD001296110
PADOQ2347003
AZ4570024055
CAD021 774559
OHD083377010
OKD007224702
VAD065417008
OKD000829440
TXD066349770
OKD000829440
MND980996805
AZD982503948
MAD000652081
AZD982503948
WAD000064642
OKDOOOS29440
OKD000829440
OKD000829440
WAD000064642
TND003332012
TND980316301
TND981023666
TND9821 57570
TN3890090001
OR6213820917
WA2170023418
WA7890008967
Volume (tons)
12.41
0.49
63,89
10
0.49
1.95
0.003
0.14
4.087
0.23
0.003
0.51
4.98
0.35
5.91
544.954
25,459.00
83.622
16,418.78
0.35
3.41
16.325
0.09
1,176.61
141.78
0.09
0.11
0.83
0.44
1.54
54.65
0.12
0.44
0.001
0.005
0.1
12.928
17.336
630.725
849.331.00
212,333
14,400.00
756.605.00
28.413
0.459
97.63
24,167.12
273
0.35
3.7
1,235.50
2.7QB
307.4
2.944
17.336
15.031
217.577
15.031
31,552.00
500.318
359.701
28.144
31.552.00
6.916.63
564.39
10.68
43.57
"1.88
0-205
8.52
0.44
SlC-Code
9711
9711
2821
9711
9711
9711
9711
9711
9711
9711
3761
9711
9711
3471
3471
3462
3728
9711
3724
9999
3471
3499
9999
9999
9711
9999
9999
2879
3961
9711
9711
9999
9711
4953
3471
3269
3339
3499
3432
3321
3221
8541
3253
9711
3321
7389
3229
3321
3339
3321
3339
3471
3724
• 3494
3724
3499
3339
3339
3339
3499
9711
9711
9999
Form Code
B409
B409
B316
B219
B
B219
B409
B609
B114
B119
B105
B114
B103
B103
B409
8103
8107
8119
8219
B119
B119
8219
8319
B319
8319
B319
B319
B409
B519
8103
B113
8113
8114
B119
8115
B106
8201
B119
B304
B304
B319
B304
B310
B319
B310
8103
B207
8205
8207
8119
8302
8316
B319
8219
B301
8119
B119
Source Code
A57
A
A49
A29
A22
A27
A22
A01
A22
A31
A74
A72
A09
A09
A72
A75
A78
A03
A37
A09
A61
A78
A29
A78
A75
A78
A32
A72
A27
A09
A27
A69
A99
A99
A61
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
3
1
1
1
1
1
1
1
2
1
1
2
Page?
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-srte
Waste Codes
D006D008
D006D008
D006D008
D0060008
D006D0080009
D006D008D009
D0060008D009
D006D008D009
D006D008D009
D006D008D009DQ10
D006D008D010
D006D008D010
D006CXX»D010
D006D008D010
D006D008D010D011
D006D008D010D011
D006D008D011
D006D008DQ11
D006D008D011
D0060009
0006D009
D006D009
D006DOO9
D006D009
D006D009
D0060010
D006D010
D006D010D011
D006D010D011
D006D011
D006D011
D006D011
D006D011
D006D011
D006D011
D006D01 1
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
0007
0007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
Type
M141
M141
M141
M141
MQ39
M041
M061
M137
M141
M077
M039
M039
M141
M141
M039
M141
M041
M043
M123
M039
M039
M042
M141
M141
M141
MC39
M141
M039
M141
M014
M039
M043
M077
M078
MU1
MU1
M014
M014
M014
M014
M014
M014
M014
M014
MC21
M021
M022
M023
M032
M032
M032
M032
M032
M039
M039
M039
MOSS
MOSS
M039
M039
M039
M039
M039
MG39
M039
MOSS
M039
M039
MOSS
M039
M039
EPA-ID
WA7890008967
WA21 7002341 8
WA7890008967
WA2170023418
WA7890008967
LAD053783445
COD980591184
TN3890090001
WA7890008957
PAD004326542
WA2170023418
WA78900Q8967
WA21 70023418
WA7890008967
WA7890008967
WA7890008967
NYD980S92497
NYD980592497
PAD003053709
WA7890008967
WA7890008967
KSD981 506025
WA7890008967
WA78900Q8967
WA7890008967
WA7890008967
WA78S0008967
WA7890008967
WA7890008967
NYD071600100
WA789000S967
NYD980592497
PAD987360047
NYD9821 88385
WA7890008967
WA7890008967
KSD980852669
NYD002235182
MOOC52612850
MND980681539
MNT280010257
MND006253801
MND05073017S
NYD041293127
IAD085372266
VAO046960449
CO0980591184
CAD008382475
CAD008278236
KSD056789126
NCD986171882
NCD057454670
WID066867060
IND000816090
NJD062043666
WAD988470969
WAD020233441
WA1 170023419
WA217Q023418
WA921 4053465
WA7890008967
WAD021316427
WAD9817729S7
WA0000097675
WAD038529137
WA0980738926
WAD010211415
WAD041337130
WAD980723449
WAD009480823
WA2170023418
Volume (tons)
1.65
0.46
0.005
0,29
0.08
0.5
0.412
0.03
0.08
43.358
5.11
0.03
5.11
0.034
0.001
0.001
2.544
0.163
14.4
0.22
0.02
0.531
0.22
0.018
0.09
0
0
0.08
0.08
0.342
0,11
0.433
2,816.79
2,890.61
0.11
0.035
0.805
0.89
146.923
9,495.54
23,603.00
647.032
49,024,85
3.753
22.585
2.4
6.793
50.794
0.6
5.311
0.15
1.225
0.3
0.468
0.147
55.42
0.19
2S.24
5.068
0.576
0.199
8.01
25,144.00
268.8
72.54
22
123.8
1,209,300.00
126.46
1.85
0.236
SlOCode
9999
9711
9999
9711
9999
2879
9999
3229
9711
9999
9711
9999
9999
9999
3861
3861
3724
QQQQ
*f-y*fiy
9999
4953
9999
9999
9999
9999
9999
9999
• 9999
8221
9999
3861
3499
3471
9999
9999
8221
3679
3471
3471
3471
3471
3471
3554
2677
3443
3721
3471
3296
3534
2819
2816
3479
2673
3471
3961
9711
9711
9711
9999
3444
3471
3471
3471
3479
3593
3728
3728
3764
9711
Form Code
B219
B319
B319
B409
B319
B119
8319
B102
B219
B219
B319
B319
8206
B009
B205
B119
B319
B519
B119
B319
B409
B319
B319
B219
BIOS
B119
B310
B105
B107
8119
8219
B119
B101
B105
B105
BIOS
B105
8113
B119
8119
B519
B207
8310
8319
B207
8302
B319
B105
8209
B119
B119
8119
8119
B119
B119
B119
B119
8119
8119
Source Code
A99
A09
A54
A59
A92
ASS
A99
ASS
A02
A75
A31
A94
A22
A05
A05
A22
A22
A61
A49
A99
A21
A32
ASS
A49
ASS
A71
A01
A09
A
A
A
Origin Code
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
PageS
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
Type
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M03f
M041
M041
M041
M041
M041
M041
M043
M043
M043
M043
M043
M043
M043
M043
M043
M043
M043
M043
M043
M049
M051
M061
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M07t
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
EPA-ID
WA1 17002341 9
WA1 170023419
WA7890008967
WAD980833099
WAD009460823
WA1 17002341 9
WA2170023418
WA7890008967
WA7890008967
WAD980738926
WAD009251323
WA1 17002341 9
ARD089234884
ARD089234884
OHD004304689
LAD0018i0367
7NEX303376928
TXDOOS079642
OHD04841S665
NYD980592497
NYD980592497
NYD980S92497
NYD980592497
NYD98QS92497
NYD980592497
NYD980S92497
NYDS80592497
NYD980592497
NYD980592497
NY0980592497
NY0980592497
TND003376928
ARD089234S84
COD980591184
AZD983476185
A2D000625715
ALD004023180
ALD000827147
AZD008397069
ALD000737288
ALD982098311
AL0980843940
AZDS83468166
AZD003987997
CTD001161793
CAD0091S0134
FLD098917149
CTD010170363
CAD009122SS7
CA0981 376023
CTD000841221
CAD00827109G
CA00771 91039
CAD981 635741
CTD001 166263
CTD001166826
CTD001 183052
FLD982167702
CAD000628032
CTD001 449784
COD0070S7995
CTD001840974
CTD001 980911
CTD058507740
CAD982030678
CAD982200503
CT 0001 183300
CAD008301467.
CTD001 153840
CAD077233658
CAD000093SOO
Volume (tons)
2.75
2,02
0,052
4.21
0.035
0.22
3.509
0.398
0.045
2
2
2.35
838
992
0.75
51
595.86
158.82
0.906
0.025
0.417
3.1
0.897
1.172
0.365
0.618
0.533
0.063
43.651
0.1
0.39
3,235.90
182
4.895
158.251
32.074.00
6,882.19
12,251.88
14,886.42
7.833.23
949.384
11,711,27
11,828
5.427.26
4,504.51
12,817.85
23,464.60
71,456.91
68.5
1,704.75
8.340.28
990,826
4,250.29
3,619.68
904,921
4.248
7.506.26
21,250.72
8,135.96
277,168.47
16,418.78
2,418.04
220,811.00
12.384.72
1,459.55
1,876.56
5,967.47
84,361.97
6,719.76
3.817.49
28.305.60
SIC-Code
9711
9711
9999
3674
3764
9711
9711
9999
9999
3479
3498
9711
2865
2865
2821
2869
2821
4953
3861
3861
3861
3861
3861
3861
3861
3861
3B61
3861
3861
3861
2865
3446
3471
3479
3491
3678
3429
3695
3449
3724
3499
3499
3312
3354
3429
3444
3451
3452
3471
3471
3471
3471
3471
3471
3471
3471
3721
3728
3829
3949
3724
3354
3354
3421
3429
3432
3449
3452
Form Code
B119
B119
8119
B319
B319
B319
B319
B319
8409
B519
BS19
B519
B219
B219
B219
B105
B001
B009
B009
B310
B310
B310
B316
B316
8319
B403
B407
B407
B219
B103
B103
B103
B103
B103
B105
B106
B119
B119
B503
B101
B103
B103
B103
B103
BIOS
B103
B103
B103
BIOS
BIOS
B103
B103
B103
B103
B103
B103
B103
B103
B104
B105
B105
B105
B105
B105
BIOS
B105
Source Code
A
A
A35
A37
A33
A09
A94
A39
A59
A32
A49
ASS
A22
ASS
A59
A49
ASS
A99
A37
A29
A22
A23
A26
A22
A22
A22
A29
A29
A02
A22
A22
A29
A22
A29
A22
A22
A22
A22
A22
A22
A22
A22
A22
A29
A22
A22
A29
A22
A22
A29
A29
A22
A22
A22
A27
A02
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1 .
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page9
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-stte
Waste Codes
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
DOQ7
D007
D007
D007
Type
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
EPA-ID
CAD008493603
CAD008289183
CAD008371676
CAD008387060
CAD008392722
CAD009548942
CACXX39686874
CAD038682522
CAD067629873
CAD981981426
CA0981990765
CTD001139096
CTD001 149459
CTD0Q1180462
CAD001946383
CAD009603184
CAD046442612
CTD001 149459
CADOQ91 16211
CTD001 149459
CAD043089754
CAD076053701
CAD058856491
FUD060240207
CAT000610931
CAD044052801
CAD041 160672
CAOOQ9548256
CAD981172125
CAD981379100
CTD001170877
CAD008278236
CAD982467011
CAD0091 40120
DED980655122
CAD008292435
CAD008358145
CTD001 149459
CTD001 170257
CAD052384328
FLD047966S93
CA0000086686
CAD0000866S6
CTD00393S905
FLD002035723
FU304S771952
CAD008237950
CAD008496408
CAD009402082
CAD008481947
CA0040505331
CTDOS7794034
CTD001 149459
CAD008378044
CAD9S2479206
CAD9836S3668
FLD043117522
CA0086S10005
CTD983866955
CAD981367659
KYD058688664
IND005382346
GAD984304014
GAD003273224
GAD003484607
1LD074573163
KY0981852635
1ND006035018
KYD006379945
KYD074049727
IND006420087
Volume (tons)
2,193,80
7,567.14
38,557,13
625.521
1,501.25
710.629
9.061.72
62,614.68
5,004.17
7,264.39
1,517,93
12,785,58
3,475.20
20.001
14,099.25
2,752.29
9,125.88
11.004
48.827
8,108.81
2,068.81
42,035.03
66.722
5.696
160.192
208.507
2.752
1,459.93
7,506.26
1,668.06
1,262.30
1,389.12
8,568.93
459,768.81
152J210.18
2,110.09
2,488.92
0.292
75.897
1,270.30
843.869
2064
10,765.84
10,945.99
45.455
195.163
7,000.00
1,209.34
2,377.98
5,000.00
40
4,013.95
15.784
1,540.03
11,560.51
3,094.11
219.247
149.34Z02
349.591
2,315.31
138,885.50
236.439
801.4
10,308.59
37,304.46
5,439.95
314.835
63,002.14
1,826.56
2,026.44
3,934.16
SIC-Codo
3452
3452
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3496
3581
3761
2891
3315
3452
3452
3471
3471
3579
3471
3721
2499
2819
3471
3471
3471
3471
3489
3489
3491
3491
3724
3728
3721
3471
3471
3471
3471
3471
3471
3471
3721
3721
3721
3721
3728
3728
3471
3714
3999
3354
3354
3354
3354
3471
3471
3479
3479
3479
Form Code
BIOS
B105
BIOS
BIOS
BIOS
B105
B105
B105
B105
B105
B105
BIOS
BIOS
B105
B105
BIOS
BIOS
BIOS
BIOS
B105
B105
BIOS
B105
BIOS
B106
B106
B106
B106
B106
8106
B106
8113
81 13
B114
B114
8114
B114
8114
8114
B114
81 14
B114
8114
8114
8114
8115
8119
B"119
B119
8119
B119
8119
8119
B119
B119
8119
8119
B119
8119
8504
B101
8102
8103
8103
B103
8103
B103
B103
B103
8103
B103
Source Code
A22
A29
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A29
A29
A29
A29
A31
A31
A75
A22
A24
A22
A27
A03
A22
A29
A22
A31
A22
A22
A29
A61
A32
A05
A22
A22
A22
A23
A29
A04
A06
A31
A05
A78
A22
A22
A22
A23
A29
A29
A51
A06
A22
A29
A29
A05
A22
A31
A22
A22
A24
A29
A29
A29
A03
A22
A23
A23
A24
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
3
1
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 10
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
DQ07
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007 .
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
Tyjse
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
MQ71
M071
M071
M071
M071
EPA-ID
IND990873606
IAD062775422
IL0025644493
GAD004501862
ILD 182768085
GAD980602999
IND0051 05408
KYD981803554
IND016520017
IND982S17318
GAD000615914
GAD003302064
INDOOS382346
GAD018916734
GAD003324944
IAD06S218737
IND0981 38936
IAD065221897
ILT1 8001 3468.
KSD007166853
IND057396608
GAD980842975
KYD981 923089
GAD003306750
1ND980700801
GAD0781 06846
IND001 927961
1LD0051 05572
IND980677496
ILD048948178
GAD048719108
IAD0102S6923
IAOOOOS05143
ILD001662816
IAT200011187
ILD049813256
ILT1 80014698
1LD005121033
GAD061022216
GAD981233356
GAD981242613
ILD0051 72325
ILD025494248
ILD980682447
KSDOQ7233323
GAD000827873
IND082864729
IND980897524
KSD007482011
GAD003480530
GAD98123S823
GAD097392971
IAD005278502
GAD000143677
GAD981270416
ILDOOS215421
iAD005269527
ILD005070537
IAD005272703
1AT200011187
IND982616559
GAD 106680002
GAD984312843
MID016744971
OKD1 94624235
NCD051331395
NYD981 132558
MSD050243S34
NED007281728
NYD002208031
MAD002084Q93
Volume (tons)
1,414.46
43.52
4.872
260.799
14,406.45
13,540.46
2,085.07
569.5
270.725
2,097.35
14.939.68
723.642
0.099
2,731.44
3,750.00
11,168.38
290,126.70
500.417
55,026.86
11.102.20
4,236.10
30,212.68
2,201.76
20,934.11
22,494.62
13,835.30
52.043
228.53
1,244.92
79.136
18.5
10,448.29
101,980.82
22,124.91
0.701
16.238.83
53.499.19
12.6
2,793.90
402.451
583.095
148,473.73
0.088
6,142.62
0.25
15,381.66
3.603.00
27,795.37
177,122.60
38.873
Z959.16
747.025
27,105.92
20,850.71
4,070.48
13,436.20
205.755
42,976.56
3,366.80
3.599.18
7,247.97
20.85
6.1
1,408.12
35.2
832.602
206.4
7.803.38
33.786.42
319.9
83.403
SIC-Code
3479
3489
3564
3585
3585
3592
3699
3714
3714
3714
3728
3799
3999
3724
3354
3369
3432
3471
3471
3471
3479
3496
3592
3714
3714
3728
3429
3432
3471
3471
3499
3625
3694
3714
3714
3479
3479
3432
3721
2754
3446
3471
3471
3471
3471
3479
3679
3711
3721
3965
3999
4512
2431
3471
3471
3471
3531
3531
3613
3714
3714
3519
3471
3479
3721
2531
2754
3471
3471
3471
3795
Form Code
B103
B103
B103
8103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B104
B105
B105
B105
B105
B105
B105
B105
8105
8105
8105
8105
B105
8106
B106
B106
B106
B106
B106
B106
B106
B106
8108
8108
8113
8113
B114
8114
8114
8114
81 14
B114
B114
B114
8114
B114
B114
8114
8114
8119
B119
8119
8119
8119
8119
8119
81 19
8119
8504
8505
8101
B101
B102
81 02
B102
B102
8102
B102
Source Code
A24
A29
A23
A21
A23
A22
A22
A22
A27
A29
A22
A29
A22
ANA
A21
A26
A22
A22
A22
A22
A29
A22
A05
A22
A22
A29
A22
A03
A06
A29
A29
A22
A22
A02
A22
A03
A03
A22
A75
A31
A21
A22
A22
A22
A22
A29
A22
A29
A31
A22
A29
A05
A29
A22
A22
A22
A22
A22
A23
A22
A29
A09
A22
A22
A06
A22
A22
A22
A22
A22
A23'
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 11
-------�
1993 8RS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
Type
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
1*371
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
EPA-ID
MAD 985294347
MAD002084093
NYD002076255
NJD002329621
MSD097904932
NYD000632109
MAD981062284
MID980990113
MAD981061419
NCD057200949 '
NCD980844898
MID122401318
MAD001034016
MAD001 132331
MAD062173497
MAD98S29425S
MDDOO3065117
MID044973642
MI0052035425
MOD007140874
NYD002207256
NYD002207520
NYD002221430
NYD002226041
NYD990774200
MID005394465
MOD981 501596
MND000819268
NCD981 862956
NJ0002345247
NCD981003197
OKD074294612
NED035036201
NCD06O299880
MOD0923S6096
NCD0461 35992
NCD057037194
MA000192340S
NYD991292079
NYD001827633
NYD982189102
NCD003233970
MID006021414
NED068652981
MOD07S888487
NCDQ414662S1
NCD042892067
NC1 170027261
MADOS4430095
MSD096076781
MID006320247
OKD094029063
OKD020721098
MID072598725
MOD052612850
ORD018216887
MID0060OU51
MID9855834S9
MND00617S871
MND006253S01
MOD006264675
MSD008181562
NJD981 184591
NYD002229326
NYD982721656
NYD982730632
NYD98118253S
MAD982545923
MID020892121
MSD007037278
NYD980769830
Volume (tons)
54,212
90.909
18.S75
8,036.99
7,941.00
5,472.00
0.005
4,932.17
0.62
6,605.51
1,441.13
13,438.28
2.808
43,330.00
0.609
2,881.51
2,615.66
172.428
172,005.85
909.091
1,305.39
2,522.10
2,151.30
4.375.00
331.343
9,757.72
1.950.38
25.021
6,366.16
10,549.94
3.336
5,905.23
341
7,774.48
31,323.03
175.793
1,768.00
6,228.26
6,331.92
59.085.00
37.531
406.589
12.177
0.5
11,162.60
8,98457
3,362.69
647.45
0.151
42
807,020.38
28,600.00
122,953.81
11,248.08
25.509
4,735.56
7,507.17
1.856
23.929.94
109.143.64
5.504
593.895
621.518
11.774.29
10.842.37
750,626
1.876.56
40.2
3.395.18
20.876
1.803.60
SIC-Code
3795
3999
2514
2796
3354
3354
3357
3417
3423
3442
3449
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3479
3483
3489
3492
3497
3519
3519
3523
3592
3613
3625
3625
3669
3674
3678
3679
3713
3714
3751
3761
3824
3999
9711
3471
3081
3316
3429
3432
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
Form Code
B102
B102
B103
B103 "
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
8103
B103
B103
B103
8103
B103
B103
8103
B103
8103
8103
B103
B103
8103
B103
B103
B103
8103
B103
8103
8103
B103
B103
B103
8104
B105
8105
B105
8105
BIOS
B105
B105
B105
BIOS
BIOS
BIOS
8105
8105
B105
B105
8105
BIOS
B105
B105
B105
B105
B105
Source Code
A23
A23
A27
A22
A29
A29
A27
A22
A22
A21
A29
A22
A22
A22
A22
A22
A22
A22
A22'
A22
A22
A22
A22
A22
A22
A29
A24
A29
A22
A22
A29
A29
A06
A23
A22
A29
A29
A22
A01
A22
A27
A24
A89
A29
A26
A22
A22
A22
A29
A04
A31
A22
A22
A22
A22
AOS
A22
A22
A22
A22
A22
A22
A22
A22
A22
A22
A23
A29
A29
A31
A31
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1-
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
Type
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M07J
M071
M071
M071
M071
M071
M071
M071
M071
M071
1*371
1*371
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
EPA-ID
NED007258790
NC0980845366
MAO9S5290998
MOD006281711
NED080219858
NJD030239412
NHD002576817
MID017079625
MID057042434
OKD079981874
MID044253029
NYD002215234
MND0061 48282
NYD044689818
NED043534635
MND0061 56350
NYD060S4S209
MDD003090503
MSD1 30452501
NCD991 302498 .
NYD0021 13975
NYD022641427
NYD041975715
MN3170022914
NYD002076073
NCD101773992
NYD001317072
NED06S133167
OK0690540000
NJD045800521
MID055850200
NYD001230341
MAD001 122381
MIOOOOS10390
MID005375837
MID270012669
NYD010783967
MND004320693
MOD05071S6S5
MSD0541 79403
NYD002249613
MID006023378
NYD002215226
NYD091 662726
MAD00101351S
NCD003951878
MND006253801
NYD010783967
NYD01 0783967
MAD001 114206
NYDOQ2205755
MID006013403
MND079731519
NYD982189102
NCD091 245498
MS0054531215
NYD002210565
NYD002205755
NCD057454670
NJD01 1417516
MDD053945432
MOT300010550
NYD002207744
ORD009049107
NY0990774200
MED985467562
NCD0031 56940
NCD981003197
MND000823922
NED099564684
MDD04604188S
Volume (tons)
1,014.39
13,938.87
5.738
2.50Z09
11.468
269.308
5.610.93
430
45,975.81
20,016.68
1.501.25
131,434.86
12,831.19
14.274
12.36
399.291
20,177.67
5,170.98
24,132.38
6,290.46
57,30£63
103.628
1,125.94
5
3,170.64
26,631.32
26,000.00
4,774.40
32.611
13,511.26
188,215.18
2,661.59
47,235.41
129
45,965.04
393.013
136,570.00
7,944.96
200.16
288,230.00
6,672.23
4,744.28
18,465.39
176.927
1.668
13,193.31
249.678
140,320.00
61,460.00
25
4,887.20
781.902
7,548.16
275.229
67,633.07
4,954.13
340
1,263.90
203,394.60
77,592.77
227,348.21
6,152.50
5,497.67
0.483
4,351.73
440.367
9,271.24
5,245.89
5,992,32
16,680.57
141.868
SlC-Code
3479
3499
3499
3585
3593
3679
3679
3714
3714
3714
3714
3714
3714
3728
3761
2514
3312
3471
3471
3471
3471
3471
3471
3489
3499
3519
3585
3592
3799
3369
3471
3471
3471
3451
3471
3471
3479
3585
3724
2911
3465
3471
3471
3471
3471
3471
3471
3479
3479
3484
3541
3545
3571
3679
3711
3949
3471
3541
2819
3315
3312
3471
3471
3471
3471
3479
3479
3519
3571
3644
3663
Form Code
81 05
B105
B105
B105
B105
B105
B105
B105
8105
B105
B105
B105
B105
B106
B105
B106
B106
B106
B106
B106
B106
B106
B106
B106
B106
B106
B106
B106
B106
B107
B107
B107
B107
B113
B113
81 13
B113
B113
B113
B114
B114
8114
8114
B114
8114
B114
B114
B114
B114
81 14
B114
B114
8114
8114
B114
B114
B115
B115
B116
B116
B119
B119
8119
8119
8119
B119
B119
B119
B119
8119
8119
Source Code
A22
A22
A29
A29
A22
A22
A31
A22
A22
A22
A23
A29
A31
A27
A29
A29
A79
A22
A22
A22
A22
A22
A22
A01
A22
A29
A29
A22
A22
A22
A22
A22
A24
A22
A22
A31
A29
A29
A22
A49
A22
A22
A22
A22
A31
A75
ASS
A06
A29
A89
A22
A22
A05
A23
A27
A22
A22
A78
A69
A63
A22
A29
A29
A29
A69
A19
A24
A29
A06
A27
A05
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
2
1
1
1
1
1
1
Page 13
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-srte
Waste Codes
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
DOG7
D007
D007
D007
D007
D007
D007
D007
D007
D007
DOC57
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
Type
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
EPA-ID
MID038624508
MID057042434
NCD098770746
NYD002047967
TXD0411 28083
PAD04613S083
WID006424857
W1D053091005
PAD004328076
PAD051397768
VA0046979498
SDD096407838
PAD002976009
WID00607322S
WID096344056
PAD003036662
VAD096372974
PACX303023827
PAD014433i32
VAD990710675
PAD001746460
PA0981 038078
WID0061 26999
WI0066874207
W1D066874207
VADQ5403996t
TXD980626006
TXD981 155203
TXD980866990
PAD002275436
W10006125215
WIDO 98550437
PAD004322509
PAD004340444
PAD987279T89
PAD002333227
PAD00239928S
PAD003012077
PAD003041415
PADQ04316832
PAD005031448
PAD069799419
RID001 191931
W1DQ06090732
PAD00237854S
PAD002101301
WID0061 15877
PA0003015716
PA0005569538
PAD049029697
PAD003015716
PAD002344463
WID980704209
PRDQ90497959
WID006084172
PAD980551840
TXD091 938520
WID0061 35982
PAD045297066
PADOO4338091
WID006116S29
WID006125215
TXD988019568
PAD041731670
TXD098818339
PAD004397337
PRD090156712
VA0096694318
W1D006107122
PAD003014560
PAD061075529
Volume (tons)
35,508.41
6,575.48
262.098
31.954.81
32,863.62
7,108.80
48,321.10
17,318.60
9,948.55
3,618.80
183.966
13,522.00
546.289
12,309.76
2.109.76
176.808
4.598
284
40
256.291
27.493.31
1,251.04
678.959
1,234.15
15,880.12
2,289.91
£340.40
2.84
284.38
5,247.90
460.563
15,901.03
628,797.92
1,180,150.13
4,670.56
21.685
27,962.33
12,871.78
62.552
9,716.00
123.228
19,098.95
3,052.54
75.063
152,543.79
320.267
10.856.90
250.455
237,274.16
5,167.69
11.89
4,439.01
7,750,10
436.7
Z278.97
160,000.00
18,053.10
7,675.66
16,092.07
2,600.00
52.29
11.208
1Z97£87
820.475
18,761.00
11,934.00
9,245.20
11,612.87
34,982.72
24.3
137.4
SIC-Code
3714
3714
3728
3479
3652
3471
3471
3479
2754
2754
3354
3442
3471
3471
3471
3479
3523
3523
3635
3651
3679
3713
3714
3714
3714
3721
3812
3823
3993
3999
2591
3312
3312
3354
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3479
3479
3479
3479
3498
3519
3585
3585
3724
3479
3496
3965
3317
3519
3999
2816
2819
. 3471
3471
3471
3471
3496
3499
Form Code
B119
B119
B119
B208
B101
8102
8102
B102
B103
8103
B103
B103
B103
B103
B103
BIOS
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
8105
B105
B105
B105
B105
B105
B105
B105
B105
B105
B105
B105
B105
B105
BIOS
B105
S105
B105
B105
B105
B105
BIOS
B105
B105
B105
B106
B106
B107
B113
B113
B113
81 14
B114
B114
8114
8114
B114
B114
81 14
B114
Source Code
A31
A69
A22
A29
A22
A22
A22
A21
A22
A22
A29
A29
A22
A22
A7S
A29
A06
A0$
A29
A01
A22
A24
A19
A22
A33
A29
A23
A22
A22
A29
A29
A26
A31
A01
A22
A22
A22
A22
A22
A22
A22
A22
A22
A29
A31
A31
A05
A22
A22
A24
A26
A22
A21 •
A22
A27
A03
A22
A22
A29
A22
A78
A31
A75
A22
A22
A22
A22
A29
A21
Origin Code
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
- 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
r
i
1
1
1
1
1
1
1
1
1
i
1
1
1
1
1
1
1
1
1
1
1
1
1
1
r
Page 14
-------�
1993 BBS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D007
D007
D007
D007
D007
DOQ7
D007
D007
D007
D007
D007
0007
0007
0007
D007
D007
D007
0007
D007
D007
D007
0007
D007
D007
DQ07
D007
D007
0007
0007
0007
0007
0007
D007
D007
0007
0007
D007
0007
0007
D007
0007
D007
0007
D007
0007
0007
0007
D007
D007
D007
0007
D007
0007
0007
D007
D007
0007
0007
0007
0007
0007
D007
0007
0007
0007
0007
D007
D007
0007
0007
0007
Type
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M071
M072
M072
M072
M072
M072
M074
M074
M074
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
EPA-ID
RID051 507044
PAD003002375
PAD0030537Q9
VADOQ3175Q72
WID054105218
PAD002294585
PAD051 658573
UTD0471 09269
PAD003037934
PAD981 035652
WID980584239
PAD981 947294
WID006070320
PAD003025418
TX2571724333
NCD003459336
NJD045800521
MAD001 122381
OK0690540000
PAD981038078
CTD001449784
MND006255764
PAD002350833
AZD018517698
AZD008399636
ALDQ04012050
AUXX»653022
AtD000652677
AZD008399636
CTD001454032
CAD983610304
CA09811 66051
CAD0091 16229
CAD009114919
COD0070S8167
IAD096515440
1ND009422296
IAD000610436
IAD005278882
GA4170090001
KYD042S96981
IADOOS287768
KY8890008982
GAD981235823
KYD041977729
MID981088297
NJD986581213
MDD022S70923
MID981 195696
NJD002181386
NJD001599604
NCD045922986
OKDOQ0758557
OKD981 908395
NJD002181386
NCD986166189
MID005480900
NYD002115152
MOD00626938S
NYD006015580
NCD053487765
MAD001 122381
NY7213820940
NHD000636134
LAD0621 19771
NCD049773666
MOD000610816
MAD001 402320
NCD003229358
OKD051 049427
NJD002181733
Volume (tons)
1 1 9.956
1,369.91
483.723
7.2
24,020.02
17.001
7.900.00
62.252
9,231.51
7,799.55
422.212
274,000.00
2,175.07
6,133.81
8.53
8.985.60
3,152.63
23,617.70
28.42
1.251.04
255,608.84
25.201
14,810.00
8,781.14
0.25
450.36
13,559.37
11.52
0.055
3,065.05
- 2,925.87
18.766
62.402
27
718.3
8.34
5,519.98
349.124
697.224
2.75
420.336
8,239.14
843.83Z86
8,877.49
20,860.56
3,127.61
137.214
11.343
98,373.65
15,554.63
10,420.69
22,518
592.S7
40,213,51
17.431
2.168.47
212,477.06
48.372
5,057.34
62,110.17
1,751.46
23,617.70
147,40Z65
58,484.06
6,606.75
40,400.00
31.275
1.391.79
2,041.70
26.063
2.2S
SIC-Code
3499
3843
3724
3731
3429
3444
3448
3471
3592
3613
3644
3671
3694
3795
9711
3471
3369
3471
3799
3679
3721
3471
3471
3728
3764
3471
3471
3585
3764
3471
3471
3471
3471
2911
3089
3443
3471
3632
3949
9711
3479
3494
2819
3999
3452
3471
3291
3421
3471
3356
3471
3564
3724
3496
3356
3429
3471
3471
3586
3429
3471
3471
3489
3724
3471
3471
3714
3861
3634
3841
3423
Form Code
B114
B114
B115
8115
B119
B119
B119
8119
B119
8119
B119
B119
B119
B119
B119
BIOS
B107
B107
B107
B103
B107
B114
B105
B103
81 03
8105
B113
B114
B319
8103
8105
B105
8105
B114
8119
8103
B103
8103
B103
B103
B105
B107
8113
B114
B119
B
B032
B101
B101
B103
B103
B103
B103
B105
B106
B106
B106
B106
8106
8107
81 07
8107
8113
8113
B114
8114
8114
B114
B119
B119
B305
Source Code
A29
A22
A78
A22
A29
A29
A05
A22
A22
A22
A24
A22
A22
A29
A49 -
A29
A22
A24
A22
A22
A22
A22
A22
A22
A22
A22
A22
A29
A01
A22
A23
A29
A78
A09
A22
A24
A22
A29
A22
A01
A24
A22
A77
A29
A22
A
A75
A22
A22
A02
A29
A26
A01
A22
A03
A22
A22
A22
A22
A22
A22
A24
A22
A27
A31
A75
A78
A94
A22
A49
A22
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 15
-------�
1993 BRS Data (GM Form) - TC Metaf Wastes Managed On-stte
Waste Codes
DO07
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
CXX)7
D007
D007
D007
D007
0007
D007
0007
0007
D007
D007
D007
D007
D007
D007
D007
0007
D007
0007
0007
D007
D007
Type
MQ77
M077
M077
M077
M077
M077
M077
M077
M077
M077
M078
MOTS
M078
M078
M078
M078
MOTS
M078
M078
MOTS
MOTS
M078
M078
M078
MOTS
M079
M079
M081
M081
M082
MOSS
M091
M092
M092
M094
M094
M094
M094
M094
M101
M101
M101
M101
M111
M111
M111
M121
M121
M121
M121
M121
M121
M121
M121
M121
M121
M122
M122
M123
M125
M125
M125
M125
M12S
M125
M125
M125
M125
M125
M129
M129
EPA4D
TXD098292246
WID9807920S3
PAD002324978
PAD086718566
PAD987283S20
PAD045388972
PAD004317327
WID1 02220704
WID980584114'
W1D006125215
AZD982486169
ALD000615583
CAD008306482
CAD981 166051
CAD008314908
CA0009140120
CAD00838247S
NJD01 1417516
NCD0672037S2
NCD083673590
MDD003062213
NJD002365930
PAD067392902
PA0004326542
PAD002298032
OHD083377010
ORD018216887
NY0980S92497
NHD048724173
TX0007378995
NYD002047967
NJOOQ2385730
MAO980525638
TXD00736S984
NC1 170027261
NC1 170027261
NC1 170027261
NC1 170027261
NC1 170027261
CAD000093500
CAD000086686
CA0000086686
KSDOQ7233323
OHD083377010
MOT300010022
TXD065099160
AZD058787086
AZD980896310
AZD982486169
COD007059439
FLD040216764
CTD990672081
ILD005093109
TND047000898
TND077647832
TXD082688896
AZD982401085
CAD000030494
WVD005005509
CTD990672081
ILD005266168
ILD006317614
IAD005289806
OHD083377010
MID005356621
MED982766750
MID005344973
TND071530125
PAD982578072
WAD988512S54
WAD02131S427
Volume (tons)
16,8
3,858.75
9,800.00
425,4
11,455.00
364.189
1,559.42
4.507
135,204.34
11.208
508.T1
9.712
5.25
*4.691
4
449,115,27
164.346
6,644.41
750.626
217.908
8,757.30
734,407,84
3,060.10
32.237
9,500.72
0.234
125.384
26.288
51.25
76,340.80
3,567,02
194,156.50
0.744
39,710.87
4.95
12.817
2.15
2
15.75
28,305.60
2.064
10,765.84
0.25
2.106
9.592
35.5
19.813
2.36
78.85
13,850.81
91,326.11
2.099
110.863
9,084.03
9.47
73,541.13
48
0.42
561.45
50,523.87
3.6
6.987
5,735.61
0.857
78,190.16
75.603
0.5
1,675.35
233.24
59.4
8.01
SIC-Code
3446
3316
3354
3479
3548
3824
3341
3471
3999
3471
4911
3471
3471
3511
2499
3721
3315
3625
3714
3471
3313
3471
3229
3949
7389
3471
3861
2869
3479
2869
3451
3721
" 9711
9711
9711
9711
9711
3452
3491
3491
3471
7389
4741
3324
3672
3471
3999
4911
3724
3471
2819
3524
3764
2879
3724
3021
2851
3523
7389
3471
3498
3471
3444
3444
Form Code
8101
B105
BIOS
B105
B105
B105
B107
B107
8113
B103
B119
B103
BIOS
B106
B114
B119
B103
B103
B103
BIOS
B119
B103
BIOS
B105
B105
B105
B219
B208
B114
B119
B119
B106
B113
B114
B114
8209
BIOS
B114
8114
B114
B409
B319
B103
B105
B114
B103
B105
B114
8114
B113
B102
B113
B114
B114
B114
B119
B103
8103
B5O5
8114
8119
8119
Source Code
A21
A22
A23
A02
A26
A22
A72
A22
A79
A31
A99
A37
A29
A03
A61
A29
A02
A22
A29
A22
A61
A22
A22
A22
A22
A99
A32
A29
A37
A29
A01
A21
A06
A09
A22
A21
A02
A04
A06
A22
A21
A02
A29
A31
A23
A99
A31
A02
A75
A06
A19
A04
A31
A49
A09
A22
A22
A26
A38
A29
A •
Origin Code
1
1
1
1
1
1
3
1
1
1
1
1
1
1
2
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 16
-------�
1993 BBS Data (GM Form) - TC Meta! Wastes Managed On-site
Waste Codes
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007 •
D007
D007
D007
D007
D007
D007
O007
D007.
D007
D007
D007
D007
DQ07
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007D008
D007D008
D007D008
D007CXX58
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
DC307D008
D007D008
D007D008
D007D008
D007D008
D007D008
Type
M129
M129
M129
M129
M129
M129
M129
M132
M132
M132
M135
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M141
M141
M141
M141
M141
Ml 41
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M999
M999
M024
M032
M032
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M043
M043
M043
M043
M049
M049
M061
M071
ERA-ID
WAD038529137
WAD981772957
WAD988512554
WAD988476149
WAD01 0211415
WAD041337130
WA1170023419
LADOQ0777201
TN4210020570
TXDOS7408924
MID057004871
TND003374683
TND003381225
TND007022072
TND0424S4587
TND054879002
TND071 530620
TND095050Q19
TN0101768182
TND175237536
TN 0980837892
TND980845838
TND991279563
TN0890090004
TN3890090001
WAD980723449
AR0213820707
WA1 17002341 9
WA21 7002341 8
WA921 4053465
WA9571924647
WA7890008967
WA1 17002341 9
WA2170023418
WA9214053465
WA7890008967
WA1 170023419
WA2170023418
WA9214053465
WA9571 924647
WA7890008967
WA1 170023419
WA21 7002341 8
WA921405346S
WA7890008967
WA1 17002341 9
WA1 17002341 9
CAD086510005
W1D003967148
MOD980740906
CAD982032229
MIDOQ5356621
WA1891406349
WA2170023418
WA921 4053465
WA7890008967
WA1 17002341 9
WA1 17002341 9
WA7890008967
WA2170023418
WA7890008967
WA7890008967
WA1 17002341 9
OHD04841566S
NYD98Q592497
NYD980S92497
NYD980592497
TNDQQ3376928
TN8570024044
COD980591184
DC2200907812
Volume (tons)
75.46
25,144.00
59.4
19.35
123.8
1.209.300.00
2.02
0.01
2.22
0,01
9.346.82
54.895.10
589.25
27,303.36
2.981.99
16,757.12
23,838.42
36,876.22
27.01
60.58
8,377.58
4,519.48
10.091.54
0.63
6.87
126.46
5.778
2.75
0.236
0.165
11.33
0.12
1.84
0.21
0.378
0.012
0.22
0.046
0.18
0.01
0.421
0.84
0.42
9.45
0.225
Z35
22.57
51.148
0.075
6.612
77,796
1,774.69
2.16
46.126
0.084
0.81
5.65
35.63
0.002
0.619
8.11
0.01
0.17
1.65
0.974
0.282
0.507
0.93
8.7
0.825
765.026
SIC-Code
3471
3471
3471
3479
3593
. 3728
9711
4953
3471
3728
3489
9711
9711
9711
9711
9999
9711
9711
9711
9999
9711
9711
9711
9711
9999
9711
9711
9711
9999
9711
9711
3728
9511
3086
3211
3471
491 1
9711
9711
9999
9711
9711
9999
9711
9999
9999
9711
4953
3861
' 3861
3861
2754
Form Code
B119
B119
B119
8119
81 19
B119
B119
B316
B114
B119
B310
B119
B119
B119
B119
B119
B219
8219
B219
B219
B319
B319
B319
B319
B319
B409
B409
B409
8409
B519
B609
B115
B001
B203
B314
8103
B119
B119
B219
B319
B319
B409
B519
B009
B307
B319
8107
Source Code
ASS
A31
A58
A21
A59
A09
A78
A22
A
A
A59
A08
A21
A22
Origin Code
1
1
1
1
2
1
1
1
1
1
1
1
1
Page 17
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008D009
D007D008D009
D007D008D009
D007D008D009D01 0
D007D008D010
D007D008D011
D007D008D011
D007D008D011
D007D009
D007D009
D007D009
D007D009
D007D009
D007D009
D007D009
D007D009D011
D007D009D011
D007D010
D007D010
D007D010
D007D010
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011 '
Type
M071
M071
M071
M071
M071
M071
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M078
M091
M091
M091
M091
M101
M111
M111
M123
M125
M125
M125
M125
M125
M129
M137
M141
M141
M141
M141
M141
M141
M141
M141 .
M141
M141
M039
M137
M141
M077
M061
M043
M077
M141
M039
M041
M043
M043
M043
M132
M141
M039
M141
M032
M081
M111
M111
M039
M039
M039
M039
M039
M039
ERA-ID
IAD005300751
IAD00080S168
IND01 652001 7
NCD002571438
NCD057927857
PAD004327987
AZD041 456872
AZD008399636
AZD982479727
CAD098385875
CAD097030993
CAD009630708
IND074068610
IND052959640
MAD041710609
NYD055865125
TX2571 724333
VTD001 075894
IND01 652001 7
IAD005269527
NJD002385730
NJD00238S730
NJD002385730
CAD983613019
COD991 300484
I04890008952
VTD002068856
CA2890012923
IAD005289806
KYD006386395
MAD001119502
TXD008135618
WA1 17002341 9
TND982157570
MAD001 028760
WA1 17002341 9
WA7890008967
WA2170023418
WA7890008967
WA1891406349
WA2170023418
WA9214O53465
WA7890008967
WA1 17002341 9
WA7890008967
TN3890090001
WA7890008967
IAD005300751
COD980591184
NYD980592497
NYD002066173
WA921 4053465
WA7890008967
KSD981506025
OHD048415665
NYD980592497
TXD008092793
TXD008092793
WA7890008967
WA7890008967
WA7890008967
KSD007145956
NYD980592497
OKD000758557
OKD000758557
WA21 7002341 8
WA9214053465
WA7890008967
WAD061 670766
WA7890008967
WA7890008967
Volume (tons)
45.872
3,042.56
112.594
3,127.61
25,370.73
583.82
47.668
5
1.147
26,237.72
583.34
128,386.99
46.706
45,633.40
27.022.52
345.707
134.95
219,182.65
119.266
669.415
32,410.90
323,594.20
346,760.30
750.024
190.934
0.269
0.685
0.154
700.386
1.375
0.08
854.02
35.63
6.04
3.015
5.65
0.117
7.702
0.79
2.16
11.529
0.084
0.45
0.17
0.03
20.05
0.034
110.092
0.206
' 2.015
741.606
0.002
0.04
1.01
0.8
0.016
17.8
108.5
0.044
0.004
0.004
13.44
0.212
4.455
1.359
0.25
0.89
0.06
1,213.30
0.01
0.09
SIC-Code
3716
3523
3714
3471
3471
3494
3471
3764
3672
3672
3483
3678
3499
3714
3479
3262
9711
3724
3714
3531
2869
2869
2869
3479
9511
8733
3491
9711
3523
3229
2851
3471
9711
3671
9711
9999
9711
9999
4911
9711
9711
9999
9711
9999
9999
3716
3861
3264
9711
9999
4953
4953
3861
3313
3313
9999
9999
9999
2911
3861
3724
3724
9711
9711
9999
3728
9999
9999
Form Code
B105
B114
B209
B114
B114
B105
B119
B119
B203
B105
B110
B113
B101
B106
B105
B114
B103
8113
B209
B119
BT13
B114
B115
B113
B319
B519
B603
B114
B119
B319
B409
B503
B119
B103
B119
B219
B319
B319
B409
B409
B409
B409
B519
B319
B319
B105
B009
B105
B219
B319
B219
B319
B319
B319
B319
B119
B119
B207
B009
B106
B113
B
B119
B319
Source Code
A06
A21
A09
A22
A22
A29
A23
A22
A06
A22
A09
A22
A21
A22
A27
A09
A23
A31
A09
A01
A37
A37
A78
A05
A92
A69
A54
A94
A21
A89
A71
A05
A56
A06
A59
A31
A99
A94
A64
A64
A49
A59
A03
A01
A
Origin Code
1
1
1
1
1
2
1
1
2
2
1
1
1
,1
1
1
2
1
1
1
1
1
2
2
1
1
1
1
1
Page 18
-------�
1993 8RS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D007D011
D008
D008
0008
D008
D008
D008
D008
D008
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
Type
M072
M077
M077
M122
M129
M137
M141
M141
M141
M141
M141
M141
M141
M011
M012
M021
M021
M022
M022
M032
M032
M032
M032
M032
M032
M032
M032
M039
M039
M039
M039
MOSS
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
MOSS
M039
M039
M039
M039
M039
M039
M041
M041
M041
M041
M041
M042
M042
M043
M043
M043
M043
M043
M049
M049
EPA-ID
PAD059307553
ALD982097073
R1D001 198605
NYD981 138480
WAD061 570766
TN3890090001
WA7890008967
WA921 4053465
WA7890008967
WA7890008967
WA21 7002341 8
WA921 4053465
WA9571924647
MOD059200089
W1D006073225
FLD000824938
SCD052944295
COD980591184
TXD000782698
AZDi81683683
IADOOS269527
1LD056085S63
MED001094473
WID006073225
WID006073225
PADQ01502244
UT0571724350
TND0029922S7
WAD009480823
WAD0094S0823
WAD009249392
WA8570024200
WA1S91406349
WA1 170023419
WA21 7002341 8
WA4 170090001
WA51 70027291
WA921 4053465
WA21 7002341 8
WA51 70027291
WA21 7002341 8
WA7890008967
WAD089343354
WAD070046743
WAD1 18965748
WAD050154525
WA2170023418
WA7890008967
WA1891406349
WA21 7002341 8
WA7890008957
WA8570024200
WA1 17002341 9
WA21 7002341 8
WA2170023418
WA7890008967
WA7890008967
OHD004304689
OHD04S415665
MND006172969
WVD004341491
TXD981911209
KYD006373922
LAD000778514
1LD006271696
OHD048415665
NYD980592497
NYD980692497
NYD980592497
NCD033999764
TND003376928
Volume (tons)
54,600.00
754.54S
147,477
8.882
1,213.30
3.96
0.012
0.012
0.06
0.09
0.25
1.09
0.29
465.652
604.034
0.08
4,33
0.344
0.42
0.08S
354.252
85.326
1,402
135.552
252.404
25.5
6.047
8.829.40
0.01
0,19
1.75
0.26
5.636
1.297
796.916
0.11
1.85
2.74
414.65
12.83
1,003,73
0.993
22,695.00
21.079.00
8.8
1.1
0.95
0.46
0.666
0.92
0.42
0.16
0.052
6.88
63.47
3.93
0.33
7.574
2.752
0.275
10.4
53.42
114.095
0.8
74.962
38.738
3.016
0.067
0.451
0
2.41
SIC-Code
3471
3652
3229
8221
3728
9999
9711
9999
9999
9711
9711
9711
3339
3431
2061
4911
3531
3269
3663
3432
3432
3554
7538
3764
3764
3812
4581
4911
9711
9711
9711
9711
9711
9711
9711
9711
9999
3672
3672
3679
4131
9711
9999
4911
9711
9999
4581
9711
9711
9711
9999
999S
2821
4953
2865
2869
2369
9511
3482
4953
3861
3861
3861
3999
Form Code
B114
6101
B103
B106
B219
B119
B219
B219
B319
B409
B409
B409
B304
B319
B203
6203
B219
B206
B319
8205
B106
B205
B205
B207
8119
B119
B119
B119
B119
B119
B219
B219
B219
B319
B319
B319
B319
B319
B409
B
B206
B206
8302
B206
B319
B002
B009
B319
8303
Source Code
A22
A22
A49
A37
A72
A29
A06
A49
A49
A71
A49
A03
A40
A40
A59
A
A
A54
A54
A37
A54
A99 "
A09
A59
A21
A57
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
, 1
1
1
1
2
1
1
1
2
1
1
1
1
1
1
Page 19
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
0008
0008
0008
0008
0008
0008
0008
D008
0008
0008
D008
0008
DOCS
D008
0008
0008
0008
0008
0008
0008
0008
0008
0008
0008
D008
0008
0008
0008
0008
0008
0008
0008
O008
D008
0008
DOOS
0008
DOOS
0008
0008
0008
0008
0008
0008
0008
0008
D008
0008
0008
DOOS
0008
Type
M049
M049
MOS1
M061
M071
M072
M072
M074
M074
M074
M074
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
MOT?
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
MOT?
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077 .
M077
MOT7
M077
M077
M077
M077
M077
EPA-ID
TN421 0020570
TN8S70024044
TXD000803247
COD980591184
ILD083076018
NCD003459336
NYD002207256
AR0000064311
MDD003091972
PAD002392827
WID049991862
AZT050010636
ALD046481032
AL0Q00652677
AZT050010677
AZD008399636
AZD063274609
COD022664429
CA0008363962
CA0046607511
CAD059498428
CAD982S20421
CAD983594870
CADQ77264737
CAD016845414
CA0028348498
CAD982443517
DEDOD2369205
CADOS5764575
CA0983614835
CA000835814S
CTD0011 70257
CTD982543S71
CTD001 183763
CAD980893069
CAD008344285
CAD009111212
CAD981 632979
1DD984669424
1LD005149505
IU3001899772
IND000810903
IND985104736
IDDS84666669
IDD009066481
IND057520868
IAD040611121
KSD065755100
IAD096526108
KSD065755100
KYD079674016
GA4170090001
MND08S114890
NCD041230418
NYD001612423
NCD0498422S5
MOD07S888487
NCD981014996
NCD000615872
MAD980730857
MAD981204316
NHD980671077
MAD9S5275569
NCD045646924
MDD0648469S9
NYD002241982
MOD003S37271
NVD9824672SO
MND006147268
MID006021414
NCD986186369
Volume (tons)
0.02
0.91
11.77
13.887
79.65
5,391.36
129.316
6,580.26
63,019.18
1.278
1,290.12
33.708.85
5,421.18
27.15
459.548
0.75
29.275
34.195
37,425.28
828.161
82.569
982,912.97
9,726.34
10,842.37
2,627.19
94,952.46
23,443.47
31,926.61
193.807
146.63
28,392.08
9,599.71
40.367
13.511.26
191
64,818.24
961.405
25.665
7,660.42
3.591
606.833
18,569.64
18,619.68
82.722
355,225.17
11,380.60
46,959.17
43,687.42
47,476.74
1.845
1.85
3.725
10.942
4.353.34
44,682.04
4
18,014.40
3,057.48
2,282.11
8.257
4.17
8,525.54
43.466
32,561.72
6.672
715.6
148.624
4,000.14
386.781
1,642.56
2,882.83
SIC-Code
4231
3494
3471
3471
3482
3713
3471
3679
3451
3341
3585
3672
3764
3672
3471
3672
3672
3672
3672
3672
3471
3672
3672
3672
3711
2819
2819
3471
3471
3483
3672
3672
3672
3469
3691
3482
3672
3679
3714
3714
3482
3482
3471
3714
3714
3714
3714
3672
9711
3669
3471
3499
3672
3672
3678
3678
3841
. 3672
3672
3471
3471
3672
3672
3672
3714
3679
3714
3262
Form Code
B206
B114
B103
B107
B114
8119
B107
8114
8106
B113
8114
8114
8119
8219
B103
B103
B103
B103
B103
B103
BIOS
8105
8105
B105
B113
B114
B114
B114
B114
B114
B114
B119
8119
B204
8319
B103
8103
BIOS
B105
8105
B106
81 06
B114
B114
B114
8119
B206
B219
B519
B101
B103
B103
B103
8103
B103
B103
B103
BIOS
BIOS
B106
B106
8106
B106
B106
B106
8113
81 13
8114
Source Code
A54
A06
A22
A22
A92
A29
A22
A22
A27
A72
A32
A05
A22
A49
A22
A22
A22
A22
A22
A22
A22
A22
A22
A31
A06
A09
A09
A22
A22
A19
A06
A01
A05
A40
A57
A49
A01
A22
A05
A05
A03
A19
A22
A02
A49
A22
A54
A29
A99
A29
A22
A22
A05
A22
A22
A31
A19
A05
A22
A03
A22
A01
A01
A29
A03
A92
A89
A75
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 20
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
DOOS
0008
D008
0008
0008
0008
D008
0008
0008
0008
0008
0008
0008
0008
DOOS
0008
0008
0008
0008
0008
0008
0008,
0008
0008
0008
0008
0008
0008
0008
0008
D008
0008
DOOS
0008
0008
0008
0008
0008
0008
0008
0008
DOOS
DOOS
0008
0008
0008
0008
0008
DOOS
DOOS
0008
DOOS
0008
0008
0008
DOOS
DOOS
DOOS
0008
0008
DOOS
DOOS
D008
DOOS
DOOS
DOOS
0008
D008
0008
0008
0008
Type
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
MOT?
M077
M077
MOT7
MOT7
M077
M077
M078
M078
M078
M078
M078
M078
M078
M078
M078
M081
M081
MOSS
M091
M091
M092
M092
M092
M094
M094
M101
M101
M101
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M112
M112
Ml 12
M119
M121
M121
M121
M122
M122
M122
M124
M124
M124
M124
EPA-ID
NJD002325074
MNDQ061 47268
MID038624508
NCD980843866
NYD001 325661
NED03S093053
TXD048916357
TXD081543910
PAD981 104110
PAD054145842
PAD092868793
WID006073225
WID982221350
UTD05609S334
VTD00208S108
PAD044366003
PADOOQ796334
TX2571724333
AZD982486169
AZD982486169
FL689009Q008
CAD021221304
MND001037639
NCD982077S70
MND000819292
MND0061 47268
PAD092S68793
NYD002241982
NYD002241982
TXD000461533
CAD1 13295877
NJD002385730
CTD058509712
NCD981744618
TX721 3821831
CTD043036995
NJD048608897
CAT080010804
UVD985224443
MID099124349
ALD000622464
ALD046481032
CAD982412165
IND0050819SS
IDD0731 14654
GAT000001971
IND064708S45
IND005081955
NJD002385730
NJD002385730
NJD002385730
NCD986181451
NJD002385730
ORD027615186
LAD008184137
MOD030712822
NJD002385730
GAD098583909
ORDOS0955848
VAD003444379
IOD984673251
AZD982486169
NJD002173946
WID03S983532
1D4S90008952
NED007257603
MID00539083S
FLD980837744
CAD009111212
CTD0011837S3
NYD055865125
Volume (tons)
3.80Z62
545.913
157.404,95
212.67
207.786
11,59£66
2.75
1.34
11,414.00
125
31,518.57
825.55
7,980.24
19,623.69
87,673.06
6,005.00
1,442.00
11.04
52,4
104.8
28.351
8.3S3
41.564
875.73
867.389
12,138.51
2.058.04
2,175.30
184.8
1,200.00
14.694
3,235,94Z50
533.978
2.25
1,934.88
138.605
4128
4.55
14.259
80.803
4.37
25,835.28
36.7
911.1
0.005
8
244.35
124.3
34.286
4.05
34.942
7,935.00
30.34
4,532,54
10.499.00
6,506.06
6.61
0.125
474.706
23.603
27.9
52.4
502.168
112.235
3.665
325.471
39.877
75,913.66
1,025.69
2.877
184.066
SiC-Code
3262
3679
3714
8734
2899
3676
3229
3262
3672
3471
3612
3672
3724
3229
3678
9711
3471
3471
3671
3672
3672
3262
3672
3679
3672
3672
3672
2869
3429
2869
2892
2869
3483
3672
3672
3679
1799
2851
4953
3312
3672
3432
4953
1622
3369
3432
2869
9511
2869
3253
9511
9999
3341
3341
2869
2824
3339
3499
3643
3471
2892
3672
8733
3482
3432
3672
3469
3672
3262
Form Code
B114
B114
B114
B114
B119
B502
B103
B105
BIOS
B105
B106
B106
B113
81 13
B119
B119
B207
B103
B106
B114
B114
B106
B114
B114
B114
8105
8219
B219
B115
B114
B114
8114
8316
B106
81 13
8106
B319
B519
B519
8219
B304
8403
8304
B310
8319
8319
B319
8301
B301
8302
B302
8302
8302
8304
8304
B319
8219
B319
8319
B302
8114
B114
8103
8113
8
8106
B119
B204
8207
B114
Source Code
A75
A22
A31
A04
A92
A22
A31
A31
A22
A03
A21
A22
A31
A49
A22
A22
A31
A31
A99
A05
A91
A92
A31
A06
A22
A06
A19
A09
A31
A63
A19
A89
A09
A49
A01
A29
A03
A60
A37
A72
A01
A40
A53
A21
A49
A29
A99
A99
A99
A64
A08
A61
A72
A72
A99
A57
A49
A78
A69
A31
A75
A22
A06
A19
A05
A29
A40
A37
A32
Origin Code
1
1
1
1
1
t
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
2
2
2
2
2
2
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
Page 21
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
Type
M124
M124
M124
M125
M125
M125
M125
M125
M125
M125
M125
M125
M125
M125
M129
M129
M129
M129
M129
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M135
M135
M135
M137
M137
M137
M137
M137
M137
M137
M137
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M999
M021
M039
M039
M039
M137
M137
M141
M141
EPA-ID
OKD0071 94475
NHD001 078740
WID044394757
A2D009005422
CA2890012923
GAD984311860
IAD980630487
ILD005266168
OHD083377010
MID092947928
MAD985290055
MAD086534864
TND987777695
PAD002334373
WAD070046743
WAD1 18965748
WAD009249392
WAD009041443
WAD980723738
NJD002385730
NJD002385730
NJD002385730
NJD002385730
NJD002385730
MOD030712822
OKD000829440
NJ0002385730
NJD002385730
NJD002385730
TN21 70022600
TN8570024044
NYD00202656S
MND095296364
NMD097970065
TND067690040
TND9821 57570
TND987783123
TN0890090004
TN1890090003
TN3890090001
TN8570024044
WAD089343354
ARD006354161
GU41 70090027
WA2170023418
WA7890008967
WA1891406349
WA1 17002341 9
WA2170023418
WA9214053465
WA7890008967
WA1 17002341 9
WA2170023418
WA9214053465
WA7890008967
WA1891406349
WA1 17002341 9
WA2170023418
WA9214053465
WA9571924647
WA7890008967
WA9571924647
WID003967148
NYD096297544
WA7890008967
WA7890008967
WA7890008967
TN0890090004
TN3890090001
MID092947928
WA7890008967
Volume (tons)
259.5
3,486.03
9.109
2.01
0.211
5,387.52
5,040.00
2.7
0.042
4.193
22.5
0.622
0.28
679
21,079.00
8.8
1.75
10.55
92.44
34.286
4.05
11.664
34.942
30.34
6,506.06
489.134
0.525
6.61
69.6
0.01
1.2
16,697.40
3.24
4.631
5.004.35
0.92
0.8
1.33
1.1
167.29
37.87
22,695.00
4.207
0.337
0.95
0.21
0.67
0.52
0.92
0.009
1.404
0.06
67.24
0.31
82.659
5.63
0.78
37.91
4.01
0.044
0.4
0.13
0.2
22.754
0.25
0.027
• 0
14.28
0.1
0
0.027
SIC-Code
3494
3366
3554
3761
9711
3691
2851
3021
7389
3369
3841
3827
3672
3679
3812
2611
5093
2869
9511
2869
2869
9511
3341
3339
2869
2869
2869
3711
3471
3341
3672
4953
4225
9711
9999
4911
9711
9711
9711
9999
9711
9711
9711
9999
4911
9711
9711
9711
9711
9999
9711
9511
2821
9999
9999
9999
9999
Form Code
B114
B504
B205
B114
B119
B119
B301
B316
B
B302
B310
B105
B119
B119
B219
B319
B319
B301
B301
B302
B302
B302
B304
B316
B319
B319
B319
B101
B106
B119
B119
B206
B319
B119
B119
B219
B219
B219
B219
B219
B319
B319
B319
B319
B409
B409
B409
B409
B409
B409
B609
B302
B203
B319
B409
B
B319
Source Code
A40
A29
A35
A01
A19
A75
A61
A49
A
A40
A71
A31
A99
A99
A53
A99
A08
A72
A99
A59
A99
A56
A92
A03
ASS
A54
A58
A59
A09
A
Origin Code
1
1
1
1
1
1
1
1
3
1
1
2
2
2
2
2
1
1
1
1
2
1
1
2
2
1
2
1
Page 22
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D008D009
D008D009D0100011
D008D010 i
D008D010
D008D010
D008D010
D008D010
D008D010D011
D008D010D011
D008D011
D008D011
D008D011
D008D011
DQ08D011
D008D01 1
D008D011
D008D011
D008D011
D008D011
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
Type
M141
M039
M039
M112
M125
M137
M141
M039
M141
M039
M039
M039
M039
M043
M077
M141
M141
M141
M141
M012
M012
M012
M014
M032
M032
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M041
M041
M041
M043
M043
M043
M043
M044
M049
M061
M074
M077
M077
M077
M077
M077
M078
M081
M081
M091
M111
M12S
M125
EPA-ID
WA78900Q8967
WA51 70027291
WA7890008967
R.D984243097
MID092947928
TND981479777
WA7890008967
WA1 17002341 9
WA1170023419
WA1 17002341 9
WA2170023418
WA789Q008967
WA7890008967
NYD980592497
MAD063894786
WA1 170023419
WA2170023418
WA7890008967
WA7890008967
DE0003913266
TXD056263528
TXDOS6263S28
LAD062666540
MNT280010414
LA0062666540
TN0003337292
WAD009249392
WA1891406349
WA2170023418
WAS1 70027291
WA9214053465
WA21 7002341 8
WA2170023418
WA921 4053465
WA7890008967
WAD009252297
WA21 7002341 8
WA5170027291
WAS170027291
WA7890008967
WA1170023419
WA7890008967
WA1 17002341 9
WA2170023418
WA5170027291
WA921 4053465
WA7890008967
WA7890008967
OHD004304689
OHD048415665
UTD981 552177
OHD048415665
MID000724724
NYD980592497
UTD981552177
YWD000809012
TN4210020570
COD980591184
GAD099303182
KYD006370167
ILD001 899772
NCD000648402
TXD056263528
W1D046536231
GAD040690737
NYD980592497
NYD980592497
NJD002385730
ALD000622454
ALD004019642
CA2890012923
Volume (tons)
0
0.008
0.04
118.966
3.463
8.97
0.042
0.2
0.2
0.11
0.02
0.24
0.06
0.133
26.841
0.11
0.016
0.24
0.06
13
5
2.5
32.5
0.221
5
25.8
0.04
0.03
0.319
0.003
1.59
0.73
0.28
0.11
1.285
325,000.00
0.03
0.024
0.99
0.041
0
0.017
2.595
0.55
1.088
0.42
4.007
0.002
0.225
1.95
0.022
5.51
0.225
0.032
0.02
0
1.46
6.583
19.710.00
526,776.19
4.772
1,339.07
302,950.00
51,893.45
639,254.70
0.226
2.267
787,297.50
0.25
261,814.78
2.756
SIC-Code
9999
9711
9999
4953
9999
9711
9711
9711
9711
9999
9999
3861
3471
9711
9711
9999
9999
2812
2812
2812
8221
2812
3812
4911
9711
9711
9711
9711
9711
9711
9999
2611
9711
9711
9711
9999
9711
9999
9711
9711
9711
9711
9999
9999
2821
4953
9999
4953
2899
3861
9999
8221
2812
2812
3679
3692
2812
2819
3861
3861
2869
4953
2812
9711
Form Code
B409
B319
B304
B
B219
B319 .
B319
B319
B319
B319
B409
B310
B106
B319
B319
B319
B409
B319
B302
B519
BOOS
8519
B119
B119
B119
B119
B119
B219
B219
B319
B319
B319
B319
B319
B409
BOOS
BOOS
B009
8003
B701
B106
B114
B114
B102
B113
8119
B114
B114
B114
B114
B319
8119
B319
Source Code
A78
A
A19
A03
A56
A60
A36
A94
A36
A
A
A94
A94
A59
A94
A59
A04
A49
A92
A69
A89
A63
A09
A57
A63
A89
A75
A59
Origin Code
3
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
2
1
2
1
1
1
1
1
1
Page 23
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-stte
Waste Codes
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
0009
0009
0009
D009
D009
D009
D009
D009
0009
0009
D009
D009
0009
D009
D009
0009
0009
0009
0009
0009
D009
D009D011
D009D011
D009D011
D010
D010
D010
D010
D010
0010
D010
D010
D010
D010D011
D010D011
D011
0011
0011
0011
001 1
001 1
D011
D011
0011
D011
0011
0011
D011
0011
0011
0011
0011
0011
0011
0011
0011
D011
0011
0011
0011
Type
M125
M12S
M129
M129 '
M132
M132
M132
M132
M132
M132
M137
M137
M137
M137
M137
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M999
M039
M141
M141
M039
M043
M043
M077
M101
M122
M137
M141
M141
M014
M039
M011
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M0 14
M014
EPA-ID
OHD083377010
MID092947928
WAD009041443
WAD009249392
1DD081 830994
OHD045243706
TND003337292
TXD007330202
WVD004325353
WVD00500SS09
TND00309563S
TND003337292
TND003376928
TN3890090001
WAD009252297
WA2170023418
WA7890008967
WA1 17002341 9
WA2170023418
WA921 4053465
WA7890008967
WA1 17002341 9
WA2170023418
WA9214053465
WA9571924647
WA7890008967
WA1891406349
WA2170023418
WA921 4053465
WA9571924647
WA7890008967
WI0003967148
WA7890008967
WA921 4053465
WA7890008967
WA921 4053465
NYD980592497
NYD9805i24i7
MND006175871
PAD990753089
MAD001 003334
TN3890090001
WA921405346S
WA7890008967
NYDO43835081
WAD009249392
TXD064972847
AZD980816276
AKOO00643239
FLD00410410S
CAD980737837
FLD064824030
FL6800014585
CAD047791421
FLD980841746
CAD027828250
CAD028878Q15
CAD0631 10605
CAT0006186Q3
FL2570024404
CAD075301390
CAD076243815
FLD004100152
CAT000613372
CAD108148958
CAT000617597
CTD0011S95S7
FL2800016121
CAD0761 24981
FL81 70023792
CA0072S18S17
Volume (tons)
0.149
0.716
0.05
0,035
0.291
12
314.53
2
0.25
4.75
0.11
148.75Z49
41.13
146.19
325,000.00
0.044
0.04
0
1,142
2.17
0.109
£6
0.72
3.506
0.15
3.889
0.033
0.58
0.16
0.09
0.056
14.3
0.001
0.12
0.001
0.04
0.036
0.008
60.05
16,078.10
Z502
0.23
0.043
0
2.5
0.05
0.6
0.425
55.202
1.372
390.463
0.467
14.95
0.092
1.042
0.207
38.644
9.338
1.42
6.922
6.606
36.697
'0.327
0.676
63
S
1.271
37.132
58
0.44
0.004
SIC-Code
7389
2611
3812
2819
7389
2869
2869
2879
2812
9711
9999
9711
9711
9711
9999
9711
9711
9711
9711
9999
4911
9711
9711
9711
9999
9511
9999
9711
9999
9711
3881
3861
3471
3341
3471
9711
9999
3843
3812
3341
3483
1311
3812
2711
3761
9661
3499
3674
7996
8062
8733
8734
9711
3324
3369
3663
3672
8062
8221
8711
9711
8062
9711
283S
Form Code
B
B409
B316
B117
B313
8319
B119
81 19
B119
B219
B219
B219
8219
B319
B319
B319
B319
B319
B409
B4O9
B409
B409
8409
B001
B319
821 9
8319
B307
B319
B105
B511
B119
B219
B319
B102
B304
B106
B114
B101
B102
B102
B113
B114
B114
B114
B114
B114
B114
8114
B119
B119
B119
B119
B119
B119
B119
B119
B207
B207
B502
Source Code
A
ASS
ASS
A59
A99
ASS
A54
A91
A22
A78
A22
A37
A72
A37
A99
A49
ASS
A29
A37
A31
A37
A37
A3?
A72
A99
A49
A99
A99
A37
A49
A37
A37
A72
A31
A49
A37
A72
Origin Code
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.
1
1
1
1
1
1
Page 24
-------�
1993 BBS Data (QM Form) - TC Metal Wastes Managed On-site
Waste Codes
0011
D011
D011
D011
D011
D011
D011
D011
D011
0011
D011
0011
D011
D011
0011
D011
D011
0011
D011
D011
001 1
D011
0011
D011
0011
D011
D011
0011
001 1
001 1
0011
001 1
0011
0011
0011
0011
0011
D011
0011
0011
0011
0011
0011
D011
0011
0011
0011
0011
0011
0011
0011
0011
D011
0011
0011
0011
0011
0011
0011
0011
0011
0011
0011
0011
0011
0011
001 1
0011
0011
0011
0011
Type
M014
M014
M014
M014
MOW
M014
M014
M014
M014
M014
M014
M014
M014
M014
MOM
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
M014
MC14
M014
MOW
M014
MOW
M014
M019
M019
M019
M019
M019
EPA-ID
KYD074051202
KY5170024173
KYD06813S516
KYD006383665
KYD074047556
KYD068324037
KYD981 854987
KYD985085166
KYD985095140
KYD985083625
GA7360015450
KY621 0020479
ID68901 90089
KYD980844757
KYD1 30399363
MN098242S589
NJD980772636
MNDOOS147102
MND965684620
MAD001014174
NED986387041
MND981 536006
MND006159149
MAD041 710609
MND990860470
MND980700900
NYD052782497
MND985668227
MAD 980522565
MOD985SQ1380
MAD001 032358
MND981089790
NHD073976904
MDD121338297
MND006258115
MND0008 19268
MND079731519
ORD049793995
NYD981 875461
NYD000810986
MS6210809871
MND985667047
MOD007131113
MO4213820489
MAD00102732S
MND058330473
MAO086538394
MED037719846
NY6360010312
MAD071 723563
NYD000799239
MNT280010414
ME9S70024S22
NYD987000759
MAD991 289505
NMD041 358904
MO3213720979
MAD001411081
MND98082645?
MO3213720979
TX621 3820529
VTD001 075886
PADOW299S23
TXD988079307
WID981101165
VAD000820712
CAD008314908
104890008952
MND985703024
ME7170022019
NJD986614923
Volume (torts)
23.581
1.705
22.522
12.359
21.138
17.351
32.25
33.985
3.169
10.675
7.6
28.126
0.092
3.211
24.25
583.82
8.663
14.941
5.125
29.368
22.055
11.7
5.995
0.834
0.513
3.878
3
114.679
1.084
107.568
13.761
122.512
0.014
15.646
4.5
20
3
0.938
7.989
0.375
1.124
6
112.05
0.06
0.446
1.251
7.59
0.5
0.05
0.052
1.541
58.752
1.5
9.363
17.486
2.4
57.621
1,367.64
0.456
0.085
22.89
20.647
0.775
86.57
0.377
4.798
21.626
0.021
6.549
0.662
0.5
SIC-Code
8011
9711
8062
2796
3724
2711
8062
8062
8062
8071
9451
9711
8733
2759
8062
2711
2711
2752
2752
3555
7384
2752
2752
3479
3479
3672
2711
3679
3679
3471
1711
2731
2295
2711
2752
3489
3571
7221
7384
8221
9199
2752
2771
3482
3629
3672
3679
8062
8062
8062
8221
8221
9711
7384
8069
8221
9711
3679
9223
9711
2732
3993
7384
8221
8221
3511
8733
2752
9711
2752
Form Code
B101
B101
B103
B114
B114
8119
B119
B119
B119
B119
B119
B119
8219
B307
B307
81 01
B101
B101
B101
B101
B102
B103
B103
B103
B103
B105
B106
B106
B106
BIOS
B113
B113
B114
81 14
B114
B114
B114
B114
8114
8114
8114
B119
B119
B119
B119
B119
8119
8119
8119
B119
B119
8119
81 19
B219
B219
B219
B219
B316
B319
B409
8103
8114
B119
B119
B119
B119
B119
B114
8101
B102
BIOS
Source Code
A27
A37
A72
A72
A49
A49
A31
A37
A72
ASS
A29
A27
AS4
A35
A32
A29
A49
A49
A49
A49
A49
A49
A89
A49
A05 '
A37
A31
A29
A49
A23
A49
A72
A49
A31
A29
A99
A37
A32
A35
A37
A36
A49
A72
A49
A37
A99
A49
ASS
A37
A94
A94
A99
A72
A37
A99
A94
A49
A72
A99
A72
A31
A49
A99
A59
A94
A09
A49
A35
A72
A29
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 25
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed Orvsite
Waste Codes
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
001 1
D011
001 1
D011
D011
D011
D011
D011
D011
001 1
0011
0011
D011
001 1
0011
D011
D011
001 1
0011
0011
0011
0011
0011
0011
0011
0011
0011
001 1
D011
D011
D011
0011
0011
0011
0011
0011
0011
0011
0011
0011
0011
D011
001 1
0011
001 1
0011
001 1
D011
0011
0011
0011
0011
0011
0011
0011
D011
D011
D011
Type
M019
M019
M019
M022
M032
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M039
M043
M043
M043
M043
M043
M061
M072
M072
M072
M072
M072
M072
M072
MOTS
M074
M074
M077
M077
M077
M077
M077
M0T7
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
M077
MOTS
M078
MOTS
MOTS
M078
M078
MOTS
M081
M081
M081
M122
M122
M122
M122
M122
M122
M122
M122
EPA-4D
MED985474576
MND083467688
WID980283394
COD9805911S4
IND005460373
CAD000086686
TND98209S036
WAD1 18965748
WAD982652828
WA0009249392
WAD041 485301
WA2170023418
WAD009480823
WADOOS24i392
WA857Q0242QO
WA2170023418
WA7890008967
WA7890008967
WA7890008967
WA7890008967
NYD980592497
NYD980592497
NYD980592497
NYD980592497
NYD980592497
COD9805S1184
CTO001 170257
NJDOQ2452324
NCD003459336
MOD00068752S
RID0012O02S2
PA0005032750
RID001191931
CAD008289183
MAD001013515
NYD0021 12399
AZD009000050
AZD980896310
AZD008399636
CAD092606102
KS4213720499
WD000819110
IA0005272703
MDD0648469S9
MAD981203334
MDD064846959
NJ0002461234
MAD001419514 '
PA0005032750
PAD987270279
RID987489473
PRD090426180
PAD000504175
A2D9S1 583683
CA0982443517
CTD0006522G6
CAD109227496
CTD001147842
CAD079622S69
RI1 170024243
NYD980592497
NYD980592497
TXD047459029
NYD077299246
NYD982273955
NY0092360635
NYO982278079
NYD986876621
NYD980776827
NY0986884286
NYD982744039
Volume (tons)
2.669
239.976
0.337
0.439
7.524
1.109
32.03
0.11
10,500.00
0.69
3.33
0.013
0.26
0.11
0.08
0.531
0.405
0
0.613
0
0.243
1.361
0.392
0.139
0.83
0.614
5,239.36
11.376
12,579.84
81,900.00
28,766.17
18,993.96
154.295
8,991.24
1.251
3,502.92
0.584
^252
3.422
2,919.10
7.105
6,765.64
2.945.95
0.834
0.048
1.668
311.261
1,086.81
30,199.04
863.19
15.929.54
750.6
204.33
0.037
2.002
1.646
1.389
405.7
0.167
41.7
0.424
1.484
0.02
7.048
35.446
30.025
8.841
7.256
16.681
43.578
20.851
SIC-Code
7336
8011
8221
2761
3491
3679
3721
3812
8221
9711
3764
3812
4581
9711
9999
9999
9999
9999
3861
3861
3861
3861
3861
3471
3351
3471
3613
2819
3471
3471
3452
3471
3471
3724
3672
3764
3471
711
3613
3613
3672
3672
3672
3559
3053
3471
3499
3356
3499
3499
4911
3672
3672
3672
3731
3812
9711
3861
3861
2711
2741
2752
2752
2752
3555
3555
7384
Form Code
BIOS
B105
B219
B105
B119
B119
B119
8119
B119
B119
B219
B319
B409
B009
B310
B310
B310
B310
B107
B107
B107
B107
8107
B107
B107
B107
B107
B114
BIOS
8119
B119
B107
B101
B106
BUS
B103
B103
B106
B107
B114
B105
BIOS
B106
B106
B110
B119
8106
B110
B113
8113
8114
B119
B009
8119
B106
B106
BIOS
8106
B106
B106
B106
B106
Source Code
A37
A99
A27
A72
A49
A59
A32
A49
A78
A99
A22
A22
A22
A22
A31
A22
A22
A22
A31
A22
A37
A49
A22
A22
AST
A22
A05
A29
A3T
A29
A22
A23
A22
A22
A31
A22
A22
A49
ASS
A49
A49
A09
A49
A49
A59
A99
A37
A37
A37
A37
A37
A37
A37
A37
Origin Code
1
1
1
1
1
1
1
1
t
1
1
1
1
'1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 26
-------�
1993 BRS Data (GM Form) - TC Metal Wastes Managed On-site
Waste Codes
D011
D011
D011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
0011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
001 1
0011
0011
001 1
D011
D011
Type
M122
M122
M122
M122
M123
M123
M123
M124
M124
Ml 25
M125
M125
M125
M125
M129
M129
M129
M129
M129
M129
M135
M135
M137
M137
M137
M137
M137
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
EPA-ID
NYD982740342
NYD986891869
NYD986912558
NM8800019434
CA00083S291S
CAD981 388408
CAD981 388408
CAD981383573
MND03733S072
CA2890012923
KYD006380125
OHD083377010
NCD000830737
NVD986775781
TN3890090001
WAD009480823
WAD01 7404625
WAD009249392
WAD009249392
WAD041485301
CAD980737837
MND0481 66672
TND044204568
TN0890090004
TN1890090003
TN3890090001
WAD982S52828
WA2170023418
WA7890008967
WAD041485301
WA2170023418
WA921 4053465
WA7890008967
WA921 4053465
WA9571 924647
WA7890008967
WA2170023418
WA921 4053465
WA7890008967
Volume (tons)
30.025
14.595
9.1
2.193
23,570,87
0.09
0.552
0.73
0.033
5.189
39.531
0.773
3.037
14.25
10.11
0.26
2.52
0.49
0.31
0.12
19.517
12.187
336,4
0.59
13.26
9.51
10,500.00
1.57
0.381
2.28
0.7
0.025
0
0
0.001
0.359
0.03
0.37
0
SIC-Code
8099
8099
2759
9661
3231
8062
8062
4214
2835
9711
2796
7389
8221
8011
3764
3764
3812
3812
8221
2711
2043
7384
9711
9999
8221
9711
9711
9999
9711
9711
9999
9711
9711
9999
Form Code
B106
B106
B110
8119
B114
§307
8519
B114
81 03
8119
B113
81 13
B119
B119
B119
B119
B219
B219
B204
8114
B219
§119
8119
B219
B219
8219
8219
B319
B319
B319
8409
B409
B409
Source Code
A37
A37
A59
A49
A23
A76
A76
A37
A35
A49
A89
A37
A31
A35
A29
Origin Code
1
1
1
1
1
1
1
1
1
Page 27
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D004
D004
0004
D004
D004
D004
D004
D004
D004
D004
D004
0004
D004
0004
D004
D004
D004
D004
O004
0004
D004
D004
D004
D004
D004
D004
D004
0004
D004
D004
D004
0004
D004
D004
D004
D004
D004
0004
D004
D004
D004
D004
DOM
D004
0004
0004
0004
0004
D004
D004
D004
D004
D004
D004
D004
D004
0004
D004
0004
D004
D004
D004
D004
0004
0004
D004
D004
O004
D004
D004
D004
D004
D004
System Type
M141
M043
M041
M125
M129
M141
M049
M043
M049
M129
M999
M141
M141
M141
M049
M041
M141
M041
M041
M141
M121
M049
M039
M061
M137
M141
M049
M079
M119
M079
M141
M141
M141
M079
M091
M014.
M141
MQ79
M141
M061
M111
M125
M061
M111
M132
M111
M111
M119
M053
M043
M019
M141
M141
M141
M141
M043
M141
M141
M132
M141
M079
M141
M132
M141
M141
M077
M111
M053
M141
M061
M141
M043
M132
EPA ID
VAD0008 19466
WID096828744
PAD002368892
PAD004379061
PAD0636S2820
WID0061 12478
WID988633756
SDD987668134
SDD987668134
WID066881202
W1D003967148
VAD003123072
PAD982566341
PRD1 18150317
WVD060682291
PAD021 047584
PAD0714S33Q2
W1D000809012
WID988576146
PAD042250712
VA721 3720082
WID981534142
PRD000691014
TXD982758641
TXD982758641
TXD981 050578
WIT560012a20
PAD003038411
PAD01 4249635
W1D006429005
WID006429005
TXD008073926
TXD061555611
PAD014416762
PAD014416762
TXD058958265
UT321 3820894
PAD068570936
PAD002334753
TXD047830443
PAD003037132
TXD052486099
VAD046991097
PAD098439375
VAD0509903S7
PAD004326542
PAD003044609
PAD003044609
WVD005005087
VAD064872575
VAO064872575
PAD002389252
TXD077424885
VA0003123072'
TXD061555611
TXD982556524
TXD007321904
TXD04903820T
PAD002336410
PAD002336410
WID00642900S
WID00642900S
TXD087491973
TXD091 693622
PAD002327708
PAD002327708
PADO02327708
TXD047830443
VA821 3720321
PAD9811 11735-
PAD981111735
WIT560011629
WrT560011629
Volume (tons)
0,017
0,075
0,057
0,01
0.007
0.075
0.175
0.185
0,005
0.03
216,117
0.232
0.057
0.175
0.093
0.035
0.01
0.22
0.02
0.013
0.005
0.66
5,043
1.15
2.06
0.46
0.791
13.8
0.027
1.38
2.83
1.1
6.08
4.585
2.934
5.57
0.03
15,257
0,918
2.08
1.196
8.13
0.229
103.5
2.4
15
36,093
18.298
3.397
0,065
0,695
4,775
1.05
1.275
2.21
1.9
4.07
2.81
15.08
4.62
0.35
1.927
139.05
0.35
2.875
1.075
0.3
1.1
0
0.5
1.3
0.008
1.763
SIC Code
2111
2621
2891
3312
3624
3931
7342
8221
8221
2841
9511
3674
8731
2834
2869
3674
8062
8221
8221
8221
9999
9511
2835
3674
3674
3827
3089
3479
2899
2819
2819
3674
3674
3691
3691
7699
9711
8221
2821
3674
3086
4213
2824
9999
2911
3229
3399
3399
2869
3571
3571
3674
2821
3671
3674
3674
3674
3674
2819
2819
2819
2819
3331
3674
3674
3674
3674
3674
9711
2813
2813
2821
2821
Form Code
8001
B001
B001
B001
B001
B001
B001
8001
B001
8001
8001
BQ02
8002
8003
8003
8003
BOOS
8003
BOOS
8003
B004
B009
B101
B102
B102
8106
8109
8110
8113
8114
8114
8119
B119
B119
8119
B119
81 19
8119
B206
B206
B207
B211
B219
8302
8304
B304
8306
B306
8307
8307
B307
B307
B310
B310
8310
8310
831 Q
8310
8316
8316
B316
B316
8316
8316
8316
8316
B316
B316
8316
B319
B319
8319
B319
Source Code
A94
A59
A58
A58
A93
A22
A58
A94
A94
A59
A59
A29
A94
A59
A94
ASS
A94
A59
A59
A94
A94
A79
A09
A29
A29
A03
A09
A03
ASS
A82
A82
A09
A09
A37
A37
A22
ASS
ASS
A54
A54
A41
A19
ASS
A69
AS9
A19
A72
A72
A09
A57
A72
A08
A32
A78
A08
A29
A29
A49
A32
A32
A78
ATS
A32
A29
A56
A91
A91
A99
ASS
A91
A91
A58
ASS
Origin Code
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
2
1
1.
1
1
1
1
1
1
1
1
2
1
1
1
1
1
2
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Pagel
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D004
DOM
D004
DOM
DOM
DOM
DOM
D004
D004
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
DOM
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
D005
System Type
MM3
M111
M019
M141
M141
MM3
M043
M043
M132
M132
M141
M141
M141
M043
M043
MM3
M141
M141
M999
M999
M999
M132
M141
M132
M053
M141
M141
M999
M141
M041
MM3
M141
M043
M141
M141
MM3
MM9
M999
MM9
M141
MM3
M141
M141
M041
M049
M141
M061
M129
M141
M121
M041
M129
M039
M019
M999
M141
MM1
M061
M111
M141
M061
M111
M061
M019
M141
M141
M141
M061
M141
M999
M099
M111
M141
EPA ID
PAD004329835
PAD980550594
PAD980829287
VAD0031 23072
VAD0031 23072
TXD09639721 1
UTD073008237
VTD002084705
TXD095436747
UTD073008237
PAD003031846
TXD008073926
TXD095436747
TXD980627111
TXD988064564
PAD021M7584
VAD003123072
TXD981 153174
WAD009250820
WAD980836530
WAD988466942
UTD063314975
W1D006429005
W1D0061 05266
TXDM783M43
VAD000019364
VAD0031 23072
WAD009253246
VAD000819466
PRD091 197301
W1D076151364
WID084106137
WVDOM325353
PAD000766063
VAD000019364
PRD091 150060
WID982650160
W1D003967148
WVD060682291
PAD002348324
PAD021M7584
PAD020068383
PAD071 453302
W1D980283394
WID982650160
PADM2250712
VAD0031 09444
PAD004393468
PAD021 052329
W1D000808584
VAD982573248
SD2571 924644
VA721 3720082
PAD980829287
WA7890008967
UT321 3820894
RI81 70024790
UT921 0020922
PAD004322863
VA51 700001 81
UTD001 705029
PAD082038480
PAD987401221
PAD980829287
PAD980829287
VAD988186110
VAD988186110
WVD001 863679
PA521 3820892
WA8570024200
PR21 70027203
PAD082248972
PAD004322913
Volume (tons)
19.8
117.3
0.001
0.275
0.15
3.26
0.997
1.839
0.23
0.3
0.5
4.26
0.09
2.24
2.24
0.1
0.05
0.25
0
0.006
0.8
0.25
6.35
6.01
4.12
4.875
0.01
406.52
0.006
0.006
0.1
0.018
. 0
0.083
0.03
0.017
0.001
66.24
0.039
0
0.005
0.005
0.005
0.188
0.007
1.553
79.9
2.5
2.5
4.587
20.9
0.168
O.OM
2.847
0.03
0.007
3.282
0.287
0.4
0.146
0.645
0.22
0.705
82.782
0.8
0.315
0.01
0.42
0.006
0.01
0.125
15.456
0.11
SIC Code
2911
2911
3564
3671
3671
3674
3674
3674
3674
3674
3674
3674
3674
3674
3674
3674
3674
3827
2611
4931
6552
2911
2819
2013
3674
3621
3671
2812
2111
2834
2834
2869
2869
3312
3621
3663
8221
9511
2869
2899
3674
8062
8062
8221
8221
8221
3086
3312
3679
3531
3675
9711
9999
3714
9999
9711
9199
9711
3317
3731
3764
4789
3599
3714
3714
3731
3731
4011
9999
4581
9711
3315
2819
Form Code
831 9
B319
B319
B319
B319
B319
831 9
B319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8409
8410
8410
8489
8519
8701
8001
8001
8001
8001
8001
8001
8001
8001
8001
B001
8003
8003
8003
8003
B003
8003
8003
8003
8101
8106
8113
81 14
8114
8114
8117
8119
8119
8202
8206
8207
8209
8209
8210
8211
8219
8219
8219
B219
821 9
B219
8219
B219
821 9
B304
8306
Source Code
A36
A36
A57
A09
A99
A08
A09
A09
A09
A09
A09
A09
A09
A29
A29
A59
A91
A91
A32
A82
A82
A92
A49
A58
A94
A58
A59
A59
A94
ASS
A58
A94
AS8
A59
A94
A94
ASS
A94
A94
A59
A59
A94
A59
A25
A21
A60
A09
A59
A57
A57
A58
A54
ASS
ASS
A21
A57
A21
A41
A57
A59
A58
A59
A99
ASS
A93
A09
A57
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
1
1
2
1
1
1
2
1
1
1
1
1
1
J
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
Page 2
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D005
0005
DOOS
DOOS
D005
D005
DQOS
D005
0005
DOOS
DOOS
DQ05
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0005
0005
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0005
DOOS
DOOS
DOOS
0005
DOOS
DOOS
DOOS
DOOS
0006
DOOS
D006
D006
D006
DOOS
D006
D006
DOOS
D006
D006
0006
D006
D006
D006
D006
D006
D006
D006
System Type
M043
M043
M141
M043
M132 "
M141
M141
M141
M141
M077
M111
M111
M111
M141
M141
M132
M132
M111
M141
M141
M111
M132
M111
M111
M132
M111
M141
M141
M141
M141
M111
M019
M132
M111
M019
M043
M043
M125
M132
M061
M043
M141
M999
M041
M053
M053
M132
MOSS '
M042
M141
M999
M999
M999
M999
M061
MM;
M019
M999
M141
M019
M049
M141
M141
M141
M043
M141
M141
M141
M141
M039
M011
M141
M039
EPA ID
WIT56QQ11S29
TX8571S24091
PAD003031903
VAD043519248
TXD088474663
VTD055731038
PAD980712525
PAD980712525
PAD01 4249635
PAD002344315
PAD05762947S
UTD092024934
PAD086733540
W1D006075634
VTD001080126
PAD000797506
VTD001089226
W1D068321405
PAD005000500
VTD00206S654
VADOQ1 307495
PAD004322913
PAD000731505
PAD003044609
VWD060682291
WID006073225
PAD002103174
VTD055731038
PAD00239S325
PAD9B1S47294
PAD043882323
PAD043882323
W1D055302731
PAD046762258
PAD980829287
PRD000003400
PRD090413568
TXD988043469
WID088878533
PAD00438SSOO
PAD987401221
VA1 17002481 3
WADQ09285602
WID059972935
WID059972935
TXD041 067638
TXD041067638
WID059972935
WID006080683
WID006091417
WA2170023418
WA51 70027291
WAD009052432
WAD0092S0820
PAD041731670
W1D00612T347
VA7213720082
WIDOQ3967148
PAD000798132
WVD088911854
WVD060682291
PA4170022418
PAD002316305
WID086686003
PA4170000158
VTD060525151
WID9809044S2
WID000809012
VAD074747908
VA7213720082
VAD988210621
PAD002161685
VTD002084705
Volume (tons)
0,026
0.06
0.05
0.175
252
0.133
1.525
0.175
0.456
1
3.75
8,865
7.2
0.375
7.495
1.75
11.232
50.043
0.328
0.084
0.205
7.612
4.908
1,784
0.2
3
8.1
0.2
0.345
0.7
166.324
37.627
14.355
14.4
72.502
0.058
0.147
1
0.871
76.84
1.512
0.057
0.05
2.185
231 .666
105.49
458.45
6.195
4.519
0.525
0.27
0.09
0.038
0.65
0.135
0.012
0.013
329.049
0.022
0.015
0.004
0.009
0.005
0.001
0.2
0.035
0.002
0.068
0.03
0
0
0.165
. 0.043
SIC Code
2821
3585
3559
4789
2911
3423
3676
3676
2899
3312
3312
3339
3351
3400
3423
3466
3541
3545
3613
3648
3731
3842
9999
2819
2869
3261
3399
3423
3671
3671
3675
3675
3675
3676
3714
3841
3841
4512
3396
2843
3599
3731
3559
2821
2821
2869
2869
2851
3469
8741
9711
9711
2611
2611
2816
3639
9999
9511
4911
2821
2869
3731
3769
3844
4581
8062
8221
8221
8221
9999
3443
3469
3674
Form Code
8306
B306
B307
B307
8310
B310
8310
B310
B316
B316
B316
B316
B316
B316 .
B316
6316
B316
831 6
8316
B316
8316
B316
8316
B319
B319
B319
B319
8319
B319
8319
8319
8319
B319
B319
B319
8319
B319
8319
B404
8406
8409
B409
8409
8410
8410
B489
B489
B504
B604
B604
B001
B001
8001
8001
B002
BOOS
8003
BOOS
BOOS
BOOS
8003
BOOS
BOOS
BOOS
BOOS
B004
8009
8009
8009
Source Code
A69
ASS
A58
A08
A57
ASS
A29
A78
ASS
A25
A25
A56
A25
A26
A25
A58
ASS
A26
A25
A58
A59
A94
A69
A32
A36
A58
A57
A29
A2S
A29
A29
A57
A57
A57
A57
A57
A57
A99
ASS
A32
A41
A59
A32
A32
A32
A32
A76
A09
ASS
A94
A56
A57
A59
ASS
A94
A94
ASS
A94
A69
A22
ASS
A57
AS9
A94
A57
AS8
A22
ASS
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
3
1
1
1
1
2
2
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page3
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
0006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
System Type
M141
M011
M021
M077
M074
M077
M111
M099
M019
M141
M121
M141
M079
M029
M077
M141
M061
M141
M042
M032
M999
M079
M079
M121
M132
M137
M999
M079
M079
MOTS
M141
M079
M077
M079
M043
M141
M141
M079
M141
M041
M141
M141
M141
M051
M141
M039
M141
M021
M029
M029
M029
M021
M141
M021
M021
M141
M141
M141
M061
M141
M041
M061
M021
M141
M141
M029
M029
M021
M024
M029
M141
M029
M141
EPA ID
WI0982650160
WID0061 02545
PAD003036365
PAD000824730
RID987479003
RID987479003
RID987479003
PAD000765982
WY5571924179
WID0061 12478
VA4570024477
WID0061 05266
WID006070205
WID006078141
PAD002602209
PAD002602209
PAD037235116
WID981001878
TX257152410S
WID1 39773543
W1D139773543
VAD98104S537
VAD003132438
TX2571524105
TX2571524105
TX2571524105
W1D08S477925
VAD003132438
VAD0031 32438
PRD090031410
PRD090031410
RID001620210
WID066892498
PAD000765982
VTD000636449
VTD000636449
VA81 700241 70
VAD054039961
VA6170061463
PAD982674863
WID055302756
W1D1 141 05091
WID981091531
WID004939831
W1D0061 19812
W1D048027734
W1D006133441
WID028877074
W1D006075634
W1D068315373
PAD002343200
VA6690500909
W1D006091417
PAD1 14942832
VA1 170024722
PAO002282341
WID0061 26379
WID050262641
PAD004372363
PAD003037934
W1D006091045
PAD1 14942832
WID988567533
VA6170061463
PAD981111537
WID001 854454
PAD002602076
PAD003026531
WID000808287
WI0066857640
WID006069710
W1D023350903
WID076151364
Volume (tons)
0.001
0.005
0.12
1.2
12.51
37.114
26.856
0.2
0.129
0.125
0.184
0.102
0.284
0.247
0.021
0.242
3.899
0.423
0.02
7.33
16.72
0.7
3.63
0.69
0.22
0.23
0.75
2.547
0.688
5.5
3.2
0.252
0.229
1.187
0.12
0.02
1.49
0.209
0.24
7:343
0.288
0.479
0.848
0.355
0.126
0.087
0.076
0.245
0.129
0.017
0.017
0.182
0.061
0.175
2.046
0.056
0.155
0.077
29.7
0.825
12.902
'0.778
0.069
0.324
0.75
0.283
0.084
0.187
0.174
0.05
0.02
0.231
0.02
SIC Code
8221
3524
2099
2821
4911
4911
4911
4911
3761
3931
9199
2013
3634
3699
3843
3843
4011
7538
9711
3312
3312
3471
3577
9711
9711
9711
3554
3577
3577
3625
3625
3471
3613
4911
8221
8221
9711
3714
9711
4512
2752
2752
2752
3221
3317
3321
3321
3399
3400
3471
3996
4581
8741
9711
9711
3411
3548
5511
3339
3592
3523
9711
3511
9711
3714
2511
2754
3312
3321
3692
3824
5511
2834
Form Code
B009
B009
B101
B101
B101
8101
81 01
8102
8103
8103
B103
B106 •
B106
8106
B106
8106
8106
8106
8106
8113
B113
B113
8113
8113
8113
B113
81 14
8114
8114
8114
6114
8119
8119
8119
8119
B119
8119
8119
8119
8201
8202
8202
8202
8203
8203
8203
8203
8203
8203
8203
8203
8203
B203
B203
B203
B204
B204
B204
B205
B205
B206
B206
B207
B207
8209
8211
8211
8211
8211
8211
8211
B211
B219
Source Code
ASS
ASS
A07
ACS
A09
A09
A09
A21
A23
A22
A57
A07
A03
A03
A01
A01
A03
A19
A19
A51
A51
A01
A22
A02
A02
A02
A22
A01
A49
A19
A19
A01
A31
A56
A94
A94
A29
A69
ASS
A75
A09
A09
A09
A19
A19
A19
A19
A19
A19
A19
A19
A19
A19
A05
A05
A19
A05
A19
A49
A29
A89
A37
A69
A04
A09
A19
A06
A05
A05
A06
A09
A19
A19
Origin Code
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 4
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D006
D006
D006
0006
0006
D006
D006
0006
D006
D006
D006
D006
D006
D006
DOQ6
D006
0006
D006
D006
DOCK
D006
D006
0006
D006
D006
0006
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
0006
D006
D006
0006
D006
D006
D006
D006
0006
D006
D006
D006
D006
0006
D006
D006
0006
0006
0006
D006
D006
0006
0006
0006
0006
0006
0006
D006
D006
0006
0006
0006
0006
D006
0006
D006
0006
System Type
M141
M141
M141
M999
M141
M141
M141
M132
M119
M119
M111
M132
M119
M141
M119
M141
M111
M013
M111
M132
M043
M141
M043
Mill
M141
M141
M132
M132
M111
M141
M111
MU1
M141
M011
M132
M141
M019
M011
M011
M013
M141
M019
M011
M141 -
M141
M141
MOSS
M129
M129
M141
M141
M141
M141
M141
M019
M039
M141
M019
M019
M029
M141
M132
M043
M111
M141
M132
M141
M129
M141
M129
M141
M129
M111
EPA ID
PAD096837356
WID982650160
VA6170061463
WA7890008967
PAD003418746
VA1170024813
PAD041 552829
WVD005005483
VAD007941644
PR21 70027203
WVD988785150
VWD988785150
VAD054039961
TX321 3820738
W1D006091425
VAD046964748
SDD0061 98980
PAD987278082
TXD054385018
PAD075485938
VAD0023S21 10
VAD9825741 13
PAD046558037
PAD98091797S
VA1 17002481 3
VA5170000181
PRD980650709
W1D054105218
PAD004333860
VAD058909250
PAD005033055
VAD000819466
VAD010067171
PAD002387i26
TXD065096273
VAD000019364
PHD091 150060
VAD066000993
W1D05998004S
VAD001 307495
VA1 170024813
PAD003025418
PAD981036551
PAD000797951
VAD988171567
V ADS 382046 22
VA0572890002
SD2571 924644
VA8213720321
1X2571724333
UT321 3820894
VA51 70022482
VA61 70061 463
VA81 700241 70
UT921 0020922
VA7213720082
VTD002065597
PAD-1 73472788
WVD988784765
PAD987279049
PAD068570936
PAD987276573
WID006101695
PAD003044609
PA521 3820892
PRD090531104
VAD000019364
RID980671887
TXD981 050578
UT521 0090002
VA6170061463
UT0571 724350
PAD002294585
Volume (tons)
5.307
0.082
1.336
0.22
0.036
0,69
20
0.5
0.7
4.5
32
32
30.41
0.01
1.8
0.4
0.35
187.862
122
0.08
1.25
0.25
0,03
0.05
1.275
0.707
1.3
13.46
0.15
0.3
0.3
0.012
0.15
1.046
0.79
0.03
7.16
0.085
0.447
2.75
0.251
0.1
0.6
0.037
2.295
1.055
0.014
0.814
0.432
0.71
1.024
0.047
0.522
0.297
0.042
0.001
0.05
0.35
0.4
0.15
1.75
4.8
0.45
0.118
0.011
0.45
0.45
0.2
0.34
0.659
0.008
0.1
0.856
SIC Code
3721
8221
'9711
9999
2679
3731
3996
2869
4011
9711
3229
3229
3714
9999
2842
3585
3069
3341
3691
3479
3494
3599
3613
3674
3731
3731
3961
3429
3443
3679
3743
2111
2111
2834
2869
3621
3663
3672
3711
3731
3731
3795
3829
4911
5093
5093
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
3692
4922
4922
4922
8221
3315
3366
3399
3471
3613
3621
3822
3827
9711
9711
9711
3444
Form Code
8219
8219
B219
B219
B219
B301
B301
8302
8302
8302
B302
8302
B302
8302
B303
B303
B304
B304
B305
B307
B307
B307
8307
B307
8307
B307
830?
8307
B307
B307
8307
B309
B309
B309
B309
8309
8309
8309
B309
B309
B309
8309
8309
8309
8309
B309
8309
8309
8309
8309
8309
8309
8309
8309
8309
B309
8309
B309
8309
8309
8309
8310
8310
8310
B310
8310
8310
8310
8310
8310
8310
831 0
8312
Source Code
A22
A02
A19
A19
A99
A65
A99
A99
A29
A69
A69
A69
A69
AS?
A71
A57
A78
ATS
A56
A29
A38
ASS
A29
A01
A29
A60
ASS
A99
A93
A56
ASS
ASS
A49
ASS
ASS
A99
ASS
ASS
ASS
ASS
ASS
A57
ASS
A99
A99
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A02
A78
A32
A22
A09
A72
A78
A78
A09
A22
ASS
A29
Origin Code
1
1
1
2
1
2
1
1
1
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
2
Z
2
2
1
1
1
1
1,
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
PageS
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0006
D006
D006
O006
D006
D006
0006
D006
0006
D006
D006
0006
0006
D006
0006
D006
D006
D006
D006
D006
0006
D006
0006
0006
D006
D006
0006
D006
D006
D006
D006
'D006
D006
D006
D006
D006
D006
0006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
D006
0006
D006
D006
D006
0006
D006
0006
D006
D006
0006
D006
D006
D006
0006
0006
D006
D006
D007
D007
D007
D007
D007
0007
0007
System Type
M041
M119
Mill
M111
M141 ,
M111
M141
M111
M111
M111
M132
Mill
M111
M119
M132
M132
M043
M141
M141
M111
M999
M141
M111
M141
M111
M141
M141
M999
M119
M119
M999
M132
M141
M999
M141
M111
M132
M141
M119
M141
M132
M999
M132
M049
M999
M999
M111
M125
M061
M111
M125
M132
M141
M132
M101
M141
M141
M043
M132
M141
M141
M141
M061
M999
M021
M999
M999
M043
M141
M043
M013
M041
M061
EPA ID
WID000808147
WID980584114
PAD987360047
WID006121347
PA3170022104
PAD005029S82
VA6170061463
PAD003044609
PAD003044609
PAD003044609
WVD060682291
TXD0080i1290
PAD051146116
PAD981 044399
WID006101695
WID006101695
PA52138208S2
PA52138208S2
PA5213820892
RID001 620210
WAD000064642
VAD000019364
PAD980917975
TXD007321904
VAD003259561
PAD000441907
VA1 170024813
WAD033606203
RID000652354
PAD080719289
WAS570024200
W1D007862964
VA8800010763
WA21 7002341 8
VA61 70061 463
VA6170061463
VA6170061463
VA6170061463
PAD987356649
LTT1 57009001 8
PAD987332897
WAD009276197
PAD080635311
RID030284293
WAD061670766
WAD98O981583
PAD002124360
VA61 70061 463
PAD1 14942832
PAD1 14942832
PAD1 14942832
UT05717243SO
TXD008076846
TXD982562969
PAD980832307
PAD987362746
PAD003009461
TXD980874200
RID00119105S
VA5170000181
WID042622274
VA8170Q24170
TXD021 940416
WA21 70023*1 8
WID000805887
WAD980738033
WA1 17002341 9
WID096828744
PAD043394683
PRD091 197301
TX8571524091
TX8571 524091
TX8571 524091
'Volume (tons)
2.884
16.675
0.125
0.338
0.008
2.9
0.189
9.092
4.952
7.743
0,4
0.89
19.03
0.55
68.05
9.06
0.176
1.697
6.409
1.2
0.08
1.4
0.075
0.63
2.7
0.25
0.21
0.01
1.41
15.383
0.03
51.86
0.225
0.18
5.11
18.17
23.13
27.396
12.142
0.317
11.88
0.29
36.6
0.125
1.64
0
3.25
20
0.298
0.294
0.642
0,069
0.03
36.43
18.35
9.382
0.4
11.39
3.625
0.026
0575
0.114
11.39
1.37
0.03
1.67
0.33
0.225
0.1
0.003
11.21
3.52
3.25
SIC Code
2865
3471
3499
3639
4225
5047
9711
2819
2819
2819
2863
2911
3325
3341
3351
3366
3449
3449
3449
3471
3499
3621
3674
3674
3728
3728
3731
3825
3961
4512
4581
5093
9661
9711
9711
9711
9711
9711
9999
9999
2816
2911
3334
3674
3728
9621
3494
9711
9711
9711
9711
9711
2869
7699
3444
7699
3678
3494
3961
3731
7694
9711
3585
9711
9999
2421
9711
2621
2819
2834
4581
4581
4581
Form Code
B316
B316
B316
8316
B316
8316
B316
B319
B319
B319
8319
B319
B319
8319
B319
8319
8319
8319
8319
8319
B319
B319
8319
8319
8319
8319
8319
8319
8319
B319
8319
6319
B319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
S319
8403
8404
8409
8409
B409
B409
B489
B490
B504
8504
8506
8510
8511
8603
8603
B603
8609
8
8001
B001
8001
8001
8001
8001
Source Code
A32
A22
A73
A56
ASS
A22
A22
A57
A59
A99
AS9
A19
ATS
A78
A19
A56
A08
A08
A91
ASS
A19
A08
ASS
A19
A29
A29
A89
A29
ATS
A08
A22
A29
A29
A29
A29
A29
A56
A59
AS7
A58
A75
A08
A08
A08
ASS
AS9
A29
A22
A60
A22
A19
A29
A09
A60
A60
A09
A89
A
A59
A58
A58
A27
A27
A27
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1 •
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
1
3
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
Page 6
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
D007
0007
D007
D007
D007
D007
D007
D007
0007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
0007
D007 •
D007
0007
D007
0007
D007
0007
0007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
0007
0007
D007
D007
D007
0007
D007
D007
System Type
M111
M121
M141
M141
M999
M129
M049
M049
M041
M061
M043
M141
M141
M141
M141
M043
MQ41
M041
M041
M141
M132
MOSS
M079
M141
M043
M109
M141
M071
M019
M141
M141
M129
M141
M071
M049
M141
M077
M141
M011
M141
M071
M132
M089
M141
M132
M132
M053
M121
M141
M129
M041
M099
M141
M141
M141
M141
M071
M141
M011
M071
M141
M031
M141
M141
M071
M125
M077
M011
M072
M141
M041
M091
M121
EPA ID
TX8571524091
TX8571 524091
PAD0007979S1
VA6170061463
WID003967148
WID053691283
WVD060682291
WID066892498
PAD021 047584
PAD981730533
PAD000441907
PAD000621508
PADOQ1680719
PAD002316305
PA0020068383
W1D980904452
WID000809012
WID980283394
W1D980904452
PAD042250712
TXD026040709
VA721 3720082
WID006091003
PAD000621508
TXD980866990
PAD003032190
PRD980764401
PAD043891530
WY5571 924179
PAD00231630S
R1D001463090
SD2571 924644
VA51 70022482
WID1 08294281
VWD060682291
PAD004379061
PAD002324978
PAD002368066
RID987473022
WID980570113
WID006102545
WVD157634379
PAD046558037
TXD007321904
WID006092S55
TXD980626006
TXD063067466
VTD002068070
UTD980806236
PAD002282556
RID000001750
UTO988079042
VA61 70061 463
VA61 70061463
VA6170Q61463
VA6170061463
PAD000766162
PAD000766162
PAR»ooo633i
PAP000006331
PAD071457469
WID046535936
VA321 1220931
VA61 70061 463
VAD093561959
PAD987322286
PAD004322509
PAD002392827
WID006090732
WVD1 13433296
PAD021047584
PAD075995803
TX2571524105
Volume (tons)
5.51
1.74
0
0.029
1 ,637.26
1.35
0.121
0.214
0.03
0.005
0.035
0.023
0.1
0.531
0.005
0.005
0.24
0.05
0.04
0.018
0.15
0.016
33.797
1.425
0.55
69.7
0.2
60.44
0.425
3.957
0.459
7.582
0.382
0.85
1.749
4.5
37.686
3.375
4.541
0.12
1,450.56
0.262
0.4
0.19
0,275
1.62
29.9
0.506
0.813
0.66
0.237
0.229
0.664
0.004
6.048
0.073
0.229
12.969
58.47
9.055
0.2
1.594
0.09
0.029
218.091
1.8
120.405
47.054
1.251
0.25
1
421.115
9.6
SIC Code
4581
4581
4911
9711
9511
3483
2869
3613
3674
3679
3728
3769
3769
3769
8062
8221
8221
8221
8221
8221
2869
9999
3568
3769
3823
3829
2834
3229
3751
3769
3812
9711
9711
3492
2869
3312
3316
3444
3471
3471
3524
3531
3613
3674
3714
3721
3724
3728
3764
3823
3829
4225
9711
9711
9711
9711
2514
2514
9999
9999
9999
3592
3861
9711
2796
2851
3312
3471
3471
3471
3674
4911
9711
Form Code
6001
8001
B001
B001
B001
BC02
BOOS
B003
8003
BOOS
8003
8003
8003
B003
BOOS
BOOS
8003
8003
BOOS
BOOS
B004
B004
8101
B101
8101
B101
B102
B102
8102
B102
B102
B102
81 02
B102
B103
B103
8103
8103
B103
8103
8103
8103
8103
8103
8103
B103
B103
B103
81 03
B103
8103
8103
8103
8103
8103
B103
8103
8103
B103
B103
8103
8104
8104
8104
8105
B105
B105
B105
B105
BIOS
B105
8105
B105
Source Code
A27
A27
A57
ASS
A59
A89
A94
A58
A58
A58
A21
A94
A94
A94
A94
A21
ASS
A59
A59
A94
A59
A57
A57
A37
A21
A21
A99
A22
A57
A99
A01
A04
A22
AS6
A02
A29
A22
A02
A22
A22
A29
A02
A29
A27
A56
A29
A22
A29
A27
A27
A22
A69
A02
A27
A29
A94
ASS
ASS
A56
A56
A61
A22
A27
A22
A22
A31
A26
A22
A22
A22
AS9
A02
A02
Origin Code
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
Page?
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
DOQ7
D007
0007
D007
D007
D007
D007
D007
0007
0007
0007
0007
0007
0007
0007
0007
0007
D007
D007
0007
0007
D007
0007
0007
0007
D007
0007
D007
D007
D007
0007
0007
0007
D007
D007
D007
0007
0007
0007
0007
0007
0007
0007
D007
D007
O007
DOQ7
0007
0007
D007
0007
D007
O007
0007
D007
0007
0007
0007
D007
D007
0007
0007
System Type
M041
M119
M119
M011
M111
M071
M111
M071
M111
M043
M141
M011
M141
M141
M141
M129
M111
M042
M141
M041
M109
M071
M061
M041
M099
M141
M071
M077
M071
M013
M111
M141
M061
M141
M121
M129
M141
M041
M071
M041
M132
M141
M071
M014
M071
M141
M043
M129
M132
M141
M141
M141
M141
M141
M071
M111
M111
M141
M141
M041
M141
M091
M141
M129
M132
M071
M019
M071
M141
M071
M099
M111
M061
EPA ID
PAP000006909
WVDOQ07974SO
WID980792063
R1D937473022
PAD980715502
VAD003259561
W(T560010746
PAD981 108210
WID006097109
TXD039045968
VA1 17002481 3
PAD9873883C3
PAD987388303
UT321 3820894
PAD068730225
VA3971 520751 .
PAD004335154
TXD008135618
TXD008135618
PA2571 225349
WID066865163
PAD982365967
PAD981730633
TXD007341175
PAD002333490
PAD002324978
WID006119812 .
WID006077978
PAD004319802
WID0061 16529
TXD095214185
VAD988ia611Q
UTD000651653
VA6170061463
WVD980554703
RID001 199355
W1D980823876
TXD008079212
W1D981 529993
WVD005012851
TXD980864029
TX3213820738
PADOQ2378149
UTD033513S31
PAD067392902
VAD9882118SO
UT0571724350
UT0571724350
UT0571724350
PAD982364564
TXD007321904
PAD001680719
PAD002316305
PAD001680719
PAD049623937
PAD049623937
TXD00734Q797
PAD987267473
R1D001201508
W1D078673084
TX3571 924643
PAD981 043748
WID988635587
UT0571 724350
UT0571724350
PAD001 643691
VA7213720082
PAD041 529744
WID1 141 05091
WID981091531
PAD097153399
TXD982306144
PRD980759443
Volume (tons)
5.046
1.149
23,325
0.273
59.7
20.16
0.034
128.278
1.594
0.32
0.045
62.547
30.858
0.025
339.001
0.071
0.4
1.63
1.09
0.032
15.426
53.312
0.12
1.54
110.805
3
51.217
17.932
9.585
2.55
0.96
0.018
0.275
30.49
5.85
12.542
1.925
54.16
0.66
21.7
0,46
0.23
7.95
3.784
11.82
2.523
0.167
4.585
12.07
2.05
1.72
2.206
1.323
1.66
68.085
7.6
0.25
0.813
0.229
20.383
2.57
21.52
0.175
0.017
0.056
10.3
0
0.5
0.22
41.744
2.697
0.27
1
SIC Code
9999
3423
3446
3471
3471
3471
3471
3499
3625
3721
3731
3999
3999
9711
2821
9711
3312
3471
3471
9711
3429
3444
3679
3828
3313
3316
3317
3412
3479
3519
3724
3731
8221
9711
4911
2298
2621
2821
2869
2869
2899
2899
3465
3471
3471
3471
3479
3479
3479
3671
3674
3769
3769
3769
3812
3812
3827
3841
3951
3999
4581
3724
4011
9711
9711
3751
9999
2621
2752
2752
2842
2869
3399
Form Code
BIOS
81 06
B106
B106
8106
B106
8106
8106
B106
B106
B106
B106
B106
B106
B106
B108
B109
B109
8109
B109
B110
B110
B110
B110
B113
81 13
8113
8113
B113
8113
8113
6113
8113
8113
8113
81 14
8114
B114
8114
B114
B114
81 14
6114
8114
8114
8114
8114
8114
8114
8114
8114
8114
B114
B114
8114
8114
B114
B114
B114
B114
B114
B114
B114
B114
B114
8115
8117
B119
B119
8119
8119
6119
B119
Source Cocto
A61
A22
A21
A01
A03
A22
A22
A29
A03
A03
A22
A01
A01
A58
ASS
ASS
A03
A03
A03
A37
A03
AOS
A58
A27
A72
A29
A31
A09
A21
A22
A22
ASS
A94
A37
A
A33
A69
ASS
ASS
ASS
A56
ASS
A21 '
A22
A29
A29
A53
A53
A53
A57
A99
AOS
A53
A99
A29
A29
A19
A49
A22
A22
A29
ASS
ASS
ASS
ASS
A78
AS7*
A69
AOS
A22
ASS
A32
A09
Origin Code
2
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1 '
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
• 1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
3
3
1
1
1
1
1
1
1
l
PageS
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
0007
D007
D007
D007
D007
.0007
D007
D007
0007
D007
0007
D007
D007
0007
D007
D007
D007
D007
D007
0007
D007
D007
0007
D007
D007
D007
0007
0007
0007
0007
D007
0007
D007
D007
0007
0007
D007
0007
0007
D007
D007
D007
0007
D007
0007
0007
0007
D007
0007
D007
D007
D007
D007
D007
0007
D007
D007
D007
0007
System Type
M041
M061
M061
M999
M141
M081
M081
M077
M061
M061
M041
M999
M999
M141
M079
M141
M999
M141
M091
M141
M141
M141
M141
M051
M129
M021
M141
M061
M061
M071 '
M141
M141
M061
M111
M111
M141
M141
M132
M141
M141
M141
M141
M141
M141
M141
M141
M141
M129
M141
M041
M041
M141
M041
M041
M141
M141
M111
M061
M061
M141
M043
M141
M111
M111
M119
M119
M132
M071
M141
M043
M111
M132
M132
EPA ID
WIT560010803
PADQ56602923
TXD980699771
WAD000618140
PADS80829287
PAD0968373S6
PAD096837356
PAD987343860
PAD980714208
PAD980714208
VAD982366213
WA8570024200
WA21 7002341 8
UT3213820894
W1D000713115
PAD981043748
WA8570024200
PAD041 744236
TXD063101794
TXD981 055635
VA5170000181
VA61700614fi3
R11 170024243
PRD987370§39
PAO071 612683
WID0061 36659
PAD051 129757
VTD069911873
PAD987401221
W1D0061 26213
VA61 70061 463
VA61 70061 463
TXD041516709
PAD004322863
W1D988591061
VA6170061463
TXD065102105
PAD004320248
VAD988186110
VA1 170024813
VA1 170024813
VAD988186110
VA6170061463
VA8170024170
VA61 70061 463
VA61 70061 463
RM 170024243
UT05717243SO
VTD000791764
WVD04587S291
PRD1 56924573
TXD9880212S9
WVD009708702
WVD005005509
WID006077978
R1D001201508
inr9210020922
VA721 3720082
TXD980809677
VA1 17002481 3
WVDOQ5005509
PAD002316305
TXD988066189
PAD980550594
TXD00071t377
WVD982701732
PAD002342236
PAD059087072
VA6170061463
TXD008079212
TXD008079212
TXDOQ8079212
WVD005005509
Volume (tons)
0.241
0,228
1.6
0.02
0.18
271.8
851.7
2.025
2,473
0.577
53.902
0.3
0.09
0.245
23.016
1.835
0.03
3.4
24.71
2,192,98
0.003
0.955
0.01
0.5
2.2
2.135
0.175
3.424
1.831
9.882
7.81
7.732
98.1
0.2
0.88
0.01
4.13
0.33
0.21
0.002
0.005
0.174
1.934
0.063
0.22
3.633
0.115
0.001
3.65
197.6
1.54
4.34
1.08
0.06
0.16
0.413
2.301
0.03
0.44
0.52
4.377
- 6.852
28
21.4
2.75
906
254.6
0.05
1.953
7.4
15.29
31.81
40.945
SIC Code
3469
3479
3585
3679
3714
3721
3721
3728
3824
3824
3949
4581
9711
9711
3621
3724
4581
9999
2869
3721
3731
9711
9711
3612
2911
2621
3069
3545
3599
3621
9711
9711
2821
3317
9199
9711
3479
3429
3731
3731
3731
3731
9711
9711
9711
9711
9711
9711
3423
2821
2834
2843
2869
2879
3412
3951
9711
9999
2676
3731
2879
3769
2869
2911
3471
3471
3823
4953
9711
2821
2821
2821
2879
Form Code
8119
B119
B119
B119
8119
B119
B119
B119
B119
B119
B119
B119
8119
8119
8119
B119
B119
8119
8199
B202
B202
8202
B202
B203
B204
8205
8206
B206
B207
B207
B207
B207
8208
B209
8209
B209
8209
8210
8210
8210
8210
8210
8210
8210
8210
B211
B211
B211
B212
8219
8219
B219
8219
8219
8219 .
8219
8219
B219
B296
8301
8301
B302
B302
B302
B302
8302
B302
B302
8302
3303
8303
8303
B303
Source Code
A69
A21
A29
A94
A05
A21
A59
A06
A29
A04
ASS
A21
A59
A65
A09
A29
ASS
A29
ASS
A09
A08
A09
A4Q
A37
A40 "
A21
A21
A58
A57
ASS
A21
A58
A09
ASS
A21
A21
A29
ASS
A29
ASS
A94
A29
ASS
ASS
A37
A37
ASS
ASS
A57
A59
A29
A31
A58
A57
A49
A29
ASS
A99
A53
ASS
ASS
A69
A22
A69
A53
A74
A74
A74
A78
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
1
1
1
*t
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
1
1
1
Z
1
2
2
2
2
2
2
2
1
1
1
1
Page 9
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
000?
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
0007
D007
D007
D007
D007
0007
D007
0007
D007
D007
0007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
0007
0007
0007
D007
0007
0007
0007
0007
0007
D007
0007
0007
0007
D007
D007
D007
D007
D007
0007
D007
0007
D007
D007
D007
D007
0007
D007
D007
D007
0007
0007
D007
System Type
M119
M141
M132
M132
M133
M011
M111
M111
M111
M111
M111
M132
M141
M141
M141
M132
M141
M141
M132
M071
M013
M014
M011
M141
M011
M111
M111
M043
M011
M011
M011
M011
M111
M049
M043
M111
M132
M039
M141
M132
M141
M051
M061-
M141
M109
M141
M119
M141
M141
M131
M141
M132
M061
M123
M137
M141
M049
M999
M141
M061
M061
MOSS
M014
M111
M141
M132
M111
M111
M043
M011
M043
M132
M043
EPA ID
PAD061075529
WID0061 94336
PAD1 13428726
PAD045878238
TXD078552932
PAD045167053
PAD0451670S3
PAD004338695
PAD0021 17372
WID006070338
PAD051 658573
PAD002378149
VTD00107S894
VTD00208S108
W19210020054
PAD071 207880
WID053682712
PAD044311272
WVD076826015
WID0061 15877
WID014838569
TXD007318892
PAD9805S1840
PAD987322286
PAD002344315
PAD981945371
PAD003044609
WID006073225
TXD007331010
TXD981 590870
TXD007331010
TXD981 590870
PAD004376919
WID981193154
WID078673084
PAD987343860
WID006069710
W1D006423495
WYD098805948
PAD004393138
TX2571724333
VA6170061463
VA6170061463
VAS1 70061463
W1D980570550
VTD002065654
PAD01 4479893
TXD0081 17400
TXD987997335
PAD003037934
VA5170000181
"TX3571924643
TX8214020424
PR2170027203
PR21 70027203
VA8170024170
WI3210020563
WI3210020563
PA521 3820892
TXD042288597
W1D041 189291
PRD090028101
TXD990757486
PAO000805028
PAD002324978
VAD9881 75410
PAD082439191
PAD097874713
VAD981045537
RID987473022
WID087253175
UT0571724350
PAD004330965
Volume (tons)
8
4,5
14,64
48.4
37.02
193.25
127.25
39.45
9
70.22
1.57
0.825
0.087
0.412
1.095
561.8
5.25
2.1
9.072
0.425
183
4.35
92.18
1.2
3.391.00
13
1519
0.131
14.95
9.15
4.45
5.93
1.7
0.203
0.661
9.681
1.386
0,229
0.05
2.01
0.02
0.439
0.032
16.004
3.772
0.202
0.31
0.03
0:08
4.41
0.015
0.56
0.12
0.157
0.152
0.073
0.446
0.431
0.195
1.8
0.213
0.025
0.91
4.3
0.6
0.147
5.263
2.378
0,15
3.624
2.75
0.024
0,815
SIC Code
3499
2911
3211
3211
3211
3221
3221
3221
3229
3325
3448
3465
3724
3724
2892
3211
3612
3356
3356
3471
3479
3479
3724
2851
3312
3339
3399
3471
3561
3561
3561
3561
3599
3599
3695
3728
3824
3841
4011
8731
9711
9711
9711
9711
3592
3648
2299
2869
2869
3592
3731
4581
9711
9711
9711
9711
9999
9999
9999
2531
2759
2833
2873
3312
3316
3429
3442
3446
3471
3471
3471
3479
3511
Form Code
B303
B304
B304
B304
B304
B304
B304
B304
8304
8304
8304
8304
B304
8304
B304
B304
8305
8306
8306
B306
B306
8306
6306
B307
8307
8307
8307
8307
8307
B3Q7
B307
B307
B307
B307
8307
B307
B3Q7
8307
8307
8307
8307
8307
B307
8307
8307
8307
8308
B308
B308
B308
B309
B309
B309
8309
8309
8309
B309
B309
8309
B31Q
8310
8310
8310
B310
8310
8310
8310
B310
8310
8310
8310
B310
8310
Source Code
A21
ASS
ASS
A39
A59
A39
A39
A59
A39
ATS
A01
A19
A59
A59
ASS
A39
A06
A03
A26
A22
A29
A76
A76
A57
A29
A49
ATS
A78
A38
A38
A39
A39
A22
A29
A03
A57
A60
A56
A6G
AS4
A40
A58
A58
A58
AGO
A22
A99
A21
A21
A56
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A99
A21
A08
ASS
ASS
ASS
A29
A32
A21
A21
A21
A49
A89
AS9
A21
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 10
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
D007
D007
D007
D007
DOD7
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
0007
D007
D007
0007
D007
D007
0007
D007
D007
0007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
0007
D007
0007
0007
D007
D007
D007
0007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
0007
System Type
M111
M137
M141
M043
M111
M061
M061
M043
M043
M141
M132
M053
M053
M141
MU1
M111
M141
M141
M071
M043
M141
M141
M141
M141
M019
M125
M141
M043
M061
M112
M129
M132
M141
M141
M141
M141
M141
M043
Mt41
M061
M141
M141
M141
M141
M111
M141
M141
M141
M132
M129
M019
M132
M129
M132
M141
M141
M132
M079
M129
M141
M141
M014
M071
M043
M111
M132
M019
M014
M111
M141
M014
M111
M111
EPA ID
WID1 81 254863
TXD981 607468
PADQ04339297
WID006126213
VAD0031 32545
TXD096445069
WID041411943
WID006092555
TX7572024605
TX7572024605
VTD002068070
TXD000836437
TXD000836437
VA5 1700001 81
VA5170000181
W1D066883521
RID001463090
RID001201508
RID98O6S8610
WID982074296
PA821 3820642
PA31 700221 04
PAD002487247
PAD980919146
RI8170024790
PA3210090053
VA61 70061 463
TX2571524105
VA6170061463
TX2571S2410S
SD2571 924644
TX257152410S
VA6170061463
VA6170061463
VA6170061463
TX2571 724333
VA8170024170
VA1 170024722
VA6170061463
TX81 70022786
VA1213720815
VA51 70022482
VA821 3720321
UT1570090018
PAD00080S02S
PAD096837356
PADO53149084
RID001201S08
UT521 0090002
SD2S71 924644
PAD980550388
VAD003121928
VA3971 520751
TXD098818339
VAD005007679
PRD090028101
WID000808147
PAO00232Q737
WIDOOS098438
PAD042094938
PAD042094938
TXD007332570
W1D006101695
TXD980874200
PAD002392827
TXD054461181
TXD091 939520
WIDQS9974881
WI00061 16529
WID053691853
TXD068347814
TXD068347814
PAD046558037
Volume (tons)
19.037
0.1
3.503
7.025
4,9
0.45
0.371
0.944
0.25
0.1
0.725
0.92
1.42
0.725
4.587
0.637
0.688
0.022
0.697
0,055
4.023
0.479
0.24
0.075
0.063
0.212
0.046
0.2
3.265
0.31
1,044
0.55
2.934
1.355
0.16
1.2
0.072
0.19
0.598
0.08
0.112
5.331
0.415
0,343
23.5
4.576
0.25
0.003
0.05
0,077
0.1
19.74
0.066
103.49
0.2
0.45
24.853
0.228
0.05
1.925
0.225
10.5
1.625
0.1
29.9
13.62
2.59
4.988
0.225
0.485
3.15
135.45
0.23
SIC Code
3531
3592
3612
3621
3625
3711
3713
3714
3721
3721
3728
3728
3728
3731
3731
3795
3812
3951
3965
4111
4225
4225
5961
7539
9199
9199
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
3312
3721
3724
3951
9711
9711
3489
2869
9711
2819
2823
2833
2865
2992
3111
3229
3229
3296
3351
3471
3471
3471
3479
3482
3519
3545
3599
3599
3613
Form Code
B310
B310
B31Q
B310
B310
B310
B310
B310
B310
B310
8310
B310
8310
8310
8310
8310
B310
B310
B310
B310
B310
8310
8310
B310
B310
8310
8310
B310
B310
8310
8310
8310
8310
8310
8310
8310
B310
B310
B310
B310
8310
8310
8310
8310
8310
8310
8310
8310
8310
8310
8310
8311
8315
8316
8316
8316
8316
8316
8316
B316
8316
B316
8316
8316
8316
B316
8316
8316
8316
8316
8316
8316
8316
Source Code
A32
A29
A21
A71
A56
ASS
A21
A21
A71
A71
A22
ASS
A71
ASS
A58
A21
A71
A78
A71
A89
A54
ASS
ASS
ATS
A21
ASS
A02
A21
A21
A21
A21
A21
A21
A29
A38
ASS
ASS
ASS
A71
A91
A91
A91
A91
A91
A29
AS3
A02
A53
ASS
ASS
A71
A56
A58
A59
A58
AS8
A32
AS8
ASS
A35
A76
A59
A02
A22
A22
A22
A29
ASS
A60
A38
A75
A7S
A93
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
3
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 11
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
System Type
M111
M132
M011
M141
M129
M043
M111
M141
M125
M129
M141
M141
M043
M111
M011
M119
M119
M132
M111
M111
M112
M132
M111
M111
M132
M043
M125
M141
M111
M141
M132
M141
M014
M141
M119
M111
M132
M111
M141
M132
M011
M111
M111
M111
M111
M111
M111
M141
M119 '
M043
M119
M119
M141
M043
M111
M111
M141
M111
M119
M141
M061
M043
M061
M141
M119
M119
M079
M141
M111
M132
M999
M061
M061
EPA ID
VAD0589 13294
TXD007365984
PAD001643691
PAD002316305
WID006423495
PAD987267473
WID006125215
PA3170022104
PA321 0090053
VA3971 520751
UT321 3820894
VA6170061463
PA2571 225349
PAD000766162
PAP000006331
PAD01 4479893
PAD014479893
WID071 150676
PAD980552012
PAD002391548
PAD002391548
WVD981 040058
PAD000736942
PAD041399403
PAD041 399403
PAD000606285
TXD058276130
TXD000807909
PAD003043353
TXD000820928
WVD060682291
VAD003122165
TXD990757486
TXD067285973
TXD008013468
PAD004336905
TXD084284132
PAD004325254
PAD000736934
PAD002326908
PAD002344315
PAD004322863
WID980570055
PAD002387835
WID006073225
PAD982566804
PAD051658573
VAD988221917
PAD005031737
WTT560010803
PAD004316832
UTD0471 09269
WVD1 13433296
WID006073225
W1D006073225
VAO988211850
VAD988211850
RID001620210
RID001620210
PAD002333227
PAD004319802
PAD075485938
WVD000797720
RID053959706
WID0061 16529
PAD980715957
PRD090031410
PRD090031410
PRD090282757
PAD001882372
WAD980833099
WID006126999
WID0231 36997
Volume (tons)
4.5
0.25
7.81
0.566
0.22
0.01
6.585
0.437
0.053
0.096
0.529
0.24
0.819
4.878
1.96
1
1.475
5
78
13.695
357.15
0.75
127.979
1.867
29.754
5.063
2.16
02
4.365
0.03
0.565
2.5
0.42
2
22
257
1.54
3.4
1.8
1.55
258.9
23.55
1.25
0.748
0.9
0.6
4.377
1.575
0.74
0.787
0.475
0.85
7.84
3.649
1.8
0.45
2.5
1.2
1.2
0.75
4.375
0.271
0.9
3.257
0.45
0.2
0.3
0.2
0.875
4.85
2.9
5.5
5.445
SIC Code
3646
3721
3751
3769
3841
3841
3999
4225
9199
9711
9711
9711
9711
2514
9999
2299
2299
2491
2813
2816
2816
2819
2819
2819
2819
2821
2821
2821
2833
2869
2869
2869
2873
2911
2911
3221
3229
3312
3312
3312
3312
3317
3317
3351
3432
3441
3448
3449
3463
3469
3471
3471
3471
3471
3471
3471
3471
3471
3471
3471
3479
3479
3479
3496
3519
3531
3625
3625
3643
3672
3674
3713
3713
Form Code
631 6
B316
B316
8316
B316
831 6
8316
8316
B316
8316
8316
8316
8316
B316
8316
B319
8319
831 9
8319
8319
B319
B319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
Source Code
A58
A58
A22
A58
A22
A71
A21
ASS
A58
ASS
ASS
ASS
A91
A56
A56
A53
ASS
A09
A21
A32
A32
A56
A78
A92
A92
A36
A36
ASS
A59
A19
A59
A74
A36
A09
ASS
A59
A08
A09
A29
A49
A78
A09
A25
A19
A01
A21
A92
A21
A78
ASS
A03
A22
A22
A56
A56
A91
A91
A92
A92
A92
A21
A29
A92
A60
A56
A22
A22
A22
A69
A09
A21
A21
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 12
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
D007
DQ07
D007
D007
D007 ,
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
0007'
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
0007
D007
D007
D007
0007
D007
0007
D007
D007
D007
0007
D007
D007
System Type
M061
M132
M141
M043
M141
M141
M999
M043
M141
M141
M141
M132
M043
M129
M141
M119
M111
M132
M141
M132
M132
M119
M141
M999
M141
M061
M141
M141
M141
M999 •
M999
M999
M111
M141
M141
M111
M011
M999
M132
M043
M111
M999
M043
M131
M999
M129
M141 '
M111
M111
M111
M043
M053
Mill
M132
M132
M141
M125
M014
M132
M011
M043
M043
M132
M111
M119
M111
M061
M061
M141
M043
M141
M053
M129
EPA ID
WID98090S293
W1D980905293
TXD007365984
PAD003053709
PAD003053709
VTO00107S89*
WAD0452S6971
PAD987343860
WV0170023691
PAD002316305
TXD007340797
R1D000001750
PAD004322913
WID086686003
RID001201508
PAD080719289
PADQQ0621011
TX00919471SO
TXD091947150
UTD988073896
VA4570024477
TT0570090001
PAD982580763
WA21 7002341 8
VA6170061463
VA61 70061 463
VA81 700241 70
VA61 70061 463
VA8170024170
WA7890008967
WA7890008967
WAD009250820
PAD002323848
PAD981 938400
VAD0031 12588
WID084106137
PAD071207880
WAD0096244S3
TXD007357932
WID0061 02545
WID006102545
WAD041 338252
PAD001882372
PAD001882372
WAD061 670766
SD2571924644
PAD041744236
WI0988590139
WID073830028
WID006097083
TXD9907S7627
TXD008098725
TXD0080S8725
TXD98062S9S8
TXD000807909
TXO000807909
TXD982SS2887
TXD9907S7486
TXD005942438
TXD988066189
WVD045875291
VAD046991097
PAD071 445423
WID006580468
TXD000719377
TXD007359284
PAD002343630
TXD000836437
VA1 170024813
PA2571 225349
VA61 70061 463
WID006447890
TX3571 924643
Volume (tons)
2.104
1.609
2,75
0.388
0.165
6.091
0.08
0.077
0.7
0.314
0.2
0.25
0.82
0.344
0.06
2,975
53.5
41.5
37.85
5.5
1.53
0.045
3.8
82.35
2.649
0.002
1.315
0.073
0.024
0.01
0.003
0.001
4.87
10,251
2.675
0.193
895.2
0.45
15.41
0.185
0.325
40.91
0.15
0.6
2.5
0.192
2.6
20.855
91.7
15.42
26.05
23.5
32.1
41.85
162.62
0.2
16.03
3.96
10.63
'254
12.2
1.606
2.194
5.4
13.25
38.34
1.217
3.84
0.938
0.56
0.001
2.728
0.12
SIC Code
3713
3713
3721
3724
3724
3724
3728
3728
3764
3769
3827
3829
3842
3844
3951
4512
4741
4741
4741
5171
9199
9511
9621
9711
9711
9711
9711
9711
9711
9999
9999
2611
2796
2821
2824
2869
3211
3471
3471
3524
3524
3599
3672
3672
3728
9711
9999
3469
3519
3566
2821
2821
2821
2821
2821
2821
2821
2865
2865
2869
2821
2824
2851
3444
3471
3585
3714
3728
3731
9711
9711
3599
4581
Form Code
B319
8319
B319
831 9
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
8319
8319
8319
B319
B319
8319
8319
8319
B319
8319
8319
8319
8319
8319
B319
6319
8319
8319
8319
8319
B319
8319
B319
8319
B319
8319
8319
8319
B319
B319 .
B319
B319
8320
8320
8320
8393
8393
8393
B393
B393
8393
8393
8393
8393
B393
8403
8403
8403
8403
8403
B403
B403
B403
8403
8403
8403
B404
8404
Source Code
A21
A78
A29
A21
A56
A59
A92
A29
A99
A19
A56
A21
A56
A22
A29
A19
A29
A29
A21
A29
A29
A49
A22
A29
A29
A58
A91
A
A56
A69
A61
A57
A99
ASS
A08
A51
A53
A93
A56
A65
A21
A21
A29
A36
A36
A36
A36
AS7
A57
ASS
A36
A36
A36
A39
ASS
A57
A29
A22
A21
A21
A22
A99
A01
ASS
A49
ASS
Origin Code
1
t
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 13
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
D007
System Type
M132
M141
M125
M132
M041
M141
M133
M111
M119
M061
M111
M043
M053
M137
M059
M141
M111
M043
M141
M999
M141
M061
M141
M043
M061
M061
M112
M132
M132
M129
M111
M132
M141
M071
M129
M132
M119
M141
M071
M079
M132
M061
M141
M141
M141
M125
M011
M141
M141
M111
M101
M132
M111
M079
M132
M999
M079
M077
M111
M042
M061
M119
M132
M141
M043
M042
M061
M049
M061
M132
M141
M111
M141
EPA ID
TX357 1924643
TX3571 924643
PAD 11 4942832
UT521 0090002
PRD991291857
TXD000764498
VA9 170022488
PAD002917466
WID059974881
TXD982307514
PAD003031903 .
WID006161368
TXD980699771
TXD980699771
WID006447890
PAD005000500
VAD0031 32545
PAD003053709
PAD003053709
WAD045256971
VA1 17002481 3
WID084224179
PAD987362746
TX2571524105
TX2571524105
VA61 70061463
TX2571524105
TX2571524105
PAD074986795
SD2571 924644
PAD000731505
TXD021940416
TXD026755769
PAD004335162
PAD065651671
VAD988175410
WID006126999
PA41 7002241 8
PAD002335222
WVD076826015
VAD988175410
TXD071372817
TXD9811 55203
WID0061 12478
VA6 170061 463
PAD002324978
PAD004335154
ITTD086800620
VAD009305137
PRD991 291972
WVD056795842
PAD004393468
PAD002368066
VAD0031 32560
WVD000068908
WAD009251323
WID006070205
W1D0061 26999
TXD057408924
PA0890090004
WID006077978
PA521 0021 510
TXD008092983
PAD003401049
PAD003022191
VAD003132545
VAD0031 32545
TX7572024605
TX7572024605
TX7572024605
TX7572024605
TX6 170022770
VA6170061463
Volume (tons)
0.05
0.09
0.235
0.727
0.375
4.23
512.802
33.7
5.5
49.45
2.49
8.36
0.4
0.2
12.505
0.123
1.35
0.12
0125
0.01
0.098
1.625
2.25
0.04
0.59
0.201
0.34
0.96
23.122
0.206
1.1
5
120.25
6.61
79.77
49.125
7.25
0.222
1.575
204.18
1.775
4.82
0.17
0.25
0.04
0.361
166.41
12.525
3.6
3.7
502.168
9.07
0.8
0.605
25.2
8.5
55.386
47.715
19.2
0.296
0.6
3.157
3.01
9.394
7.8
2.6
3.4
36.91
14.2
0.98
0.65
1.38
3.848
SIC Code
4581
4581
9711
9711
3672
3721
4812
2865
3482
3499
3554
3585
3585
3585
3599
3613
3625
3724
3724
3728
3731
3999
7699
9711
9711
9711
9711
9711
2819
9711
9999
3585
4741
3312
3317
3429
3713
3731
3317
3356
3429
3728
3812
3931
9711
3316
3312
3444
2824
2911
3069
3312
3444
3452
3471
3498
3634
3713
3841
8731
3412
3483
3496
3499
3585
3625
3625
3721
3721
3721
3721
3728
9711
Form Code
B404
B404
B404
B404
B406
8407
B407
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
8409
B409
B409
B409
B409
B409
B409
B409
8409
8409
8409
8409
8409
B409
B489
8490
B502
8502
B502
B502
B503
B504
B504
8504
8504
8505
B505
B505
B506
8511
8511
8513
8519
8519
8519
8519
B519
8519
8519
8519
8519
B519
8519
B603
B604
B604
B604
8604
B604
B604
8604
8604
8604
8604
8604
8604
Source Code
A58
ASS
A91
A99
A21
A21
A69
A35
A21
A29
A32
A82
A91
A91
A21
A21
A09
A21
A21
A53
A21
A01
A21
A21
A21
A21
A21
A69
A92
A69
A08
A21
A59
A26
A22
A76
A60
A76
A75
A32
A27
A03
A22
A22
A60
A78
A71
A60
A09
A27
A05
A32
A29
ASS
A21
A21
A21
A72
A03
A21
A78
A21
A60
A21
A21
A21
A21
A21
A21
A21
A21
Origin Code
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 14
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D007
0007
0007
D007
D007
0007
DQ07
D007
D007
D007
D007
DOQ7
D007
D007
D007
D007
0007
0007
D007
0007
0007
0008
D008
D008
D008
D008
0008
0008
D008
D008
0008
0008
0008
D008
0008
D008
D008
0008 . •
0008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
O008
0008
D008
0008
D008
D008
0008
0008
0008
0008
0008
D008
0008
D008
D008
D008
D008
D008
0008
0008
D008
DOOS
D008
System Type
M141
M119
M061
M137
M132
M999
M077
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M051
M043
M013
M043
M043
M043
M049
M141
M141
M141
M141
M043
M049
M141
M111
M043
M141
M141
M141
M141
M041
M041
M041
M141
M141
M061
M141
M141
M141
M099
M081
M141
M077
M039
M129
M141
M041
M141
M051
M033
M039
M039
M141
M039
M099
M079
M019
M074
M041
M141
M041
EPA ID
TXD008135618
WID006Q98545
WID063378871
TXD981 607468
TXD037460706
WAD988466900
WID006082531
WAD009256819
WAD009262171
WAD041585464
WAD980980270
WAD045256971
WAD093639946
WAD9809B2912
WAD981771017
WAD009480823
WA51 70027291
WA7890008367
WAD009052432
WAD009244864
WA0991281841
WA1 891 406349
WID000808147
PAD002368892
PAD98055S197
VAD001307495
PAD980714414
UTDQ931 19980
WID9826S0160
VA6170Q61463
UTD0090S4012
VA7170024684
WID006095251
PADQOG766170
WVD060682291
PAD002368892
PAD0021361 17
PAD981 730633
PAD001680719
PAD002316305
VTD060S2S1S1
PAD020068383
WID000809012
W!D980283394
WID9809044S2
WID000809012
RID062309299
VA6170061463
VA6170061463
PAD003023827
TXD000709964 '
NYD987035367
NY0000096123
LAD980866958
ME7170022019
NY4S719244S1
NY4571 924451
NY4571 924451
WID006093017
VAD980551782
PAD071473425
UTD069816163
UTD988075610
UTD988075636
WID050262641
WID001781186
VA61 70061 463
MAD048974349
NYD002226041
NYD1 17328229
NYD986874501
MAD001923408
MAD007872690
Volume (tons)
9.04
14
1.771
2.92
3,819.00
0.6
1.095
0.1
0.08
0,06
0.4
0.06
0.11
0.08
0.1
0.03
0.009
0.002
0.004
0.13
0.09
0.01
0.153
0.015
0.05
0.025
0.01
0.35
0.015
0.13
0.019
4.515
0.012
0.087
0.385
0.102
0.463
0.09
0.103
0.064
0.013
0.004
0.24
0.123
0.055
0.055
0.2
15.91
30.613
1.61
36.96
14.45
275.254
2.7
6.247
3.84
2.335
1 .855
42.721
0.22
7.512
3.647
3.293
46.657
5.175
0.621
0.207
9.4S3
4
0.459
0.875
5.563
0.144
SIC Code
3471
3479
3721
3592
3211
,3471
3519
3721
3721
3721
3721
3728
3728
3728
3728
3764
9711
9999
2611
3471
3825
4911
2869
2891
3053
3731
3952
4911
8221
9711
8221
9711
2082
2672
2869
2891
3321
3679
3769
3769
8062
8062
8221
8221
8221
8221
3911
9711
9711
3523
3812
5149
5171
8221
9711
9711
9711
9711
3594
3672
3714
4131
4131
4131
5511
7218
9711
3471
3471
3499
3571
3669
3672
Form Code
B609
B609
8609
8695
B
8001
B001
B001
B001
8001
B001
B001
8001
B002
B002
8003
8003
8003
8003
8003
8003
8003
8003
8003
8003
8003
8003
8003
8003
8009
8009
BOOS
B101
B101
8102
B102
B102
B102
81 02
8102
6102
B102
8102
B102
B102
8102
8102
8102
B102
B102
B103
B103
B103
B103
B103
B103
Source Code
A38
A21
A29
A29
ASS
A60
A
A57
A58
A94
A58
ASS
ASS
A58
A58
ASS
A59
A59
A94
A94
A58
A21
ASS
A94
A94
AS8
AS4
A59
A59
A59
A59
A22
A21
A21
A59
ASS
A06
A59
ASS
A29
AST
A57
A57
A69
A09
A53
A99
A99
A99
A57
ASS
A37
A22
A23
A03
A49
A23
A22
Origin Code
1
1
1
1
i
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 15
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
0008
DOOS
D008
DOOS
DOOS
DOOS
DOOS
D008
.0008
D008
0008
0008
0008
D008
D008
D008
D008
D008
D003
0008
D008
DOOS
0008
0008
DOOS
D008
D008
DOOS
DOOS
0008
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
D008
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
System Type
M141
M119
M079
M061
M104
M041
M039
M111
M041
M014
M141
M121
M014
M019
M019
M051
M121
M014
M089
M061
M061
M141
M061
M109
M141
M124
M141
M019
MOT?
M082
M125
M077
M141
M109
M077
M029
MOT7
M079
M141
M121
M141
M141
M111
M029
M061
M043
M039
M032
M999
M141
MOSS
M077
M141
M129
MOSS
M103
M141
M141
M141
M121
M074
M111
M077
M041
M125
M041
M077
M137
M141
M111
MQ29
M021
M111
EPA ID
NHD046312SS9
NCD981021413
NYD009901059
NYD980769848
MD4690307844
LA6170022788
NJD049856974
NYD089394266
OK9571 824045
NY2141768703
MA8570024424
PAD00232690S
VAD98103489S
WID988598421
WID047263579
TX8170022786
TX8170022786
MN7213820908
WID006274153
RI1 170024243
NED035036201
VAD9805S1782
NJ2571824018
NJ2571824018
NJ2571824018
NJD045 133485
MAD001 923408
NJD002002319
NYD002241982
NYD002241982
NJD043608897
NHD040244428
MAD001012244
MND985713452
MOD003S37271
NCD038547519
NYD009901059
NYD001315266
MAD000844282
NCD004520136
NCD003465101
MAD001408517
NCDOS7038168
NJD053275673
NJD986 608461
NCD980843866
MS21 70022626
WID006073225
WID006073225
WIDO00808584
PAD987388105
WID000713115
PADOS477S574
VAD981111784
W1D006274153
WID981190713
NJD047354S81
MAD990685554
MAD981203334
IMJD986609279
PAD982674913
PAD063752430
NJD044654978
MAD094277266
NHD986467124
NHD073984288
NYD986913952
MOD003537271
NYD059385120
MAD990886301
NJQ986622066
MOD073046773
NYD987025780
Volume (tons)
0.917
1.133
1.8
0.457
0.75
0.034
3.634
0.042
0.13
0.157
0.209
0.2
40
0.5
2.7
3.9
0.4
40.001
1.145
21.684
0.237
0.22
5.074
4.031
0.325
2.8
10.394
0.417
600.4
97.2
3.67
0.459
0.229
1.6
1.766
18.704
2
17.99
0.125
93.595
2.8
0.311
3.4
2.189
1.018
0.475
1.385
13.148
0.204
2.362
9
155.661
2.42
0.15
0.458
0.286
0.27
0.288
14.906
0.688
1.334
2.294
1.898
0.963
6.397
0.008
5.963
0.413
1.196
3.025
1.043
42.49
2.697
SIC Code
3672
3672
3675
3679
3731
4581
5511
821.1
9711
9711
9999
3312
3672
3672
3672
4581
4581
8744
3484
9711
3523
3672
NA
NA
NA
3643
3669
3672
3672
3672
3672
3672
3672
3672
3672
3675
3675
3694
3699
3714
3714
3724
4613
5511
5511
8734
9199
3432
3432
3531
3547
3621
3672
4111
3484
3519
2834
3669
3672
3672
9621
9999
2899
3556
3599
3641
3672
3672
3679
3679
3711
4111
4813
Form Code
B103
81 03
B103
B103
8103
B103
B103
8103
8103
B103
B103
B103
B103
8103
B103
8103
8103
8103
8103
8104
8104
8105
B106
B106
B106
8106
B106
B106
8106
8106
8106
8106
8106
8106
8106
8106
8106
8106
B106
B106
B106
B106
B106
B106
8106
8106
8106
8106
8106
8106
B106
B106
81 06
B106
8106
B106
B107
8110
8110
B110
81 10
8110
8113
B113
B113
B113
8113
8113
8113
8113
8113
8113
8113
Source Code
A22
A29
A22
A02
A53
ASS
A37
A09
A55
A69
ASS
A26
A01
A01
A22
ASS
ASS
A64
A22
A02
A53
ASS
A04
A04
A04
A03
A22
AQ1
A01
A01
A01
A09
A09
A27
A92
A03
A22
A03
A19
A03
A09
A03
A01
A19
ASS
A01
A03
A03
A03
A03
A03
A03
A22
ASS
A03
A51
A94
A27
A01
AS9
A19
A69
A92
A94
A29
A09
A29
A99
A04
A60
A19
A99
A69
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
2
1
1
1
1
1
1
1
1
1 '
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
Page 16
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
DOQ8
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DQ08
D008
DOOS
0008
0008
D008
D008
D008
0008
0008
0008
0008
D008
0008
0008
D008
D008
D008
DOQ8
D008
0008
D008
0008
D008
D008
D008
D008
D008
D008
D008
0008
O008
0008
0008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
System Type
M111
M077
M079
M021
M078
M042
M111
M141
M129
M141
M129
M111
M041
M041
M041
M041
M041
M061
M111
M111
M111
M111
M111
M111
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
Ml 41
EPA ID
MID985579861
M1D000722157
NJD101429652
NVD981 428923
NYD986952414
W1D982204968
VAD098454192
VTD002065597
PAD0022825S6
VA6170061463
VA3971 520751
MID000718544
NYP000908046
NYP000909010
NYP000909739
NYP000910810
NYP000910984
NYP000911297
NYP000908004
NYP000908384
NYP000909366
NYP000910398
NYP000911S03
NYPQ00912477
NYD980233456
NYD9870304S9
NYD987030541
NYD987030590
NYP000770107
NYP000792002
NYP000793067
NYP000794768
NYP000794867
NYP000907956
NYP000908004
NYP000908046
NYPQ009Q8053
NYP000908061
NYP000908178
NYP000908269
NYPQ00908285
NYPQ00908467
NYP000908566
NYP000908707
NYP0009088SS
NYP000908970
NYP000909176
NYPOQQ909192
NYP00090i325
NYP000909341
NYP00090S561
NYP000909572
NYP000909606
NYP000909614
NYP000909648
NYP000909796
NYP000909937
NYP000909978
NYP000910257
NYP000910414
NYP000910976
NYP000910984
NYP000911172
NYP000911214
NYP000911222
NYP000911339
NYP000911420
NYP000911446
NYP000911S03
NYP000911537
NYP000911545
NYP0009115S2
NYP000911594
Volume (tons)
19.942
0.667
38.026
0.229
2.718
1.147
0.784
0.353
0.44
0.015
4.62
27.932
3.942
10.25
9.545
1.332
6.565
1.369
0.228
1.275
4.046
1.7
4.565
6,225
5.25
7.989
4.108
2.739
1 1.598
1.598
2.511
6.897
2.282
1.598
10.375
0.228
1.141
4.793
4.337
1.598
1.141
1.598
1.598
1.369
1.141
1.369
1.141
2.054
1.598
2.739
2.511
1.369
1.867
2.282
1.307
1.141
1.598
3.092
2.282
1.141
1.826
0.685
2.739
3.652
2.054
3.195
1.369
1.826
1.245
2.282
2.282
1.141
2.282
SIC Code
4911
4911
5093
5511
7549
3494
3672
3692
3823
9711
9711
3711
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4S13
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
Form Code
81 13
8113
81 13
8113
8113
8113
61 13
B113
8113
8113
8113
8113
B113
8113
8113
81 13
B113
81 13
8113
8113
B113
8113
B113
B113
B113
81 13
B113
B113
81 13
81 13
8113
B113
8113
8113
B113
B113
61 13
81 13
8113
B113
B113
81 13
B113
B113
B113
B113
8113
8113
B113
8113
8113
8113
8113
B113
8113
8113
8113
8113
8113
8113
8113
8113
81 13
8113
8113
8113
8113
8113
81 13
B113
8113
8113
8113
Source Code
A60
A99
A75
A19
A59
A19
A92
A89
ASS
A05
ASS
ASS
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A6S
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A63
A69
A69
A69
A69
A69
A69
A69
A69
AS9
A69
A69
A69
A69
A69
Origin Code
1
1
1
1
1
1
1
1
1
1
1
2
• 2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
Page 17
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Co
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
DQ08
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
D008
D008
0008
D008
D008
0008
0008
D008
D008
D008
D008
0008
D008
0008
D008
D008
D008
0008
0008
D008
D008
0008
0008
0008
0008
D008
D008
0008
D008
0008
D008
0008
0008
D008
0008
0008
0008
D008
0008
D008
D008
0008
0008
D008
0008
D008
0008
0008
D008
D008
0008
D008
0008
System Type
M129
MQ77
M061
M079
M061
M125
M077
M061
M049
M081
M081
M061
M079
M079
M039
M039
M019
M041
M141
M099
M141
M141
M121
Ml 29
M079
Ml 11
M141
M141
M141
M141
M141
M141
M141
M141
M141
M041
M121
M094
M141
M041
M039
M061
M061
M041
M141
M042
M013
M019
M125
M079
M119
M141
M129
M081
M041
M141
M089
M079
M141
M141
M039
M081
M039
M041
M119
M129
M111
M141
M141
MQ77
M141
M032
M141
EPA ID
PAD074965096
VTD055731038
PAD051 658573
WID006072052
PAD096844311
WID982204968
PRD090383860
VAD098454192
RID030284293
VTO001780725
VTtXX)1780725
TXD000357707
PAD987328374
PAD987342839
PAD982662199
PAD9826625S3
WVD981113327
VA51 70022938
NJD986621522
NJD046956892
MAD985294487
NYD982738205
NYD981483985
MI00991 13128
MD3210021355
MD321 0021 355
MAD981071S16
MAD981071699
MAT087461920
MAT087S93065
MAT087757857
MAT089476560
MAT089978700
MAT174475011
MAT1 76627568
PRD090398074
VAD098454192
NJD986607364
NJ0000074278
NJD986648244
NJD986629723
NJ0000037549
NJ0000079400
NYD986973691
MED985731272
OKD056362601
NJD980594022
MJD0021 52205
NCD067427922
NMDO52686896
NMD052686896
MAO050084276
NYD001482124
NHD073984288
NCD000831057
MDD046041885
NJD002342517
MNDO58330473
MED077469864
NCD003195161
MND98 5668227
ORD009020231
MNDO06207773
MID005356902
MID005356902
MOD089290118
MID985576485
MAD062163191
MAD001025170
NJ0980648539
NCD1 08706029
UD071 941611
NYD981 495385
Volume (tans)
103.591
12.782
0.28
16.207
0.687
4.483
0.4
3.575
0.688
2.064
0.457
6.39
40,389
35.801
1.656
1.656
4.611
0.014
2.508
0.229
0.247
3.839
1.2
0.66
4,892.14
303.791
0.229
0.209
0.229
0.229
0.209
0.229
0.792
0.229
0.229
1.6
137.722
27,287
0.029
•1.25
0.2
0.4
0.3
40.367
0.04
0.684
3.3
7.533
294.76
13.25
0.75
2
0.3
0.22
0.15
2.752
0.417
10.008
14.025
15.638
1.835
" 0.706
1.344
2.893
3.147
51.47
43.119
3.532
0.229
345.788
0.65
0.69
3.4
SIC Code
3341
3423
3448
3479
3489
3494
3613
3672
3674
3691
3691
3728
4813
4813
4911
4911
5082
9711
2821
3087
3821
4931
8221
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
2834
3672
6531
8731
8741
9999
9999
'9999
1622
2621
2631
3356
3357
3432
3571
3571
3571
3629
3641
3661
3863
3669
3672
3675
3675
3679
3679
3711
3711
3711
3714
3714
3861
3949
4789
4911
4911
4931
Form Code
B114
B114
B114
8114
B114
B114
8114
B114
B114
8114
B114
8114
B114
8114
8114
B114
B114
B114
B114
B114
B114
8114
8114
B114
B114
8114
B114 .
8114
8114
B114
8114
8114
8114
B114
B114
B114
B114
B116
B116
8116
B116
8116
B116
8119
8119
8119
B119
B119
8119
8119
B119
B119
B119
8119
B119
B119
B119
B119
8119
B119
B119
B119
8119
8119
8119
B119
B119
8119
8119
B119
B119
8119
8119
Source Code
A03
A21
AS7
A03
A19
A69
A06
A29
A35
A29
A78
A31
A92
A92
A59
A59
A06
ASS
A69
A53
A59
A53
A53
A04
A61
A61
A69
A69
AS9
A69
A69
ASS
A69
A69
A69
A53
A51
A79
AS4
A19
A72
A79
ATS
A29
A05
A19
A09
A53
A03
A03
A03
A32
A31
A19
A19
A29
ASS
A29
A19
A22
A19
A29
ASS
A59
ASS
A21
A29
A29
A59
A99
A59
ASS
A19
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
Z
2
2
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 19
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
0008
DOOS
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
Dooa
D008
D008
D00.8
D008
D008
D008
D008
0008
D008
D008
D008
D008
0008
O008
D008
D008
0008
D008
D008
D008
D008
D008
0008
0008
0008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
0008
0008
D008
D008
0008
0008
DOOS
D008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
System Type
M129
M021
M141
M141
M141
M111
M061
M039
M043
M141
M041
M041
M061
M061
M061
M077
M999.
M061
M079
M111
M111
M141
MU1
M999
M099
M072
M077
M999
M124
M111
M141
M125
M077
M141
M041
M119
M141
M141
M133
M029
M061
M029
M141
M029
M999
M041
M051
M078
M021
M023
M043
M029
M061
M021
M061
M051
M132
M061
M061
M141
M061
M051
M061
M141
M061
M041
M019
M141
M141
MOS1
M029
M029
M024
EPA ID
MD0056281447
NYD981 141666
NJD98660S747
NJD98661018S
NJ0986606135
NYD980642920
M1D981000615
NJD986624971
MD321 0021 355
MO8571 924549
MD321002135S
NM58901 10518
SDD000003855
PAD002391548
PRD980759443
PAD015139470
WID006075055
WI0006084172
PRD987370939
PRD987370939
W1D000713115
VAD0031 23072
VAD988186110
WAD98097983S
PAD0145S7805
PAD1 14336233
VA6170061463
WA7890008967
ORD093481646
ORD991281460
NCD980602445
NHD066755620
M1D005358783
NJD002362762
ORD981761133
OKP41 01 39036
VTD093252096
PAD980829329
VTD980670319
OKD13182313Q
NCD097716625
NJD046942173
NYD002235216
NJD051 277895
W1D050549039
TX0007341175
VAD023942295
PA4170000158
PAD000731430
PAD981741150
NYD000809327
NJD986618650
NJD936618650
NJD98217914S
WVD098433394
TXD06308S062
NJD982277329
MTD986072544
MID044260990
MSO980601686
MND985700582
MND000293076
MAD001 008770
MAD001 055235
MND006147268
NJD064261985
MID005356860
MAD001408517
MDD046283495
MND9807S3319
NJD1 49983496
NJD149983553
MD921 0020567
Volume (tons)
2.576
1.38
0.196
0.434
0.246
0.44
1.08
0.167
0.375
0.025
0.515
0.186
2.17
15.438
2.2
3.706
1.169
4.4
0.4
1.4
1.4
0.4
0
0.28
99.155
0.245
19
0.23
0.208
2.299
0.4
0.688
4.587
1.376
1.753
0.812
0.165
3.545
0.457
2.627
0.506
0.006
15.158
2.273
56.845
9.24
0.22
1.085
0.613
0.36
0.01
9.091
2.314
0.73
0.378
1.68
1.043
18.159
0.514
2.4
0.2
22.227
0.125
5.011
2.167
0.09
0.734
1.59
0.045
11.24
0.646
0.063
1.675
SIC Code
5511
SS11
5541
5541
5541
6513
7389
7538
9711
9711
9711
9711
2759
2816
3399
3471
3499
3585
3612
3612
3621
3671
3731
3841
3999
51 6S
9711
9999
1721
3341
3432
3679
3714
3823
4899
9999
3571
9999
3471
2752
2844
3531
3594
5511
2893
3828
4011
4581
4911
9621
3861
5511
5511
7538
4922
8734
4231
1221
2043
3519
3569
3572
3672
3679
3679
3691
3714
3724
3731
4011
7538
7538
9199
Form Code
8119
B119
8119
B119
B119
B119
8119
B119
6119
81 19
B119
B119
B119
B119
B119
B119
B119
B119
8119
B119
B119
B119
8119
81 19
B119
B119
8119
B119
B119
B119
81 19
B119
B119
B119
B119
B119
B119
8119
82
B201
8201
B201
B201
B201
B201
8201
B201
B201
B201
B201
8202
8202
8202
B202
B202
8202
8202
8203
B203
B203
6203
8203
8203
8203
8203
8203
8203
8203
8203
8203
B203
B203
B203
Source Code
A49
A99
A49
A49
A99
A58
A59
A59
AQ1
A4S
A59
A94
ASS
A92
A08
A01
A09
A37
A09
A99
A89
A49
A59
A29
A57
A64 '
A08
A61
A93
A99
A22
A69
A60
A99
A56
A61
A31
A06
A56
A19
A09
A58
A75
A04
A99
A57
A09
A58
A58
A19
A19
A19
A06
AOS
A59
A19
A29
A09
A29
A01
A19
AOS
A29
A19
A09
A19
A19
A19
A54
A54
A57
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2.
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 20
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
0008
D008
0008
D008
0008
0008
D008
0008
D008
D008
D008
D008
0008
D008
D008
0008
D008
D008
D008
"0008
0008
D008
0008
D008
D008
D008
D008
0008
0008
D008
D008
0008
D008
D008
D008
D008
0008
0008
D008
D008
D008
0008
0008
0008
D008
0008
D008
D008
D008
0008
D008
D008
D008
D008
D008 .
D008
DOGS
D008
D008
D008
0008
0008
System Type
M141
M022
M061
M137
M022
M021
M061
M141
M125
M029
M141
M051
M141
M023
M029
M041
M041
M141
M141
M032
M121 .
MOSS
M041
M051
M061
M141
M141
M061
M077
M032
M061
M032
M061
M061
M099
M061
M091
M061
M051
M041
M141
M041
M019
M089
M061
M141
M141
M141
M061
M077
M077
M061
M141
M141
M043
M079
M061
M041
MOS1
M141
M141
M129
M129
M041
M061
M132
M109
M141
M141
M021
M091
M141
M141
EPA ID
MD921 0020567
ISU01 700221 72
TXD08S1 54369
TXD0851 54359
WVD136333580
W1D000808451
PAD080879992
VTD000509174
TXD007331879
WID006126999
NJD002141489
LAD008080350
MNT28001Q273
VA2170024606
WID006084966
NM0035806405
NJD000692988
NYD012854048
NJD053101085
NJD042S05752
NJD00250121 1
MND006480495
NJD001289610
NJD001 289610
MAD001214717
NYD980768253
NHD01 8953794
NCD097363S27
MID006407142
NYD001 493774
ORD052218468
NY0002230977
NYD002230977
NCD049B41232
NJD002163400
NYD9821 79293
NJD061076600
NCD0031 54804
NJD077548998
NYD093256063
MED065037491
MED001094473
MND001037639
NJDQ75418285
MND985708437
MAD001 055235
NYD065939902
MAD00105523S
NJD00217Q702
MID005358783
MID985582618
MSD050648757
NHD0010839S5
NYD000818823
NYD000809327
NYD061 956470
MOD046218251
NM0980335624
NYD987034865
NJD061836656
MED01 9026822
NYD9869591S7
NYD986960383
NJD986594893
NJD986594893
ISUD986594893
NJD98661660S
NY0000083121
NY6890008992
MS21 70022626
ME71 7002201 9
ME71 7002201 9
NY4571924774
Volume (tons)
0.764
0.132
2.73
5.97
0.271
0.18
1.606
0.66
3.57
0.822
0.2
0.2
0.65
0.921
0.017
0.15
1.251
0.488
0.4
0.205
0.367
0.383
3,211
1.835
1.1
0.4
0.4
181.77
9.75
9.8
0.22
21
175.3
1.605
54.858
' 3.802
11.676
63.756
0.44
2.177
0.987
4.675
45.289
0.229
0.729
10.3
1.141
55.988
0.211
204.608
62.539
94.9
0.112
11.5
0.06
0.225
0.763
2.99
0.592
0.459
0.113
1.4
7.3
0.18
0,167
0.15
1,328
15.279
0.505
3.3
7.78
14.735
0,45
SIC Code
9199
9711
2434
2434
3262
3363
3496
3675
3692
3713
2899
2911
4922
2851
3325
1021
2621
2673
2869
3221
3231
3271
3339
3339
3411
3462
3484
3494
3499
3499
3535
3546
3546
3552
3555
3559
3562
3569
3599
3629
3663
3663
3672
3672
3679
3679
3679
3679
3679
3714
3714
3731
3825
3841
3861
3861
3999
4911
5172
5511
5511
5541
5541
5541
5541
5541
7538
7538
8731
9199
9711
9711
9711
Form Code
B203
B203
B203
8203
B203
8203
8203
B203
B203
B203
B204
B204
B204
B204
B204
8205
B205
B205
B20S
8205
B205
B205
B205
B205
8205
8205
8205
B205
8205
B205
8205
B205
B205
8205
8205
8205
B205
B205
B205
8205
B205
B20S
8205
8205
B205
B205
B205
B20S
B205
8205
8205
B205
8205
B205
B205
8205
8205
B20S
8205
8205
8205
8205
B205
B205
8205
B205
8205
8205
B205
8205
B205
8205
8205
Source Code
A57
A19
A09
A09
A19
A19
A19
A
A04
A69
A59
AOS
A19
A37
A09
A40
A58
A40
A58
A19
A29
A19
A09
A19
A65
A59
A59
A04
A09
A37
A40
A3?
A37
A40
A37
A49
A37
A37
A54
A69
A37
A49
A25
A49
A29
A29
A37
A40
AS4
A40
A49
A75
A49
A57
A19
A49
A31
A54
ASS
A
A19
A38
A38
A60
A60
A60
A51
A60
A40
A57
A19
A19
A38
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1,
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 21
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
DOOS
DOOS
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
DOOS
D008
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
System Type
M129
M049
MQ61
M111
M061
M041
M141
M141
M041
MOSS
M999
M077
MQ61
M061
MOBS
M041
M041
M041 -
M021
M049
M141
M079
M061
M061
M051
M061
M061
MQ41
M077
M141
M141
M141
M089
M141
M061
M119
M041
M079
M141
M051
M141
M141
M061
M041
M041
MDK
M141
M111
M061
M129
M059
M032
M061
M141
M061
M051
M061
M061
M141
M141
M061
M141
M061
M141
M061
M032
M061
M141
M061
M061
M049
M051
M041
EPA ID
NY4571 924451
NY3570025897
NJ0000037S07
PAD0007S6063
TXDOS0842277
PAD0893S2983
PAD089352983
PAD003025830
UTD067981316
WID006073225
WID006073225
PAD982569998
RID001 187277
PAD091875310
WID006095616
VTD001078757
VTD981065998
VAD098442148
WID044394757
PAD001 502244
PAD001 502244
VAD054039961
VTD002085108
VAD001307495
WID0761 53030
PAD002482628
WID006069710
W1D006423495
PADQ02602209
PA0002602209
PA3170022104
PAD00076S982
PAD005029582
UT1570090018
NED007263619
NYD986973380
MAD01 9685577
PAD002392991
NYD065939902
NJD096983952
MTD063728984
MID006015960
MID006024749
MAD001 029073
NJD053099974
NJD002385730
NJD002197325
MID005354766
NYD000824359
NYD060545209
MID005356696
MID005357504
MID005357504
NYD002968246
NJT350010195
MND981 098478
NCD097363527
NJD002459485
NYD000368423
MND079731519
MND000823922
MAD980672042
NJD986643161
NYD986884963
NYD001530138
MND042651687
MND982066730
MAD051778934
MAD00100B770
MNDQ66539743
MAD000652644
MND980700900
MND006219232
Volume (tons)
0.245
0.229
1.835
0.6
1.61
7.65
0.225
0.2
4.128
54.235
0.204
53.541
0.437
32.529
42.952
0.459
13.903
7.96
2.721
10.332
4.375
451.7
543.61
0.19
270.185
25.7
61.646
10.384
0.99
2.996
0.166
0.105
71.003
0.235
22.5
2.523
10.271
48.146
3.88
4.796
0.27
0.412
1.44
4.49
0.619
0.712
1.835
1.446
1.411
0.2
1.1
22.891
915,187
8.525
2.544
30.374
14.94
1.758
2.975
4.795
13.809
2.752
5.448
0.459
0.292
5.32
0.431
15.66
2.252
5.303
2.419
25.759
2.202
SIC Code
9711
9999
9909
3312
3315
3341
3341
3369
3412
3432
3432
3443
3479
3492
3494
3499
3499
3549
3554
3554
3554
3714
3724
3731
3822
3823
3824
3841
3843
3843
4225
4911
5047
9999
3714
5983
6512
3561
3679
1221
2023
2531
2841
2843
2869
2891
3086
3229
3312
3322
3369
3369
3451
3469
3471
3494
3496
3519
3571
3571
3S72
3581
3646
3669
3672
3672
3672
3672
3672
3672
3672
3672
Form Code
8205
B205
B205
B205
B20S
B205
B205
B205
8205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B205
B20S
B205
8205
B205
8205
B205
B20S
B205
B205
B205
B205
B205
B20S
B205
B206
B206
B206
8206
8206
8206
8206
8206
8206
8206
8206
8206
8206
B206
B206
B206
B206
8206
B206
B206
B206
B206
B206
B206
B206
B206
B206
8206
8206
B206
B206
B206
B206
B206
Source Code
A54
A59
A60
A60
A40
A40
A59
A03
A40
A40
A40
A03
A37
A49
A05
A05
A40
A35
A40
A'40
A06
A37
A40
A49
A37
A49
A37
A29
A29
AOS
A99
A40
A89
ASS
A53
A69
A56
A92
A06
AOS
A54
A54
A54
A54
AS6
A57
A54
AOS
ASS
A57
A51
A51
A40
A 40
A22
A59
A54
ASS
A09
A25 ' •
A54
A54
A54
A54
A25
A25
A25
A29
A29
A37
A37
A40
Origin Code
1
1
1
1
t
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 22
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
0008
D008
0008
0008
0008
0008
0008
D008
D008
0008
0008
0008
0008
0008
D008
D008
D008
0008
0008
0008
0008
0008
D008
0008
0008
0008
0008
0008
0008
0008
0008
D008
0008
0008
0008
0008
0008
D008
System Type
M061
M141
M141
M041
M125
M051
M141
M061
M141
M141
M061
M041
M042
M129
M041
M051
MDK
M129
MDK
M051
M141
M141
M041
M041
M089
M141
MDK
M061
M132
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061 •
M129
M041
M041
M041
M041
M043
M061
M061
M032
M141
M032
M032
M061
M032
M051
M041
M061
M125
M141
M129
M061
M141
M041
M041
M042
M029
EPA ID
MNT280010034
MAD980672398
NYD009901059
MND086115615
MND982639775
NYD041 429242
NHD001 076009
NYD002463305
MAD990886301
NYD002463305
MID006020416
NYD0021 07399
MED000791681
NJD986644524
NYD002211415
MOD000603472
NJD000689083
NJ41 70022400
NJD056305816
MND003835501
NYD980648562
NJD986645216
NYD000730382
NYD085503746
NYD980782692
NYD000706044
NJD986593507
NJD986593507
NJD986593507
NJD981 484553
NJD981 488174
NJD982742025
NJD986574812
NJD986589166
NJD986595668
NJD986595726
NJD986598597
NJD986598837
NJD986599025
NJD986599215
NJD986599777
NJD986604957
NJD98660771 1
NJD986607844
NJD986608099
NJD986608370
NJD986610699
NJD981488174
NJD000583823
NJD981 141815
NJD986594307
NJD986594737
NJD986593275
NJD981 141815
NJD986593275
NJD986627164
MDP000007936
NJD986616225
NJD986618601
NJ0000059402
MED077462554
MED093623890
NV1210090006
OK9571 824045
NM9570024423
MA0570024026
NY2141768703
NJ9690308029
NJ6690330729
PAD0 14391 874
TX1 151 9321 33
TX1 1519321 33
WID000808287
Volume (tons)
1.605
0.319
0.5
2.39
4.5
1.251
0.075
0.229
0.075
0.459
3.156
6.881
0.427
0.75
1.376
0.198
12.9
0.45
2.294
1.35
0.917
2.919
0.236
18.8
1.428
0.623
63.752
0.834
0.175
1.1
2.1
1.1
5.9
0.3
0.4
0.6
13.1
46.6
0.5
2.7
1.5
0.4
0.9
0.3
0.8
0.5
0.8
0.1
1.669
2.138
1.211
1.062
23
61.224
0.058
3.24
5.012
4.191
1.038
1.75
0.626
0.038
1.431
1.418
0.972
0.21
0.042
3.117
3.612
0.315
3.23
0.6
0.181
SIC Code
3672
3674
3675
3679
3679
3679
3679
3679
3679
3679
3714
3714
3724
3724
3823
3841
4111
4111
4151
4512
4581
4789
4911
4911
4911
4931
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5599
7532
7538
7538
7549
7699
7699
9711
9711
9711
9711
.9711
9999
9999
2621
3089
3089
3321
Form Code
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
8206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
8206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
Source Code
A40
A54
A29
A25
A25
A29
A37
A49
A49
A49
A54
A57
A54
A54
A40
A54
A54
A54
A54
A54
A54
A38
A54
A54
A54
A59
A38
A38
A38
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A54
A60
A60
A60
A60
A60
A60
A60
A54
A19
A54
A54
A92
A06
A19
A54
A54
A54
A59
A69
A92
A92
A54
A54
A54
A58
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
*
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 23
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
D008
0008
0008
D008
0008
O008
D008
D008
0008
0008
0008
D008
0008
0008
D008
D008
O008
D008
D008
D008
D008
D008
0008
D008
D008
0008
0008
D008
D008
0008
D008
D008
System Type
M061
M061
M061
M141
M061
M061
M141
M061
M061
M141
M061
M141
M032
M032
M041
M051
M051
M141
M141
M141
M061
M141
M061
M141
M141
M051
M041
M141
M051
M041
M061
M041
M061
M041
M041
M141
M099
M129
M141
M141
M141
M089
M111
M061
M141
M141
M141
M039
M061
M051
M141
M141
M141
M041
M032
M141
M049
M059
M059
M141
M141
M129
M141
M141
M141
M141
M141
M141
M141
M089
M129
M077
M124
EPA ID
PAD041 398348
PRD0901 93277
TXD008092306
PAD043882281
TXD041321241
PRD000632034
WID980995153
PRD090282757
PRD091 150060
PAD002395325
UTD988070215
PA521 3820892
TXD000014217
PAD014167589
VTD001780725
VAD054040456
VAD054040456
VTD001075894
VA5170000181
VA1 170024813
TXD089602684
TXD000709964
TXD002560233
RID0011 99272
RID001 199272
PAD1 20442660
PAD1 14942832
VA6170061463
UT921 0020922
MND049537129
MND049537129
NJD042321042
NED000802843
NJD002349850
NYD0021 34880
NYD0021 34880
NJD986592129
MAD087443537
MID9856S7444
MID985657469
MID985657477
NJD986621324
NYD987029766
NJ321 0020597
VTD002065597
PAD004321527
PAD004327987
MID080508914
MND071 507644
MOD985808203
MSD985967165
MOD093750966
NHD981211881
NHD986466688
MAD000649640
NJD980766091
ND3571924759
ND3571924759
LAD985171248
NJD986621183
NYD981 138472
NY4571 924774
NV5570024112
NC1 170027261
NC657002447S
NC821 00201 21
MI0571 924760
WID006101695
PAD982363897
WID006073225
PAD056771405
WID006092555
UTD988079133
Volume (tons)
2.475
9.6
26.21
8.1
2.75
0.2
3.3
0.225
0.1
0.12
5.459
0.016
1.73
0.394
2.271
28.375
26.28
0.292
0.578
0.23
0.55
0.66
14.08
3.2
0.825
1.452
0.745
33.17
0.079
13.376
6
2
0.523
50
0.9
1.1
11.468
7.388
2.015
2.45
1.575
0.459
6.5
1.251
0.129
0.207
2.8
40.726
2.602
1.39
0.25
0.581
5.15
3.397
1.359
0.087
0.113
0.74
6.6
1.251
4.37
• 0.23
1.057
0.225
6.503
9.918
0.233
0.136
15.788
0.286
0.05
2.195
0.75
SIC Code
3449
3451
3491
3534
3548
3613
3621
3643
3663
3671
3672
3672
3679
3691
3691
3714
3714
3724
3731
3731
3767
3812
3841
3915
3915
4911
9711
9711
9711
1011
1011
2834
3052
3221
3312
3312
3356
4011
4011
4011
4011
5541
5541
9711
3692
3821
3494
1011
1011
3061
3086
3334
3672
3672
3674
3679
4522
4522
4922
5511
5511
9711
9711
9711
9711
9711
9999
3351
3451
3471
3691
3714
4800
Form Code
B206
B206
8206
6206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B206
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
B207
Source Code
A40
A54
A40
A54
A40
A54
A57
A54
A51
A54
A29
A99
A59
A54
A54
A49
A54
A60
A54
A59
A29
A49
A54
A49
A54
ASS
A54
A54
A58
A69
A69
A65
A56
A57
A09
A09
A69
A65
A65
A65
A65
A54
A65
A69
A53
A56
A59
A57
A59
A54
A59
A59
A01
A57
A19
A04
A58
A89
A09
A59
A99
A19
A57
A59
A59
A59
A59
A19
A49
A58
A94
A31
A19
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 24
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
0008
D008
D008
D008
0008
D008
D008
D008
0008
0008
D008
D008
0008
D008
D008
0008
0008
D008
D008
0008
D008
O008
D008
D008
D008
D008
D008
D008
D008
0008
D008
0008
0008
0008
D008
0008
D008
O008
D008
0008
D008
O008
0008
DO 08
D008
0008
D008
D008
O008
D008
D008
D008
D008
D008
System Type
M129
M141
M077
M132
M141
M119
M119
M051
M111
M111
M111
M043
M014
M141
M049
M043
M141
M061
M141
M119
M141
M141
M141
M141
M043
M141
M141
M141
M111
M141
M111
M077
M111
M042
M021
M041
M043
M141
M141
M141
M129
M129
M111
M132
M111
M061
M141
M089
M132
M141
M141
M077
M041
M141
M041
M141
M111
M061
M061
M029
M081
M021
M141
M029
M039
M141
M029
M043
M051
M061
M141
M141
M141
EPA ID
LTTD988079133
PAD000804997
UT0571 724350
UT0571 724350
TX2571724333
NJD986641124
NJ0986647303
NJD060724713
NJD067S20890
MDD003084514
MID981089022
MID982604001
MSD081 338832
MAD051 778934
MID0053S6928
NYD000809327
MI0982628471
MN0000826248
NYD991 290800
NJ0000556340
MAD030821631
NJD003909819
NYD981078330
NJ0006980924
NC1 170027261
MD4170090001
NV9170022173
NV9170022173
NHD986484152
PAD981 738214
WID00608S757
WIDOOS085757
PAD002124360
TXD990797441
WID074780982
W1D074780982
WID074780982
VA1 17002481 3
VAD988186110
VA1 17002481 3
VA3971 520751
MDP000007680
NJD986589992
MID985665520 '
W1D006085757
WID006169502
PAD003046679
NJD001 986801
MID005318480
NJD981 184773
MD4690307844
NY5690319889
NY2141768703
MI0571 924760
R1D001 786565
PAD096837356
PA621 3820503
NYD002116499
NCD9S0840466
NYD013128582
NY0066075797
MOD 106563562
NJD980648497
NJD01 1876042
NYD980664171
MI0571 924760
WIT560011215
WID088694799
VAD054040456
PAD0541 40504
VTD001 075894
VA1 17002481 3
VA5170000181
Volume (tons)
1.235
1,288
0.559
0,488
13.86
1
33.6
0.644
0.2
32.1
24.75
0.459
0.563
2.267
1.101
0.1
0.229
0.234
0.3
0.688
10.065
0.03
1,536
0.6
0.2
0.01
0,005
0.005
69.984
2.31
15.846
27.521
0.737
2.46
1.166
0,1
6,503
0,107
0.002
0.029
0.002
11.7
4.75
2.52
13.481
10.7
4.96
22.544
2.188
0.251
0.003
0.125
0.003
0.005
1.815
' 0.005
0.249
0.23
18.975
0.613
1.048
0.5
0.229
0.417
4
0.585
0.233
2
50.4
12.15
6.105
0.018
0.05
SIC Code
4800
5171
7538
7538
9711
1721
1721
2674
2869
3446
3479
3479
3585
3672
3711
3861
4011
4011
' 4729
4785
4911
4911
4911
8731
9711
9711
9711
9711
9999
1611
2531
2531
3494
3531
3531
3531
3531
3731
3731
3731
9711
1721
2653
4941
2531
3011
3494
2671
3069
3728
3731
9199
9711
9999
3714
3721
9711
3231
3524
3559
3643
4011
4581
5511
9199
9999
2741
3441
3714
3715
3724
3731
3731
Form Code
B207
B207
B207
B207
B207
B209
B209
B209
8209
B209
B209
B209
B209
B209
B209
B209
B209
B209
B209
B2Q9
B209
B209
B209
B209
8209
B209
B209
B209
B209
B209
B209
6209
B209
B209
8209
B209
B209
B209
8209
B209
B209
B209
B209
B209
B209
8209
8209
B210
B210
B210
B210
B210
B210
B210
B210
B210
B210
B211
B211
B211
B211
6211
B211
B211
B211
B211
B211
8211
B211
B211
8211
8211
821 1
. Source Code
A19
ATS
A59
A59
A22
A21
A21
A29
ASS
A21
A21
A38
A21
A09
ASS
A21
AS7
ASS
A21
A57
A21
A51
A69
A21
A21
A21
A57
ASS
A57
A21
AM
ASS
A21
A21
A89
A89
A89
A21
ASS
A59
ASS
A21
A69
A08
A99
ASS
A22
A09
A29
ASS
ASS
ASS
A69
A49
A58
A21
A29
A09
A01
A19
A03
A19
A19
A29
A21
A05
A05
A21
A05
A21
A05
A49
A49
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 25
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
IXX)8
D008
D008
D008
D008
D008
D008
D008
D003
IXX)8
D008
D008
D008
0008
O008
D008
D008
D008
D008
O008
IXX)8
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
IXX)8
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
System Type
M051
M141
M061
M141
M061
M032
M125
M041
M041
M141
M021
M111
M021
M141
M061
M041
M081
M141
M141
M051
M061
M141
M061
M051
M041
M041
M061
M089
M141
M141
M141
M039
M041
M141
M039
M041
M041
M041
M141
M039
M039
M039
M039
M129
M029
M032
M061
M141
M029
M039
M039
M061
M061
M061
M061
M061
M061
M032
M032
M032
M032
M061
M061
M061
M061
V061
M129
M061
M061
V021
M021
V021
M051
EPA ID
PAD982674913
VA6170061463
MOD000823252
NYD002067882
LAD008086506
MAD985285758
MDD003082997
MID005358825
NJD002385730
NYD986934420
OKD074294612
NHD1 180871 54
MOD006299135
NYD986934420
NYD980777320
NYD093256063
NHD073984288
MAD990685554
NHD981211881
NYD04S201688
MND0008 19292
MAD980525505
NED035093053
NYD091 975037
MND980996391
MOD085002319
MOD085002319
MDD004383402
NHD001091073
MAD086 534864
MAD062163191
NJD003811841
MNT280010778
NJ2360010332
NJD986614519
ND3571924759
LA6 170022788
MND076502335
NJD982532590
NJD986609121
NJD986627446
NJD986631968
NJD986632453
NJD070572425
NJD9866 18643
NJD986612455
NJD986612455
NJD986625028
NYD049833163
MDD022545909
NJD986604395
NJD986604601
NJD986604668
NJD986604940
NJD986605020
NJD986605103
NJD986605384
NJD986609972
NJD986613065
NJD986617991
NJD986625028
NJD986617991
NJD986621S45
NJD986625028
NJD986608651
NJP000909101
NJD986608651
NYD986930279
NJD986639201
NYD986990539
VYD986990562
NYD986991032
MID985574961
Volume (tons)
0.826
0.011
3.239
0.585
0.392
4
0.95
20.2
10.307
0.193
0.573
3
0.6
0.385
1.848
2.735
5.18
0.075
0.975
5.7
0.784
3.211
1
2.3
1.925
28.799
12.936
1.374
0.292
0.212
0.264
2.4
14.262
27.7
0.834
0.004
0.224
0.417
4.5
0.46
0.23
0.92
1.15
1.147
'1.076
1.757
22.357
0.157
5.911
3.289
0.254
0.834
0.025
0.05
0.087
0.08
0.229
1.147
0.2
0.2
0.1
0.2
0.196
15.2
13.2
15.2
2.1
3.8
0.2
2.408
3.803
4.613
1.525
SIC Code
9621
9711
1031
2611
2812
2834
2844
2851
2869
3494
3519
3567
3585
3594
3612
3629
3641
3669
3672
3672
3672
3672
3676
3699
3699
3711
3711
3812
3825
3841
3861
4212
4225
4499
4512
4522
4581
4613
4925
5399
5399
5399
5399
5511
5511
5511
5511
5511
5511
5511
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
7538
7549
7549
7549
8711
Form Code
B211
B211
8219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
Source Code
A19
A58
A53
A54
A59
A57
A21
A99
A09
A19
A19
A31
A59
A19
A29
A92
A05
A49
A01
A29
A29
A29
A19
A49
A99
A22
A22
A59
A29
A99
A49
A59
ASS
A19
A58
A58
A57
ASS
A59
A99
A99
A99
A99
A09
A19
A54
A54
A54
A59
A99
A49
A49
A49
A49
A49
A49
A49
A51
A53
A54
A54
A54
A54
A54
A59
A59
A59
A60
A54
A99
A99
A99
A37
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 26
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0008
D008
D008
0008
D008
0008
0008
D008
D008
D008
D008
0008
D008
D008
DQOS
D008
D008
0008
0008
D008
0008
D008
0008
D008
0008
D008
0008
D008
D008
0008
D008
D008
DO08
0008
0008
0008
0008
D008
0008
D008
0008
D008
0008
0008
D008
0008
0008
D008
0008
D008
D008
D008
D008
D008
D008
0008
D008
0008
D008
D008
D008
0008
0008
0008
D008
D008
0008
0008
0008
0008
D008
0008
D008
System Type
M032
M039
M141
M049
M141
M023
M14t
M061
M061
M077
M041
M141
M061
M041
M141
M129
M032
M052
M111
M141
M141
M061
M141
M129
M141
M141
M141
M999
M077
M141
M061
M039
M141
M141
M061
M129
M129
M129
M129
M129
M129
M129
M129
M141
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M061
M132
M111
EPA ID
NJD986653426
NJ01 700221 72
NV7570024110
WYD073419517
TXD008016404
WID00612S379
WIDC06114078
PAD097880538
TXD982563488
PA0097880538
TXD988043204
VAD066000993
PAD987270998
PAD002279149
VA09881861 10
PAD003044971
PAD002343200
WVD98879999S
WVD988799995
PA821 3820642
PAD061 102125
PAD08S681392
WID088547854
W1D045391927
PAD081 624520
PAD981738214
PAD980919088
WA2170023418
VAD9882283S9
UT3213820894
OR0093481646
NJD002406171
NCD048469993
NJD002395382
M1D985663467
NYD0239496S4
NYD061 935474
NYD981485022
NYD986958502
NYD986958577
NYD9869S8601
NYD986958627
NYD987020120
NY0000702027
NJD981083587
NJD981 132483
NJD982739187
NJD982790933
NJ0986574812
NJD986595726
NJD986595767
NJD98659S783
NJD986596377
NJD986598571
NJO986598886
MJD986598936
NJD986599017
NJD986599025
NJD9S6599041
N4D986599207
NJD986599488
NJD986599686
NJD986599S84
NJD986604965
NJD986608313
NJD986608545
NJD986608727
NJD986608784
NJD986610S14
NJD986612158
NJD986646982
WTD986073245
WID00607322S
Volume (tons)
0.41
0.62
0.221
1.486
1.3
0.625
1.12
1
5.83
0.25
5.01
3.391
0.1
0.6
0.019
0.3
7.68
0.5
0.5
0.18
0.039
0.836
1.61
1.147
2.1
0.787
0.5
0.24
0.05
0.011
1.504
0.25
0.2
0.305
0.85
1.6
5.3
12.6
6
10.8
1.4
33.6
3.2
6.5
2.3
0.4
1.1
0.6
0.6
0.5
1.3
10.4
4.5
2
13.3
1.1
1.7
2.5
0.2
0.1
1.3
1
1.7
0.3
0.3
1.5
0.3
0.2
1.3
0.2
3.8
39.5
0.413
SIC Code
8711
9711
9711
1221
1721
3548
3554
3672
3672
3672
3672
3672
3679
3679
3731
3795
3996
4011
4011
4225
4231
4789
4953
5171
7538
7538
7539
9711
9711
9711
1721
2842
2843
3561
4011
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
3431
Form Code
821 9
B219
B219
B219
B219
B219
621 9
B219
8219
8219
B219
B219
B219
8219
B219
B219
B219
B219
6219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
8219
B219
8219
B219
B219
S219
B219
8219
B219
B219
8219
8219
B219
6219
B219
B219
B219
B219
B219
B219
8219
8219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
8219
B219
8219
B219
B219
8219
B219
8219
B219
B219
B219
8219
Source Code
A49
AS1
ASS
A58
A72
A69
A29
A29
A29
A29
A37
A91
A56
A93
ASS
A99
A99
A54
A54
A59
A19
A19
A69
A60
A59
A59
A99
A19
ASS
A29
A56
ASS
ASS
A65
AS7
AS7
AS?
AST
A57
A57
A57
AS7
A59
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A60
A65
A53
Origin Code
l
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
• 2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
Page 27
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
DQ08
D008
DOOS
D008
DOOS
0008
DOOS
0008
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
D008
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
0008
DOOS
DOOS
D008
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M132
M999
M041
M032
M061
M132
M132
M111
M111
M141
M129
M141
M043
M141
M132
M141
M119
M132
M132
M132
M111
MDK
M132
M132
M111
M032
M051
Ml 11
M111
M111
M14I
M043
M111
M132
M132
M019
M111
M043
M111
M132
M111
M043
M111
M119
M141
M049
M043 '
M119
M111
M132
M132
M141
M011
M011
M119
M111
M043
M132
M141
M132
M133
M032
M013
M141
MDK
M129
M043
M132
M119
M061
M043
M132
M111
EPA ID
VA6690500909
WAD114685373
PAD000797670
TXD981914534
M1D087738431
NJD0021 52205
OKP410139374
NJD986586626
MID085899706
MAD051774156
NJD986626356
NJD000572446
MOD981 709272
NJ421 3720275
TXD006451090
VA1 17002481 3
WID08S686003
NYD981 560931
NYO043815158
NJD0021 73946
LAD008058471
NJD044887743
NJD044887743
MID00081064S
NYD0518099S2
NJD064292261
NJD9865863S6
NJD986586592
NJD9865S6634
NJD986586733
NJD986586733
NY008S503746
MID985663970
NJD980S33582
NJD980533541
NJD002329449
NCT000002251
ORD000641639
ORD009597543
ORD093481646
NJT350011144
NJD01 171 7584
NJD01 1717584
MS21 70022626
NC6570024475
NJD986573715
ORD02761S186
NJD986648954
PADOQ2107076
PAD0021 07076
PAD004342556
W1D988635868
NVD986767572
NVD9867S7S72
NJD986587079
NYD987033966 '
LAD0081 87080
NJD042912287
NYD000799122
M1D005356696
NEDOQ7285257
NYD0021 14924
NYD00224O638
MHD002059525
NJD002345247
NJD002461234
MND000608554
NCT000002235
NJD0021 86690
MID086744802
NED000822775
NYD987029949
MDD01 0094621
Volume (tons)
0.459
0.2
0.2
522
0.385
154
0,981
136.469
92.917
5
109.8
3.6§6
2.475
0.917
722
0.915
2.293
91
12.27
2,087.28
150.6
4.5
24.5
. 199.79
2.3
0.05
3,037.69
17.5
25.136
2.714.00
396.416
0.5
17
53.44
5.274
132.49
95.77
2.315
0.301
12.98
13.62
507.595
3.006.91
0.05
0.47
0.927
21.519
1.323
62
40
12
0.665
0,993
1.985
142.228
53.2
18.13
302.4
1.8
5.765
220.28
1.5
15,75
1
88.92
0.235
0.072
10
6,118.85
0.2
3
35
2.4
SIC Code
4581
4911
5171
2999
3312
3357
3533
4785
4911
5171
5171
6512
8734
9711
3312
3731
3844
1794
2869
2892
. 2911
3452
3452
3711
4212
4231
4785
4785
4785
4785
4785
4911
4922
4931
4931
5085
5093
5171
5171
5171
5171
8999
8999
9199
9711
9711
9999
9999
3412
3412
3743
9199
1044
1044
1611
1622
2869
2869
2892
3322
3366
3442
3484
3484
3497
3559
3571
3691
3711
3714
4013
4225
4613
Form Code
8219
B219
B219
B296
8301
B301
B301
B301
B301
B301
B301
8301
B301
B301
B301
B301
B301
B301 •
8301
8301
B301
8301
B301
8301
8301
8301.
B301
B301
B301
B301
B301
B301
B301
B301
B301
8301
8301
B301
B301
8301
B301
B301
8301
B301
8301
8301
8301
B301
8301
8301
8301
8301
B302
8302
B302
8302
8302
8302
8302
8302
8302
B302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
Source Code
A59
A59
A92
A69
A92
A53
A29
A65
A69
A69
A94
A53
ASS
A29
A99
A61
A93
A69
A69
A68
A68
A65
A53
ASS
A69
A69
A69
A69
A69
ASS
ASS
A60
A92
ASS
A69
A51
A51
A53
A69
A61
A61
A53
A53
A69
A61
A62
A69
A69
A57
A99
A78
A92
A69
A92
A21
A99
A56
A53
A99
A69
A08
A92
ASS
A92
A29
A06
A99
ASS
A69
A60
A29
Origin Code
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
"1
1
1
1
Page 28
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0008
DOOS
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
0008
D008
DOOS
D008
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
0008
DOOS -
0008
DOOS
System Type
M111
M141
M141
M111
M032
M111
M111
Ml 11
M129
M129
M141
M141
M141
M141
M111
M111
M119
M141
M141
M141
M141
M141
M141
M132
M141
M141
M141
M141
M132
M141
M141
M14t
Mill
M141
M141
M132
M141
M111
M141
M111
M111
M111
M132
M132
M111
M111
M111
M132
M041
M141
M019
M119
M141
M119
M129
M111
M077
M141
M111
M125
M111
M119
M111
M112
M141
M019
M111
M132
M132
M141
M141
M132
M132
EPA ID
NCD05703816S
NCDOS7038168
NYD981483332
NYD987025780
NYD987039138
NYD000730382
NYD980779151
NYD980788483
NYD980782692
NYD981 076904
NYD980788483
MID084305903
NJD094961042
NYD000706044
NYD000706218
NYD9821 77743
NYD1 37976247
NYD000706218
NYD078510211
NYD1 37976247
NYD9821 77743
NYD986872489
NYD987010964
NJDOOOS74004
NYD980593636
NJD060728060
NYD986880318
MAD985296482
NYD080480734
NYD080480734
NHD000790923
MDD980829S73
NYD98703S532
NJ1680090015
NYD987008554
OK9571 824045
NC1 170027261
ME71 7002201 9
NY2690300635
WID988637419
W1D988637427
W1D988637435
VAD00930S137
VA1210020730
VID980536080
WVD004319208
PAD00433S154
TXD008091712
VTD001780725
VA1 170024813
WY5571924179
WID086686003
RID001 199272
VAD007941644
PA3170022104
WID000711416
PA8890031869
VAS170022482
VA0572890002
NCTOOOQ02336
NYD9870344S1
NYD000512848
NYD02S597048
NJD051 265239
NJD986621522
NJD002171213
NYD093249688
LAD079460895
NJD053101085
NJD986650273
MED000840991
NJD004496881
NCD04S646924
Volume (tons)
6.6
7.8
0.75
2.55
1.402
3.722
25.057
1.804
4.009
1.569
0.761
1.25
0.3
0.15
1,035.30
20.2
54.3
806
27.3
1.490.30
1,704.60
79.3
403.8
19
29.8
13.5
3.75
70.8
0.182
0.19
0.042
0.606
6.9
0.202
1.25
38.12
0.017
251.92
6.4
30.688
30.388
14.328
44
0.761
21.3
55.7
882.34
2.98
0.027
0.64
0.302
5.045
0.2
1,073.00
14.77
9.01
110.2
0.275
25.55
8.1
937.6
826.4
7.875
302.8
2.576
545.16
0.45
3.79
410
0.45
0.603
170.4
89.8
SIC Code
4613
4613
4789
4813
4911
4911
4911
4911
4911
4911
4911
4922
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
5171
5171
•' 5541
7997
7997
8221
8221
9511
9511
9621
9711
9711
9711
9711
1622
1622
1622
2824
2892
2911
3089
3312
3334
3691
3731
3761
3844
3915
4011
4225
4911
8733
9711
9711
291
1542
1794
2653
2819
2821
2851
2865
2869
2869
3087
3264
3316
3339
Form Code
B302
8302
8302
B302
B302
B302
8302
B302
8302
8302
8302
B302
B302
B302
8302
B302
B302
B302
8302
B302
8302
8302
8302 ,
8302
B302
8302
B302
8302
B302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
B302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
8302
B302
B302
8302
B302
8302
8302
8302
8302
8302
B302
8302
8302
8302
8302
8302
8302
8302
Source Code
A29
A29
A21
A69
A05
A05
A05
A05
A05
A05
A05
A21
A19
AS9
A60
A60
A60
A60
A60
A60
A60
A60
A60
A99
A99
AOS
A08
A69
A99
A99
A21
A69
AOS
A94
A21
A21
A53
A69
A69
A19
A19
A19
A59
ASS
A29
ASS
A69
A69
A29
A21
A01
A56
A94
A99
A69
A29
A69
A53
A69
A69
A69
A61
A65
A69
A69
A69
A60
A69
A69
A69
A91
A69
ASS
Origin Code
1
1
1
1
1
•1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
Page 29
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
0008
D008
0008
0008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
D008
D008
D008
System Type
M111
M141
M111
M111
M141
M132
M141
M111
M132
M132
M132
M132
M111
Ml 11
M111
M111.
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
Ml 11
M111
M111
M111
M111
M111
M111
M111
M111
M111
Mill-
Mill
M141
M132
M141
M141
M141
M111
M111
M111
M132
M111
M119
M141
M132
MWA
M111
M111
M132
M141
M141
MU1
M141
M141
M141
M141
M141
M141
M141
win
M111
M111
M111
M132
EPA ID
NJD0021901SS
NJO002143261
MND000819268
NJD038475133
NCD98S171882
NJD053426474
NJD0391 12917
NYD981 484785
MOD0071 52903
NCD003213030
MIDOOS357975
NYD9821 83857
NYD987018486
NYD987030491
NYP00001 1826
NYP000794891
NYP000908129
NYP000908293
NYP000908616
NYPOQ0908715
NYP000908962
MYP000909218
NYP000909663
NYP000909929
NYP000909945
NYP00091QOOO
NYP000910018
NYP000910026
NYP000910Q59
NYPOOQ910968
NYP000910992
NYPOQ091 1040
NYP000911Q57
NYP000911255
NYP000911529
NYP000911628
NYP000911677
NYP000912089
NYP000912121
NYP000912S35
NYP000912543
NYP000910158
NYD982738205 .
NJD077070811
NYD980648158
NYD9806482Q8
NYD012800173
NYD0000712S2
NYD987029006
NJD079320495
NYD1 2691 2054
NJD986627271
NYD987026135
MID985663350
NJD986613891
NYD987040C37
MD01 20508940
ME9570024522
MAD981071616
MA0981071699
MAD981071756
MAT087461920
MAT087593065
MAT087757S57
MAT089476550
MAT089978700
MAT1 74475011
MAT176627568
NYP000909580
NJD985620664
NJD986S33543
NJD986641637
NJD98S648954
Volume (tons)
24.4
31.8
0.054
128.016
0.5
1,564.00
0.6
1.5
33.124
22.51
1.397.00
18
3.4
117
1.7
1.7
1.7
1.7
5.1
1.7
1.7
2.55
2.55
1.7
3.4
1.7
2.55
2.55
4.25
1.575
5.81
1.7
2.55
1.7
2.55
1.7
1.7
1.7
2.55
2.55
6.8
1.369
252.32
0.015
0.3
7.41
758.6
10
42
49.825
0.9
0.35
51.25
537.6
1.6
4
1,310.21
14.87
10.6
21.512
28.85
5.25
3.75
12.25
12.25
7
66.5
5.1
6.9
227
1,168.00
713
111.25
SIC Code
33S7
3357
3489
3499
3534
3594
3662
3671
3672
3691
3711
3743
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4813
4931
4931
4931
4931
5171
5541
5541
6512
7538
7539
7539
7997
8211
8211
8733
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
9999
9999
.9999
9999
Form Code
B302
B302
8302
6302
8302
8302
B302
B302
8302
B302
B302
B302
B302
B302
S302
8302
8302
8302
8302
8302
8302
B302
B302
B302
B302
B302
B302
B302
8302
8302
8302
8302
8302
8302
8302
8302
8302
B302
B302
B302
B302
B302
8302
8302-
8302
8302
8302
B302
8302
8302
8302
B302
B302
8302
8302
8302
B302
8302
B3Q2
B302
B302
8302
8302
8302
B302
8302
8302 •
B302
8302
8302
8302
8302
Source Code
A69
A69
A53
A69
ASS
A69
A99
A69
A69
A99
A65
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
AS9
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A53
ASS
ASS
A59
A69
A69
A69
A69
A69
A59
A69
A69
A65
A79
A69
A64
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A21
A62
A62
A62
A62
Origin Code
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
Page 30
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
0008
D008
DOOS
DOOB
D008
DOOS
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
0008
0008
0008
0008
0008
D008
0008
0008
0008
0008
D008
D008
DOQ8
0008
0008
0008
0008
0008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
0008
0008
D008
D008
DOOS
D008
0008
DOOS
DOOB
0008
0008
DOOS
DOOS
0008
0008
DOOB
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M129
MU1
M077
M111
M111
M132
M111
M111
M132
Ml 11
Mill
M119
M111
M129
M132
M043
M111
M111
M999
M111
M111
M111
M132
M132
M111
M111
M111
M141
M129
M111
M141
M129
M132
M132
M141
M111
M119
M132
M111
M111
M141
M014
M111
M111
M111
M111
M132
M132
M132
M111
M132
M141
M029
M111
M119
M049
M043
M019
M019
M112
M141
M042
M061
M111
M019
M019
M141
M019
M011
M111
M111
M019
M111
EPA ID
NJD986579449
TT9570090002
PAP000006834
PAD069038941
PAO098150535
PAD002311884
PAD004332300
PAD990753089
VAD988218038
PAD045880S61
PADOT9181186
WD006135388
PAD98103S017
PRD980644470
PRD980644496
PAD04358384a
W1D988639829
PAD049628480
WID003967148
PAP000006975
PAD980829329
PAP000005734
PAD980829329
PAP000005734
PAP000006118
PAP00000638S
NJD000909234
MS621 0809871
NHD045013257
LAD071940233
NY5120010710
LA9571924050
LAD981055791
VA1210020730
WI9210020054
UTD988078150
W1D981 093255
NCD047373766
ORD981 764822
NYD987017829
NYD987017829
IWD982030454
NVD000627034
MTD000710210
NVD000626S31
NVD000627034
NVD000626531
NVD000627034
MND000686121
MOD059200089
NYD006977086
NJD986588945
M1D981091218
M1D097804025
NYD013726443
NJD002195303
MND980702286
NMD052686896
NYO986874501
MOD006267223
NYD002235216
MOD075892646
MOD075892646
NYD002227973
NJD002456499
NJD002170702
NHDOQ1,079219
NJD01 1528346
NVD9S0885560
MED981215080
NJD001 824713
NJ7170023744
NV121 0090006
Volume (tons)
1 ,655,40
0.57
187
14.8
478.8
322.49
23.4
41.3
6.545
168.92
50
0.594
57.23
4.579
6.314
0.607
8
50
4,663.52
763.7
5.066.X
2,545,00
421.7
980
252.3
142.4
247.4
0.711
0.656
26.2
8.4
0,251
16.8
117
0.233
86.03
9.488
7.98
13,582
318.9
19
15.695
3.19
8.1
20.38
32:75
93.38
90,81
3.5
7,760.87
197.062
66.152
13.468
60.8
49
0.793
0.5
4.28
2.324
0.805
0.522
3.211
1.606
0.536
0.414
3.641
3.05
212.603
41.642
1.55
3.6
0.636
2.23
SIC Code
9999
1721
2431
2816
2819
2851
3229
3341
3*41
3535
3691
3731
3995
4911
4911
7699
7997
8733
9511
9621
9999
9999
9999
9999
9999
9999
4952
9199
2761
3491
8733
9711
9999
2892
2892
4953
5093
2833
4953
4953
4953
1041
1041
1041
1041
1041
1041
1041
2819
3339
3341
3366
3398
3398
3398
3399
3561
3571
3571
3585
3594
3612
3612
3644
3672
3679
3699
5093
8734
8734
8734
9711
9711
Form Code
B302
B302
B302
B302
B302
B302
B302
B302
B302
B3Q2
B302
8302
B302
B302
B302
8302
8302
B302
B302
B302
B302
8302
B302
8302
B302
B302
8302
B302
8303
B303
B303
B303
B303
B303
B303
8303
B303
8303
8303
B303
B303
B304
B304
8304
B304
B304
B304
B304
B304
B304
8304
B304
8304
8304
8304
8304
B304
5304
S304
8304
8304
8304
8304
8304
8304
8304
8304
B304
8304
8304
8304
B304
8304
Source Code
A69
A69
A69
A69
A99
A69
A69
A59
A69
A69
A69
A99
ASS
ASS
A53
A53
A99
A69
A59
A99
A61
A61
A61
A61
A69
A69
A75
A94
A60
A74
A74
A59
A74
A74
A74
A78
A74
A74
A72
A74
A74
A72
A78
A94
A94
A94
A94
A94
A39
A72
ATS
A35
A2S
A25
A25
A40
A21
A39
A39
A74
A19
A06
A06
A39
A09
A35
A49
A89
A94
A94
A94
A25
A74
Origin Code
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
3
1.
1
1
1
1
1
1
1
' 1
3
3
3
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 31
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
Doos
D008
D008
D008
D008
D008
D008
D008
System Type
M019
M111
M111
M132
M111
M132
M013
M111
M111
Mm
M132
M111
M019
M013
M141
M111
M132
M141
M132
M019
M011
M125
M141
M141
M119
M141
M132
M141
M111
M141
M111
M111
M111
M111
M111
M141
M049
M141
M141
M141
M019
M043
M013
M141
M019
M111
M141
M141
M111
M032
M111
M132
M132
M111
M132
M141
M013
M014
M013
M141
M011
M111
M011
M132
M019
M119
M141
M141
M019
M011
M132
M013
M125
EPA ID
PAD987392933
WID048027734
WVD009233297
PAD004372363
PAD990753089
PAD990753089
PAD089352983
WID980570113
WID006070338
WID006073225
WID006073225
WID006073225
PAD981 730633
PAD079181186
PA821 3820642
WID006073225
TXD987987807
UT321 3820894
NJD0021 73946
NHD001083914
PAD004344222
MID005381439
PAD003025830
PAD003025830
NJD002189132
NCD051 327963
OKD065436180
PA521 3820892
NJD080620040
WID006091227
NYD000824425
NYD987005980
NYD987027539
NYD987031937
NYD987037421
NYD987037629
MDD069383289
MID006015960
MED980671796
MED001 107051
MED001095629
1_AD0081 82990
NJD002385730'
NCD095459392
NYD980768386
NCD057450090
NYD987027687
NYD987027695
MSD985978501 .
NYD002214484
ORD009025644
MID980826523
MI0980826523
ORD009025644
MID072782683
NYD0021 04875
NVD982511826
MND0061 56590
MND980616700
NHD01 8953794
MAD985294347
NJD060074101
NJD986578888
MAD001 439546
NYD000824417
MID052046513
NJD0021 89793
NHD001085158
MND079731519
MND079731519
NYD986874501
MND000823922
MND000823922
Volume (tons)
57.789
212.562
0.075
697.6
38.1
13.769.00
239.342
15.04
44.79
38.022
15.49
0.175
0.572
789.301
0.285
0.225
297.32
0.02
7.57
0.458
21.88
89
0.35
13.763
9.24
0.136
243.24
0.076
7
0.054
14
377.4
5.85
1.9
2.2
6.275
12
0.11
0.002
1.25
0.005
0.61
0.75
0.275
3.2
1.431.10
1.4
1.4
15
0.772
39.94
1
45
1.711
3.461
1.525
33.126
9.7
0.25
339.63
0.276
53.075
14.147
0.95
1.05
0.01
0.4
0.302
16.97
3.305
8.53
2.361
25.547
SIC Code
3315
3321
3334
3339
3341
3341
3341
3366
3369
3431
3431
3432
3679
3691
4225
4961
9511
9711
2892
3679
3315
3341
3369
3369
2819
3052
3315
3672
3471
3639
3229
1721
1721
1721
1721
1721
1721
2023
2611
2621
2621
2822
2869
2892
2992
3231
3291
3291
3315
3317
3369
3369
3369
3369
3465
3469
3482
3482
3483
3484
3489
3499
3499
3511
3559
3562
3568
3569
3571
3571
3571
3571
3571
Form Code
B3O4
B304
8304
B304
8304
B304
B304
B304
B304
B304
8304
8304
8304
8304
8304
8304
8304
8304
8304
8304
8304
8305
8305
8305
8306
B306
8306
8306
8306
8306
8306
B307
B307
B307
8307
8307
B307
B307
8307
B307
8307
8307
B307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
B307
8307
B307
B307
B307
B307
B307
B307
B307
B307
B307
B307
8307
B307
B307
8307
B307
Source Code
A39
A78
A08
A39
A72
A72
A78
ATS
A78
A29
A29
A69
A39
A35
A21
A69
A74
A40
A93
A64
A93
A59
A09
A78
A38
A71
A25
A60
A75
A53
A75
A21
A21
A21
A21
A21
A29
A19
A57
A40
A99
A21
A09
A92
A51
A21
A29
A29
A40
A29
A29
A40 •
A78
A92
A08
A35
A40
A59
A49
A69
A39
A49
A57
A71
A09
A29
A99
A59
A22
A29
A29
A57
A57
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
.1
1
1
1
1
1
2
2
2
1
1
1
1
1
1
1
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 32
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0008
D008
D008
D008
D008
0008
D008 •
D008
D008
D008
DOOB
D008
D008
D008
DOCS
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
DOOB
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
DOOB
D008
D008
0008
0008
0008
D008
D008
O008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
0008 ,
oooa
D008
D008
D008
DOCS
D008
D008
D008
D008
D008
DOOB
System Type
M013
M125
M111
M141
M011
M012
M011
M141
M011
M091
M019
M019
M121
M011
M019
M011
M011
M019
Ml 41
M019
M011
M019 '
M141
M111
M019
M141
M019
M141
M019
M019
M019
M019
M141
M019
M141
M111
M111
M111
M019
M111
M019
M132
M141
M132
M011
M019
M141 .
M141
M141
M141
M141 '
M141
M043
M111
M043
M043
M141
Wife
M132
M019
M111
M141
M039
M141
M041
M132
M141
M011
M013
M043
M111
M111
M043
EPA ID
NMDOS2886896
MND000823922
NED072902513
NCD003907508
MAD001 005370
OKD0071 89111
MAD001 005370
NJD0581 12947
NJD001 643840
NYD044470680
NJD086432903
NJD986598316
MAD001Q53636
MND006219232
NJD000692350
MND98Q7Q0900
MND980700900
NYD044477784
MAD000844571
NHD045513785
NYDOOQ7Q7901
MED980913883
MED077469864
MED077469864
MND036232908
NJD986650992
MOD007120652
MAD001411081
MND985668227
NYD002247377
NYD059385120
MND98S668227
MND006147268
MND98S668227
NJD980766091
MND982424202
NYD001 929611
MSD065462S17
NYD0021 15087
MID005356S86
NYD0021 07399
NVD982467250
MAD001408517
OR2690308927
NYD000521971
NYD986934024
NYD986934024
NYD002246114
MAD001013228
NCD9861 94850
MAD062163191
MAD001011071
NJD936621142
MTD980955660
NYD982181661
NYD987031655
NYD074345315
NJD981141575
MID000722157
NJD981 083025
NJD000048967
MD61 50004095
MDD050793926
MDD980829873
NYD002223642
NYD002223642
MD821 3822762.
NCD980843866
NCD980843866
NCD9S0843866
NY5690319889
MDD980553820
NJO 1700221 72 '
Volume (tons)
0.075
0.3
0.431
0.4
11.934
33.2
1.528
0.086
2.067
0.35
0.669
3.64
0.048
43.25
0.225
23.381
116.898
6.912
0.204
0.45
5.03
0.644
0.78
112.3
4.54
0.5
1.605
13.675
0.3
0.033
0.122
5.25
233.639
0.382
0.62
1.375
9.87
1.552
48.802
27.285
2.989
5.242
1.712
0.075
0.434
2.285
0.171
0.06
0.05
0.5
0.21
0.847
0.1
0.315
1.702
2.102
4
0.229
0.017
15
39
2.983
14.045
2.5
0.01
' 2.74
0.048
1.834
1.038
1.854
26.177
0.017
0.413
SIC Code
3571
3571
3613
3624
3661
3661
3661
3662
3663
3669
3669
3669
3671
3672
3672
3672
3672
3672
3672
3674
3674
3675
3675
3675
3576
3677
3678
3679
3679
3679
3679
3679
3679
3679
3679
3679
3714
3714
3714
3714
3714
3714
3724
3731
3812
3812
3812
3812
3326
3843
3861
3914
3951
4011
4111
4111
4226
4482
4911
4925
4941
8099
8221
8221
8221
8221
8733
8734
8734
8734
9199
9669
9711
Form Code
B307
8307
B307
B307
B307
B307
B307
B307.
8307
B307
B307
B307
8307
B307
B307
B307
B307
B307
8307
B307
B307
B307
B307
8307
B307
8307
B307
8307
B307
B307
8307
8307
B307
B307
B307
B307
6307
8307
8307
B307
B307
8307
8307
B307
B307
B307
B307
B3Q7
B307
B307
8307
8307
8307
B307
B307
B307
8307
B307
8307
B307
8307
8307
B307
8307
6307
B307
8307
8307
8307
B307
8307
8307
8307
Source Code
A59
A92
A08
A49
A3S
A49
A57
A69
A99
A09
A29
A57
A71
A22
A22
A49
A57
A72
A92
A09
A39
A29
A29
A99
A72
A56
A49
A22
A29
A39,
A39~
A40
A49
AS?
A89
A92
A24
A29
A39
A40
A57
A92
A49
A21
ASS
A49
A49
A56
A49
A08
A29
A29
ASS
A99
A01
A01
A38
A29
A08
A08
A21
A94
A56
A59
A93
A93
A94
AQ9
A57
AS7
A29
A40
A08
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 33
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
0008.
D008
D008
0008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DQ08
D008
D008
D008,
DOOS
D008
DOOS
0008
0008
0008
DOOS
DOOS
DOOS
DOOS
0008
O008
DOOS
DOOS
DOOS
D008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
System Type
M132
M019
M132
M141
M013
M053
M141
M132
M111
M111
M014
M141
M111
M013
M111
M141
M019
M013
M019
M111
M019
M014
M119
M111
M141
M111
M132
M111
M043
M111
Ml 41
M011
M019
M111
M141
MOT 3
M013
M141
MQ19
M019
M019
MQ19
M013
M013
M013
M013
M111
M119
M141
M019
M111
M043
M121
M132
M999
M129
M129
M111
M111
M125
M141
M132
M141
M141
M014
M048
M129
M111
M141
M141
M132
M132
M141
EPA ID
NJ01 700221 72
ME9570024522
NYD080480734
NYD080480734
TX8571 524091
PAD002334621
VA321 1220931
VA1 21 0020730
PAD980550594
PAD049791098
PAD981104110
PAD004498010
PAD004335154
PAD987276573
PAD987276573
PAD987276573
PAD003023371
PAD003023371
PAD003Q23371
WID006073225
WID006073944
RID987490315
WID00609028S
W1D006274153
VTDOOG649780
PAD980554570
VAD044736726
W1D066892498
PAD046558037
PADOQ2103182
VA321 1220931
VAD981 034895
WID006078141
VAD9805S1782
VAD980551782
PAD002327708
PAD002389252
PAD002327708
PAD002327484
TXD050858182
PAD002279149
PAD987270998
PAD01 41 67589
PAD01 41 67589
PAD01 41 67589
PAD01 41 67589
VAD054039961
VAD054039961
VA1170024813
WY5571924179
PAD004321S27
W1D006069710
RID000001750
RID001459890
WID006125215
VAD001 894542
PAD000765982
WIP200000387
PAD9S0555312
PAD980555254
PAD980555254
PAD982674913
UT321 3820834
VA6170061463
NYD986974962
NYD066829599
NJO001213453
ORD096249081 •
NYD002228229
NCT000002327
PAD002335S45
W1D006073225
VTD00206S597
Volume (tons)
1 ,585
0
3.841
1.54
0.01
0,05?
0.047
3.2
22.5
131
21.511
0.5
0.1
31.78
142.5
22.76
1.54
104.845
1
41.425
80.31
48.722
15.476
9.568
1.5
3.695
0.2
1.954
0.172
61.31
0.215
9.7
0.695
6.946
3.087
0.4
0.855
0.65
1.101
38.25
3.677
80.827
6.949
5.615
4.099
9.313
1.89
0,46
2.18
0.198
0.225
0.18
0.25
0.25
5.14
12
0.01
23.93
21
6.7
6.7
• 0.8
0.457
0.97
0.2
1.161
6.602
1.829
0.087
16.25
0.3
8.907
0.02
SIC Code
9711
. 9711
9999
9999
1711
2673
2851
2892
2911
2911
3229
3312
3312
3315
3315
3315
. 3315
3315
3315
3364
3369
3369
3432
3484
3484
3496
3612
3613
3613
3624
.3669
3672
3672
3672
3672
3674
3674
3674
3676
3679
3679
3679
3691
3691
3691
3691
3714
3714
3731
3761
3821
3824
3829
3961
3999
4911
4911
4941
5171
5171
5171
9621
9711
9711
2631
-2672
2869
3479
3596
7539
3339
3431
3692
FoimCode
B307
8307
B307
B307
8307
B307.
8307
8307
B307
8307
B307
B307
B307
B307
B307
B307
B307
B307
B307 .
B307
830?
B307
B307
B307
8307
830?
8307
8307
B307
B30?
8307
B307
B307
830?
830? .
B307
B307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
8307
B307
830?
8307
8307
8307
8307
830?
8307-
8307
8307
8307
830?
8307
8307
8307
830?
B307
B307
B307
8307
830? .
8307
Source Code
A08
A57
A99
A99
A56
A29
A21
A2?
A08
A29
A40
A09
A56
A02
A02
A02
A09
A25
A29
A40
A40
A57
A08
A29
A49
A57
A02
A38
A92
A78
A21
A22
A60
A72
A72
A39
A39
A39
A29
A35*
A99
A99
A38
A78
A91
A92
A78
A78
A29
A59
A40
A29
ASS
A29
A40
A08
ASS
A21
A29
A29
A29
A21
ASS
A99
ASS
A99
A69
ACS
A93
A93
A56
A61
A56
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
'1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
Page 34
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008 ,
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
D008
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M137
M039
M019
M043
M043
M012
M141
M111
M141
M019
M019
M141
M141
M031
M013
M013
M141
M141
M014
M011
M011
M013
M132
M013
M019
M141
M111
M141
M141
M141
M039
M048
M141
M129
M011
M011
M039
M129
M141
M141
M141
M141
M132
MOT1
M132
M141
M011
M141
M013
M141
M013
M014
M014
M013
M013
M013
M013
M031
M032
M013
M013
M032
M141
M019
M019
M013
M013
M019
M019
M141
M013
M132
M031
EPA ID
PA0890090004
W1D006430623
NYD9869312S1
MID980990642
MOD043i37895
OKD007189111 -
MAD071 705222
MID053334439
MAD985290998
MND980995815
MND98242SS89
NCD042091975
LAD02QS97597
NJD002342087
MND051446094
MND000819268
NY721 3820940
NYD9S0768642
MND053417515
MOD9S0686992
MAD001409150
NJD068699107
MAD000652644
MND1325680t5.
MND003S35501
NJD000730424
NHD000842666
MDD000621243
MDD98055S247
'NYD003939824
MN036009019S
NYD04046431S
MD821 3822762
NY0213820830
NM8800019434 .
MA7210025154
ME7170022019
NY4571924774
ME7170022019
NV75700241 10
NV9170022173
NY4571924451
NJ01 700221 72
MIOS71 924760 •
NJP000908376
M10571 924760
MI0571924760 '
TXD0835S8486
TXD000751 172
TXD000449694
VAD002352110
TXD980627111
TXD9S8064564
PAD07i181186
PAD095361655
PAD014167589
PAD079181186
PAD002330165
PADQ02330165
PAD0S6771405
TXDQ07331879
TXDQ07331879
VA1 17002481 3
UTD073095804
VAD058621996
PA0890090004
PA321 0090053
UT921 0020922
VA1170024722
VA81 700241 70
PAD002344844
NHD986468338
NJP000909440
Volume (tons)
0.859
0.01
0.3
' 1.224
0.468
2.643
1.05
0.932
0.3
0.07
16.61
0.25
0.1
0.03
0.165
0.857
0.802
0.3
3.66
209.228
2.287
6,098.32
0.2
13.795
O.S75
0.125
0.018
0.5
0.075
0.9
0.23
0.225
0.305
Q.064
0.014
0.006
0.332
0.85
0.732
0.013
0.63
0.008
0,002
0.535
12.474
0.235
0.006
0.2
3.92
0.56
0.2
1,26
1.26
1.290.20
' 108.95
4.311
46.223
1,048.86
2,697.93
527,
1,708.99
126.78
0.009
0.425
0.007
1.792
0.222
0.056
0.111
0.063
33.2
1.129
1.25
SIC Code
8731
3821
1622
2851
2891
3661
3663
3714
3499
2431
2711
2834
2369
3229
3398
3489
3489
3569
3621
3691
3691
3691
3829
4011
4512
4793
4911
4931
4931
4931
8062
8062
8733
9199
9661
9711
9711
9711
9711
9711
9711
9711
9711
9999
9999
9999
9999
2833
2869
2869
3494
3674
3674
3691
3691
3691
3691
3691
3691
3691
3692
3692
3731
3812
7699
8731
9199
9711
9711
9711
9999
3496
4213
Form Code
B307
B307
8308
B308
B3Q8
B308
B308
B308
B308
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
8309
8309
8309
B309
8309
B309
8309
B309
8309
8309
8309
8309
8309
8309
8309
B309
B309
B309
B309
8309
8309
8309
8309
8309
B309 x
B309
8309
8309
8309
8309
8309
8309
8309
8309
B309
8309
8309
8309
8309
8309
8309
B309
8309
8309
8309
8309
B309
8309
8309
8309
8309
Source Code
A99
A82
A21
A59
A99
A49
A56
A59
A56
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A92
A94
A99
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A94
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A56
ASS
ASS
ASS
A57
ASS
ASS
ASS
ASS
ASS
ASS
A40
A40
A57
A57
A72
A72
A92
A57
A57
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A57
A53
A
Origin Code
2
3
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
Page 35
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
DOOB
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
D008
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M129
M013
M111
M132
M119
M061
M043
M043
M132
M141
M132
M141
M141
M043
M111
M129
M049
M111
M132
M111
M043
M141
M132
M141
M141
M043
M119
M111
M043
M061
M013
M141
M043
M141
M013
M043
M141
M141
M132
M043
M141
M043
M141
M043
M043
M141
M141
M043
M043
M141
M043
M129
M141
M141
M141
M141
M141
M141
M043
M043
M141
M019
M141
M141
M141
M111
M141
M141
M043
M141
M111
M111
M111
EPA ID
NJD070275870
NJD986648954
WIOQ00020Q40
UTD047111935
NJD0021B9132
LAD008080541
MDD980918288
MID980990642
NJD0021 73946
NCD095459392
UD008080350
MTD010380574
NYD001 704444
NJD002325074
NYD055865125
NYD074034141
MAD040094724
NHD0402S2744
ORD009025644
NYD055054191
ORD041 273889
NYD002968246
MID072782683
MAD063894786
MAD985275569
MID0053S6621
MID000724864
MIT270012131
MND0061 56590
MO421 3820489
NYD002240638
MDD982566218
MND00081926S
NY7213820940
MND00081926S
MID0053786S8
MED985466358
NYD002084135
NJD144391S96
NJD10S235138
MAD065782252
MAD094277266
NCD986 185585
NYD986874S01
NCD003907508
MED058951047
NYD0932S6063
MSD033394602
LAD001 809896
MDD985369305
NYD002241982
MAD1 5531 8066
MAD076590652
NHD046312559
MA0001012244
MAD051 778934
MAD0765906S2
MAD9805255Q5
MOD003537271
NCD000623165
MAD000189068
NED035Q93053
NCD000615872
NYD065939902 '
MAD9810654S1
MND006147268
MAD001411081
ORD000409581
MND077636397
MND077636397
MID980795488
M1D981953912
M1D985569987
Volume (tons)
0.082
0.3
180.55
1.6
1.414
0.2
0.137
0.566
0.101
0.215
83.2
0.04
0.03
0.344
1.9
0.458
0.184
1.389
2.159
0.9
0.275
51.336
2.752
0.448
1.062
0.125
10.321
33.6
0.525
0.344
1.2
0.087
0.169
0.125
0.041
21.101
0.255
0.305
0.025
0.13
0.056
0.584
1.5
0.386
1.8
2.52
0.689
0.139
0.359
1
1.7
' 0.5
0.475
8.712
1
0.625
1.875
0.4
4.566
3.29
0.125
1.68
Ol45
0.4
0.4
6.6
0.2
0.019
0.9
1.05
4.425
1.81
41.493
SIC Code
8069
9999
3231
4011
2819
2821
2851
2851
2892
2892
2911
2911
3086
3262
3262
3264
3355
3357
3369
3399
3451
3451
3465
3471
3471
3471
3479
3479
3482
3482
3484
. 3484
• 3489
3489
3489
3491
3499
3511
3531
3542
" 354S
3556
3563
3571
3624
3625
3629
3651
3661
3672
3672
3672
3672
3672
3672
3672
3672
3672
3672
3672
3674
3676
3678
3679
3679
3679
3679
3679
3699
3699
3711
3711
3711
Form Code
B309
B309
B309
B309
B310
B310
8310
8310
B310
8310
8310
B310
B310
B310
B310
B310
B310
B310
B310
B310
8310
8310
8310
B310
8310
8310
8310
8310
B310
8310
8310
8310
8310
8310
8310
8310
B310
8310
B310
8310
8310
8310
8310
8310
B310
8310
B310
8310
B310
8310
8310
8310
8310
8310
8310
B310
B310
8310
8310
B310
8310 '
8310
B310
8310
8310
8310
8310
8310
8310
8310
8310
B310
8310
Source Code
A93
A62
A99
A69
A32
ASS
A32
A32
A32
A78
A32
ASS
A37
ASS
A92
A92
A92
A99 •
A99"
A78
A40
A92
A71
A22
A22
A29
A22
ASS
A78
A92
A91
A94
A53
ASS
A99
A92
A29
A54
A21
A03
A21
A99 -
A21
A39
A78
A99
ATS
A71
A78
A19
A22
A22
A31
A32
ASS
ASS
ASS
A59
A71
A71
ASS
A72
A22
A22
A29
A32
A32
A99
A22
A22
A21
A21
A21
Origin Code
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1"
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 36
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
DOW
0008
0008
D008
D008
D008
0008
D008
DOQ8
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008 .
D008
D008
D008
DOOS
D008
D008
DOOS
D008
0008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
System Type
M132
M043
M132
M119
M111 •
M111
M111
M132
M132
M111
M061
M141
M132
M129
M043
M061
M111
M141
M132
M119
M061
M132
M041
M032
M061
M141
M132
M141
M141
M132
M132
M061
M132
M141
M141
M141
M043
M132
M039
M111
M111
M141
M141
M141
M132
M141
M141
M043
M132
M021
M032
M999
M111
M141
M141
M032
M132
M111
M132
M061
M111
M119
M041
M132
M141
M043
M043
M013
M013
M061
M061
M061
M132
EPA ID
MOT300010261
M1D980568S36
OKD082565714
NJD0021
MID000718544
MID9808966SO
NVD002026565
MID005356712
MIDOOS356928
MDD003091972
NCD986166601
NCD9861 66601
M1D005035464
NYD0021 07399
MOD000610816
MID985S76495
MID044253Q2i
MAD001408517
NMD052684578
MND985677889
MND980793319
MND000826248
NYD000694174
MND006963S08
LA61 70022788
NY221 3720897
NJD063141063
NJD063141063
NY821 002091 5
NJD9S0791115
NJD980791131
NJD980790745
NJD980790745 •
NYD986971604
NJD060792918
MA8690330719
NJ01 70022172
NJ01 70022172
NJ71 70023744
NC1 170027261
OR1570024264
NC11 70027261
NC81 70022570
NJ321 0020597
M10571824760
M10571924760
MA8570024424
WID003966884 •
RID001 198605
VAD044731685
TXD00733250S
WI0006073225
WID006073225
RID001 187277
PAD053676631
TXD008012148
WID982204968
W1D982204968
WID982204968
TXD003897733
PRD987370939
PRD000632034
PRD991291857
PAD092868793
TXD007321904
PADOOQ796334
PAD00340416?
PAD079181186
PAD014167589
WID006427215
WID981 948771
WID006427215
TXD008018004
Volume (tons)
21
4 4tH
8.95
4.15
7.868
31.651
7.8
157.01
19.331
5.4
2.15
2
21
1.756
0.212
1.204
0.125
0.11
0.712
0.125
12.345
0.45
2.54
5.325
0.306
0.41
1
1
0.125
0.125
0.079
0.367
0.19
3.04
16.8
0.285
0.24
0.54
1.087
2.238
0.581
6.325
3.092
0.17S
0.531
0.241
0.351
5.267
2
1.137
9.31
0.825
0.2
1.417
19.172
4.2
2.56
1.125
2.87
10.51
1.7
0.2
0.49
0.5
0.02
0.473
0.114
37.392
1.628
0.875
0.977
1.485
23
SIC Code
3711
3711
3711
3711
3711
3711
3711
3711
3711
3713
3713
3713
3714
3714
3714
3714
3714
3724
3724
3823
4011
4011
4111
4512
4581
7538
7538
7538
8221
9199
9199
9199
9199
9221
9221
9621
9711
9711
9711
9711
9711
9711
9711
9711
9999
9999
9999
3069
3229
3429
3432
3432
3432
3471
3471
3479
3494
- 3494
3494
3571
3612
3613
3672
3672
3674
- 3678
3678
3691
3691
3694
3694
3694
3711
Form Code
8310
B310
B310
B310
B310
B310
B310
8310
8310
B310
8310
8310
B310
8310
B310
8310
8310
8310
8310
8310
831 0
B310
8310
8310
8310
B310
B310
8310
8310
B310
B310
B310
B310
8310
8310
B310
B310
8310
8310
B310
8310
8310
8310
8310
8310
8310
8310
8310
8310
B310
8310
B310
8310
8310
B310
B310
B310
B310
831 0
B310
8310
8310
B310
8310
8310
8310
8310
B310
831 0
8310
8310
8310
6310
Source Code
A21
A22
A22
A29
A32
A32
A32
A32
A71
A29
A32
A32
A21
A53
ASS
ASS
ASS
A53
A59
A31
A49
AS9
A21
A54
A91
ASS
A92
A92
A71
ASS
ASS
A92
A92
A71
A99
A78
A21
A54
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A21
A21
A92
ASS
ASS
A69
A22
A92
A53
ATS
A82
A82
A09
A99
A71
A09
A22
A99
A22
ASS
ASS
A78
A71
A71
A82
A71
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
i
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 37
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
DOOS
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
D008
D008
D008
D008
D008
D008
D008
D008.
D006
DOOS
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
D008
D008
DOOS
D008
DOOS
D008
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M132
M061
M043
MOSS
M051
M053
M132
M141
M132
M141
M141
M-141
M141
M141
M141
M019
M119
M141
M043
M111
M043
M141
M043
M141
M141
M141
M011
M141
M141
M141
M132
M111
M111
M132
M119
M019
M043
M141
M011
M125
M125
M125
M111
M132
M041
M132
M061
M111
M043
M129
M141
M141
M141
M141
M111
M132
M141
M019
M141
M141
M141
M141
M141
M141
M111
M129
M141
M111
M111
M043
M111
MUI ;
MU1
EPA ID
TXD007365984
WID0761 53030
WID006069/10
WID006069710
VAD023942295
VAD023942295
TX7170022787
TX7170022787
PAD004393138
VA421 02201 39
VA6170061463
VA6170061463
VA61 70061 463
VA121 372081 5
VA821 3720321
VA721 3720082
NEP000802843
NY721 3820940
NJD073755787
MAD001 138726
NYD085503746
NYD980648S54
WID000808246
VA61 70061463
NCD0031 95161'
MAD086534864
NJD001289610
PAD00231630S
PA3170022104
PA8213820642
TXD0008373S1
PAD000765362
M1D005069430
LAD073460S95
MDP000008050
NJD990753493
MOD000687525
NC6170022580
NJD002444024
NYD987014214
NYD987014230
NYD987014248
NUD084011477
MOD007131113
MID000809632
NCD981744618
NJD002S6871S
NYD000824359
MAD002297968
MDD985369305
MDD985369305
MAD0765906S2
MAD001414879
MAD990886301
MND0061 47268
MID050615996
NYD0021 00295
NYD0021 00295
MAD001402320
NJD986586683
MDD00061939S .
MDD980555486
OKD000829465
MDD980829873
MIT270010598
MD921 0020567
MD921 0020567
NYD987023108
NV1 210090006
NM0890010515
NM0890010515
NJ221 0020978
NJ321 0020597
Volume (tons)
0.5
0.884
1.101
3.16
5.9
12.8
0.43
0.44
0.265
0.245
0.063
0.033
0.412
0.1
0.688
0.488
5.674
0.05
9.967
0.4
2.6
0.8
3
0.02
0.339
0.622
1.191
0.007
1.532
0.107
17.06
0.077
2.188
29.03
1.511
0.44
0,348
14.575
5.91
12
5
3
14.51
0.156
1.2
9.183
28.294
17.7
0.038
0.6
2.425
1.25
0.119
1.172
• 2.72
0.759
2
0.2
0.88
0.3
6
1.05
0.1
3.607
0.47
0.182
0.152
95.75
0.256
3.54
3.921
1.817
0,249
SIC Code
3721
3822
3824
3824
4011
4011
7549
7549
8731
9199
971t
9711
9711
9711
9711
9999
3052
3489
3554
,3672
4911
7539
5171
9711
3675
3841
3339
3769
4225
4225
4911
4911
-2591
2869
1622
3369
3613
9711
3861
1622
1622
1822
2621
2771
2826
2869
2891
3229
3613
3672
3672
3672
3674
3679
3679
3711
3827
3827
3861
4785
4931
4931
8221
8221
8221
9199
9199
9211
9711
9711
9711
9711
9711
Form Code
B310
B310
B310
B310
B310
B310
B310
B310
B310
8310 •
8310
8310
B310
B310
B310
B310
8310
8310
8310
8310
B310
B310
B310
8310
B310
8310
B311
8311
8311
B311
8311
8311
8311
8311
B312
B312
831 2
8312
8314
B316
B316
B316
B316
8316
8316
B316
B316
B316
8316
8316
8316
B316
8316
B316
B316
8316
8316
8316
B316
8316
8316
8316
B316
8316
8316
8316
8316
8316
8316
B316
8316
8316
8316
Source Code
ASS
A82
A49
A53
A99
A99
ASS
A55
A94
A92
A21
A22
A53
ASS
ASS
ASS
A56
A22
A51
A22
ASS
A69
A53
ASS
A71
A71
A71
A93
A58
A59
A59
A60
A61
A69
A21
A72
A22
ASS
A57
A21
A21
A21
A59
AS9
A41
A89
A94
A78
A29
A19
A19
A60
A91
A09
A92
A94
A38
A49
A35
A21
A21
A21
A29
A59
A94
A21
A21
A01
A78
A94
A94
A94
A94
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
3
3
1
1
1
1
1
1
2
2
1
1
1
1
1.
1
1
1
1
1
1
' 1
1
- 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
Page 38
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
DOQ8
D008
D008
D008
D008
0008
0008
0008
0008
D008
0008
D008
D008
0008
D008
0008
D008
D008
D008
D008
0008
•0008
0008 '
D008
0008
D008
D008
0008*
D008
D008
D008
,0008
0008
D008
D008
0008
D008
D008
0008
13008
D008
D008
0008
D008
D008
D008
D008
D008
0008
D008
D008
0008
0008
D008
D008
D008
D008
D008
D008
D008
0008
0008
0008
D008
0008
0008
0008
D008
D008
0008
0008
0008
D008
System Type
M141
M019
M141
M013
M999
M043
M132
M077
M132
Mm
M132
M042
M141
M141
M119
M141
M111
M132
M141
M129
M141
M119
M132
M132
M013
M132
M132
M132
M111
M141
M111
M111
M111
M141
M141
M111
M111
M111
M111
Mm
M111
M111
M111
M111
M111
Mm
Mill
Mm
Mm
Mm
Mm
Mm
M111
Mm
Mm
M111
M111
M111
M119
M119
M132
M132
M137
M141
M141
M141
M141
M141
M141
Ml 41
M111
Ml 11
M111
EPA ID
NM0890010515
MO9890010524
NJ421 3720275
PAD0981 50535
WID006091425
TXD9907S7486
FAD005000609
W1D006115«77
WVD032579369
PAD004327466
PAD004327466
W1D006161368
VAD0031 76724
TXD061 555611
WID006082473
PAD003031846
VAD981 036957
WV0170023691
VA821372Q321
VA3971 520751
PA5213820892
MDP000007732
MID058816927
NCD000648451
MN7213820908
MID0861 76658
NVD98677473S
LAD9B0698369
NY821 002091 5
NYD987039468
NYD987032471
NYD987035193
NYD987027372
MDP000008027
NYD987033644
NYD986931251
NYD986933232
NYD986933240
NYD986991347
NYD9870Q5105
NYD987005113
NYD98700S121
NYD987005139
NYD987005212
NYD987005220
NYD987005238
NYD987005373
NYD987005386 ,
NYD987005998
NY0987006038
NYD987006046
NYD987006517
NYD987021581
NYD987021599
NYD987035227
NYD987035235
NYD987035243
NYD987035250
NYD987026655
NYD987038445
NJD986632982
NYD986994960
NY0987029733
NYD987Q25467
NYD987030350
NYD987037124
NYD987037132
NYD987037140
NYD987037157
NYD987037165
NYD986989317
NYD987029253
NYD987029261
Volume (tons)
0.732
0.49
0.459
228.591
0.04
0.1
18.682
0.5
4.112
39.386
21.951
0.15
1.75
1.38
0.75
0.007
0.83
2.1
0.647
0.012
0.46
0.25
16.8
0.4
84.05
1,222
2.11
38.25
6.3
.4.5
10
5.7
15.96
15.025
1.6
7.562
1.4
3.3
4.9
2
2
2
2
8.4
1.2
4.4
2.695
4.235
4.6
3.5
2.5
32.8
1.4
1.4
2.8
1:4
1.8
6
37.5
207.4
24.7
13.5
•5.6
11.4
4.8
2.1
3.2
1.8
2.5
3.5
17.9
3
2.3
SIC Code
9711
9711
9711
2819
2842
2865
3264
3471
3479
3496
3496
3585
3599
3674
3674
3674
3728
3764
9711
9711
9999
2999
3691
4953
8744
1021
1041
1389
1522
1542
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
Form Code
6316 '
B316
B316
B316
B316
B316
B316
8316
8316
8316
B316
B316
8316
B316
B316
8316
B316
8316
B316
8316
6316
8316
8316
8316
8316
8319
8319
B319
B319
8319
8319
8319
B319
8319
B319
8319
8319
B319
8319
B319
B319
B319
8319
B319
8319
8319
8319 '
B319
8319
8319
8319
8319
8319
8319
B319
8319
8319
B319
8319
8319
831 9
B319
8319
8319
B319
B319
8319
B319
B319
8319
8319
8319
B319
Source Code
A94
A99
A99
A57
A57
A94
A57
A02
A26
A25
A25
A82
A38
A09
A29
ASS
ASS
A99
A21
ASS
A56
A62
A
A99
A64
A94
A99
A19
A21
A99
A01
A01
A08
A08
A08
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A29
A29
A29
Origin Code
1
1
1
1
1
1 '
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
1
1
1
1
1
. 1
1
1
1
1
1
1
T
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 39
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
DOOS
D008
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
0008
DOQ8
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
D008
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M111
M111
M111
M111
M111
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119.
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119
M119
M141
M141
M141
M141
M141
M141
M141
M111
M111
M111
M111
M041
M141
M043
M132
M132
M141
M111
M043
M141
M111
M132
M061
M111
M141
M119
M132
M049
M132
M041
M043
M043
M141
M132
M043
M111
M111
M132
M132
M111
M111
M132
M132
EPA ID
NYD987029279
NYD987029287
NYD987029295
NYD98702931 1
NYD987029329
NYD986998623
NYD986998631
NYD986998649 .
NYD9869986S6
NYD986998664
NYD986998672
NYD9869986SO
NYD986998698
NYD986998706
NYD986999928
NYD98S999969
NYD987028206
NYD987028214
NYD987028222
NYD98702S230
NYD987028248
NYD987028255
NYD987028263
NYD987028271
NYD987028289
NYD987032679
NYD987034071
NYD987034089
NYD987035862
MYD987037595
NYD987005063
NYD987005071
NYD987029303
NYD987Q35896
NYD980534325
NYD986998326
NYD987018488
NYD986932515
NYD986973691
NYD987007499
NYD987030038
MOD006288799
MOD006288799
MED071742225
LAD981900418
MED086875887
MYD002243939
NYD0021 23503
NJD01 1658481
NYD097649016
MSD007031230
MIDQ00820381
MND0062S0799
LAD000812818
NJD000692905
MID005363114
LAD041581422
MOD006299689
NYD002220804
MDD003071875
MID9819S3953
MOD043937895
NJD039101514
NJD002173946
NJD986645984
NUD002342426
NJD9866459S4
LAD0080S0350
LAD062662887
MND006162820
NJD986645984
LAD0081 86579
MND000686071
Volume (tons)
4.5
2,1
9.8
2.3
10,8
46.1
54
42.7
46
53.7
15.9
17.1
27.2
38
4,5
31.2
13.2
93
5.7
12.8
19.2
23.5
16.7
44.9
12.4
5.7
17
32.8
46
24.3
5.3
6.3
8.4
4.9
0.2
1.4
31 ,895
44.3
41,825
115.8
149.8
1.445
2.369
0.1
3.78
0.35
2.65
2
0.03
35.975
8.817
20
O.S6
552.9
0.05
14
587.01
2.9
5.15
8.06
1,961
0.822
1.034
0.065
0.202
44.05
3.82
137
352.9
12.73
156.84
683,555
0.9
SIC Code
1622
1622
1622
1622
1622
1622
1622
1622
1S22
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1629
1629
2082
2082
2611
2621
2621
2621
2812
2816
2819
2821
2834
2851
2869
2869
2869
2869
2869
2869
2879
2891
2891
2891
2892
2911
2911
2911
2911
2911
2911
2911
2911
2911
Form Code
B319
B319
B319
B319
831 9
B319
B319
8319
8319
8319
B319
B319
8319
B319
B319
B319
B319
8319
8319
B319
B319
8319
8319
8319
8319
8319
8319
8319
8319
B319
8319
8319
B319
B319
8319
8319
8319
8319 ,
8319
B319
B319
8319
8319
B319
B319
B319
8319
8319
B319
8319
8319
8319
8319
8319
B319
831 9
B319
8319
8319
B319
831 9
B319
8319
8319
8319
8319
8319
B319
B319 '
8319
8319
B319
B319
Source Code
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A59
A59
A59
A99
A99
A21
A21
A08
A08
A
A08
«1 -
A99
A56 '
ASS
A59
A92
A56
A92
A08
A08
A21
A21
A29
A99
A08
A57
A57
ASS
A32
A08
A08
AOS
A21
A21
A29 -
A29
A29
A29
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
•1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 40
-------�
1993 BRS Data (QM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
DQ08
D008
D008
D008
0008
D008
D008
D008
D008
D008
0008
D008
D008
D008
0008
D008
D008
D008
D008
D008 •
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008 .
DQ08
D008
D008
0008
D008
System Type
M132
M132
M132
M132
M141
M132
M141
M132
M013
M111
M111
M132
M111
M111
M111
M039
M111
M132
M111
M141
M141
M141
M141
M132
M141
M132
M011
M111
M141
M111
M141
M129
M019
M111
M111
M013
M111
M111
M132
M111
M111
M119
M111
M141
M141
M111
M141
Ml 11
M132
M111
M132
M132
M111
M013
M013
M013
M141
M043
M132
M141
M132
M013
M013
M111
M111
M141
M111
M111
M141
M043 .
M141
M141
M119
iPA ID
MTD01 0380574
NDD0061 75467
NJD062037031
NJD081 982902
NJD045445483
LAD008080350
OKD007188147
NJD0021 95220
NJD002502466
NJD056708688
NYD000818732
MID096322532
NYD000824425
NYD000824359
NYD000824425
NJD002148658
MNDOS3429353
NJD002325074
NYD055865125
NCD982077570
NCD982077S70
NCD9861 86369
NYD002066173
NYD980SS3109
NYD086225596
MND006148092
NMD09797006S
htY0071586127
NJD041211392
NED007259054
MAD001 842764
NJD0021 52205
NED007259054
NHD001078740
NYD049253578
MND006166409
NHD001 078740
NHD058537960
NCD097363527
MID005357504
MAD985280825
MAD985280825
OKD020721098
NCD067427922
NCD067427922
OKD020721098
NCD067427922
OKD9808778S6
MIDOOS358783
MAD022960413
MO4213820489 v
MO4213820489 *
MND980616700
MND001 970334
MND980616700
NYDQ02240638
NHD018a53794
NYD00224Q638
MAD001114206
NYD002240638
MAD981 069859
MND000819268
MND000819268
NHD058537960
NHD058S37960
NJD000764878
MED985466358
NYD0021 00493
MED985466358
NJD002395382
NJD002395382
MAD053459673
MID052046513
Volume (tons)
3,5
0.631
4.77
288.5
0.8
170
0.504
117
62.25
0.2
0.125
33.6
807.8
31.45
'32.3
1.5
496.269
17.55
10.625
10.662
1.578
- 0.2
17.1
1.606
4.775
34.2
0.22
8.77
0.35
763.385
7.119
46.75
0.994
2.675
26.76
7.936
4.3
39.2
452.718
1.241
. 2.925
2.475
162.79
64.025
79.959
3.9
3.85
26.425
52.416
0.15
1.738
36.147
6.613
1.891
0.097
3
0.1
1.6
1.105
1.8
4.05
2.891
1.6
0.229
1.943
0.281
11.882
40.8
12.274
0.696
0.622
0.15
0.104
SIC Code
2911
2911
2911
2911
2911
2911
2992
2992
3069
3081
3111
3211
3229
3229
3229
3231
3231
3262
3262
3262
3262
'3262
3264
3269
3341
3341
3341
3351
3356
3357
3357
3357
3357
3366
3366
• 3366
3366
3366
3369
3369
3429
3429
3432
3432
3432
3432
3433
3451
3471
3471
3482
3482
3483
3483
3483
3484
3484
3484
3484
3484
3484
3489
3489
3494
3494
3497
3499
3499
3499
3561
3561
3561
3562
Form Code
B319 •
B319
B319
8319
8319
B319
B319
B319
831 9
B319.
6319
B319
B319
B319
8319
B319
B319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
B319
8319
8319
8319
8319
8319
8319 •
8319 s
B319
8319
831 9
8319
8319
8319
8319
B319
B319
8319
8319
8319
8319
B319
B319
8319
8319
8319
B319
B319
B319
B319
B319
B319
8319
B319
8319
8319
831 9
8319
8319
8319
8319
8319
831 9
Source Code
A29
A29
A29
A29
A29
A36
A06
A29
A92
A57
A92
A21
A49
A57
A7S
A09
A21
A56
A57
A78
A91
A99
A49
A09
A69
A72
A94
A29
A94
A41
A41
A92
A99
A56
A57
A78
A92
A93
ASS
A59
A29
A29
A29
A29
A32
A71
A02
A92
A22
A57
A29
A57
A29
A57
A57
A59
A69
A78
A78
A78
A92
A59
A99
A29
A49
A35
A29
A29
A29
A40
A40
A99
A29
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
- 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
r
Page 41
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
13008
D008
D008
D008
D008
D008
D008
D008
13008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
iDooa
D008 ,
D008
D008
D008
D008
D008
D008
D008
D008'
D008
D008
D008
System Type
M042
M043
M043
M125
M132
M013
M111
M011
M043
M011
MC43
M111
M141
M019
M061
M111
M141
M141
M141
M125
M132
M137
M043
M043
M013
M013
M043
M141
M141
M013
M141
M013
M013
M111
M111
M043
M141
M013
M043
M141
M141
M132
M141
M011
M043
M043
M079 .
M141
M043
M111
M141
M019
M141
M141
M111
M141
M019
M141
M141
M141
M141
M141
M141
M011
M011
M019
M141
M014
M132
M141
M019
M111
M013
EPA ID
MND006161756
NMD052686896
MND006161756
MND000823922
NCD982094278
MND006161756
NYD001 359694
MND006161756
NMD052686896
NYD084006741
MSD041 222878
MSD041 222878
NYD980777320
NYD001 560879
NYD001 560879
NYD001 560879
MED058951047
MED058951047
NYD0932S6063
MAD080031180
NHD073984288
NHD073984288
NCD0008310S7
NMD056773765
LAD0018Q9896
LAD001809896-
NCD000831057
NJD001 643840
MDD046041885
NCD9861 94330
NCD9861S4330
MNDOS51 14890
NYO981 484785
NYD981 484785
NYD981 484785
NCD000623165
MAD985294057
MND980700900
ORD081 182180
MAD07659Q652
ORD980725592
NYD002241982
NHD046312559
MND982Q66730
NYD002233039
MND001 037639
NJD000692350
ORD000409581
NYD000707901
NYD000707901
MAD0001 89068
MAD000829986
MAD000846501
NCD003195161
MED077469864
NYD00990105i
NCD038547519
NCD00319S161
NCD003195161
NHD001076009
MAD001411081
NHD000791616
NYD059385120
ORD009020231
NYD002235182
MND985668227
MAD001411016
NYD059385120
NJD048810337
MHD093625358
NYD002247377
ORD009020231
NJD064261985
Volume (tons)
0.471
1.805
0.861
0.55
67.558
63.898
1.077
7.363
0.003
5.279
57.834
56.7
0.379
0.125
7.8
16.255
1.305
0.063
0.196
248.49
' 9
. 9
1.813
0.118
19.7
1.7
0.7
0.023
0.761
2.673
1
8.502
226
1,052.10
18.8
6.031
1.068
16.888
0.642
1.75
11.072
2.3
0.458
1
0.903
2.375
0.75
0.326
1.713
30.62
0.834
0.847
0.25
1.389
20.76
0.4
6.94
0.375
0.511
0.048
0.35
0.08
0.257
28.064
1.6
1.394
0.09
2.168
2.4
8.154
0.422
0.459
158.705
SIC Code
3571
3571
3571
3571
3571
3571
3571
3571
3571
3571
3612
3612
3612
3624
3624
3624
3625
3625
3629
3641
3641
3641
3661
3661
3661
3661
3661
- 3663
3663
3669
3669
3669
3671
3671
3671
3672
3672
3672
3672
3672
3672
3672
3672
3672
3672
3672
3672
3672
3674
3674
3674
3674
3674
3675
3675
3675
3675
3675
3675
3679
3679
3679
3679
3679
3679
3679
3679
3679
3679
3679
3679
3679
• 3691
Form Code
8319
B319
B319 .
8319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
8319
B319
8319
8319
B319
B319
8319
B319
8319
8319
831 9
B319
B319
B319
B319
B319
8319
E319
B319
831 9
B319
B319
B319
8319
8319
8319
8319.
8319
8319
8319
8319
8319
B319
B319
B319
8319
B319
8319
8319
B319
B319
8319
B319
B319
8319
B319
8319
8319
B319
8319
8319
8319
B319
8319
Source Code
A06
A08
A29
A57
A57
ASS
A58
A59
A75
A93
A57
A57
A99
A40
A40
A40
ASS
A56
A99
ASS
A99
A99
A08
AOS
A35
A49
A56
A56
A92
A29
A29
A35
A35
A35
A99
A09 .
A22
A29
A29
A29
A37
ASS
ASS
A49
A49
A92
A92
A99
A19
A25
A29
A49
ASS
A22
A29
A32
ASS
A49
A57
A22
A29
A29
A29
A39
A49
A49
ASS
A57
A76
A91
A99
A99
A09
Origin Code
t
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 42
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
DOOB
D008
D008
D008
D008
D008
D008
D008
D008
D003
D008
D008
D008
D008
D008
D008
D008
DOOS
0008
D008
D008
D008
D008
D008
D008
DOQ8
coca
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008 '
D008
D008
0008
D008
DG08
D008
DOOS
DOOS
0008
DOOS
DOOS
0008
DOOS
DOOS
D008
D008
DOOS
0008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M111
M013
M013
M013
M141
M111
M043
M132
M119
M109
M111
M132
M111
M029
M043
M119
M053
M111
M132
M111
M061
M119
M111
M132
M019
M141
M141
M141
M132
M141
M141
M132
M111
M141
M141
M119
M141
M141
M141
M132
M141
M013
M013
M132
M141
M043
M013
M111
M141
M111
M111
M043
M111
M111
M111
M111
M111
M111
M141
M111
M141
M061
M119
M119
M132
M132
M141
M141
M111
M141
M141
M111
M111
EPA ID
NJD068699107
NJD064261985
NJD064261985
LAD058530510
MED086878980
MID005356951
MOD085002319
MID005356894
MOD0071 18078
MND006207773
M1D005379714
MID9S0700827
MiD9807954aS
MID980896690
MID005356902
M1D005356902
MIDOS5597809
M!D06S59780i
NVD9824672SO
M1D0053573S5
MID086744802
MID086744802
MID006021414
MID0053569S1
NH8S72824847
NJD002140358
MDD003419090
MDD046283495
MD4690307844
MD4690307844
NYD986934743
NCD041 463761
NYD002040921
NJD002342434
NYD000521971
MND985677889
MAD065781197
MADQ86534864
NCD05S1 62069
M1D061 872917
NCD9861 94850
MND000293365
NYD980592497
NYD980592497
MAD062163191 .
NYD000809327
MAD000650051
NYD002229128
MAD001 202340
NYD002001923
NYD987037488
NED000822783
NJD981076276 '
NJD986641090
NYD075243139
NYD9S2796377
NYD982796401
NYD982796435
NYD075243139
NJD986S38997
MAD084814136
W61 70022788
NJD000729640
NJD068679760
LAD000726224
NJD981876675
NCDQ00623074
NJDOSS679760
NYD981 182280
NJD980648539
NJD986645232
NYD980534317
NYD986963429
Volume (tons)
30,09
216.235
4.443
3,920.36
4.372
361 .343
1.527
5.192
19.184
70.227
352.8
0.1
46.85
14.45
33.84
18.31
11.5
8,75
40.823
27
8.95
0.45
197.8
0.517
46,52
0.177
4.471
168.49
19.372
31.8
12.003
0.336
0.3
0,005
0.075
7,384
0,995
0.884
1.95
4.725
0.04
0.161
137.02
7.15
10.296
0.4
0.18
55.7
5.525
123
90.1
0.45
0.5
2.7
373.8
6.2
119.28
17,3
96.6
10,8
0.2
-0.136
1.8
11.7
12.94
91.2
4
17.5
42.5
59.55
14.8
157.5
5.3
SIC Code
3691
3691
3691
3691
3694
3711
3711
3711
3711
3711
3711
3711
3711
3711
3711
3711
3714
3714
3714
3714
3714
3714
3714
3714
3728
3728
3728
3731
3731
3731
3743
3751
3812
3812
3812
3823
3827
3841
3843
3843
3843
3845
3861
3861
3861
3861
3911
3914
3961
3999
4011
4011
4111
4111
4119
4119
4119
4119
4119
4141
4213
4581
•4613
4613
4613
4613
4613
4613
4789
4789
4789
4789
4789
Form Code
8319
8319
B319
B319
8319
B319.
B319
B319
B319
B319
B319
B319
B31i "'
B319
B319
B319
8319
B319
8319
8319
B319
B319
B319
8319
8319
B319
8319
B319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
B319
8319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319-
831 9
B319
B319
8319
8319
8319
8319
8319
B319
8319
8319
B319
B319
8319
Source Code
A19
A39.
A59
A75
ASS
A21
A22
A29
ASS
A38
A38
ASS
A57
A59
A59
A59
A29
A29
A49
ASS
A57
A57
A92
A99
A21
A29
A49
A29
A78
ATS
ASS
A57
A29
ASS
A69
A31
A29
A49
A56
A57
ASS
A49
A49
A49
A57
A59
A94
A29
A29
A49
A29
A54
A21
A21
A21
A21
A21
A21
A21
A21
A91
A21
A08
A29
A29
A29
A29
A29
A21
A21
A21
A29
A29
Origin Code
1
1
1
1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
i
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 43
-------�
1993 BBS Data (QM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
0008
D008
boos
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
poos
D008
0008
D008
D008
D008
D008
D008
D008
D008
0008
D008
0008
D008
D008
0008
0008
0008
DC 08
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
D008
D008
0008
0008
0008
0008
D008
0008
0008
D008
D008
D008
D008
D008
D008
D008
0008
System Type
Ml 11
Mill
M111
M111
Ml 41
M141
M141
M111
M141
M141
M141
M141
M019
M132
M132
M141
M019
M141
M043
M043
M043
M129
M141
M132
M132
M132
M141
M119
M119
M141
M141
M141 .
M141
M141
M141
M141
M132
M119
M125
M132
M132
M141
M132
M132
M132-
M141
M141
M132
M141
M111
M129
M141
M141
M077
M101
M111
M141
M141
M019
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
EPA ID
NYD986992246
NYD987017456
NYD987035821
NY0000073197
NJD980648539
NJD980648547
NJD980648539
NJD980648539
MAD007854631
NCD000856591
MAD0551 79634
NCD1 08706029
MED043250109
MSD000824995
NYD000765065
NJD000768036
NHD01 891 9282
MAD00084S412
MDD000731596
MDD120291109
MDD981115132
MOD000687392
MAD000845412
LAD985191089
NMD000839134
NN0000367847
NYD006978795
NYD003939592
NYD981567019
NYD98Q593636
NYD986990315
MND985667674
NJD000768226
NJD077070811
NYD980648166
NYD980648174
NV7142390007
NJD981 490063
MND981 192800
IAD000757237
MAD000842427
NYD001919976
NY00461 57392
NJD0021 77210
NJD980765754
NYD980648554
NYD982792483
MAD985289677
NJD986647618
M(T270010598
NYD067919183
NJD048804488
MA1210020631
ORD980725592
ORD980725592
NJD000526525
NJD079319414
NJD980648521
NVD981967375
NYD986899722
NYD986968386
NYD986974475
NYD986982023
NYD986986776
NYD986992501
NYD986993483
NYD986994002
NYD986996163
NYD986996171
NYD986996338
NYD986996379
NYD986997831
NYD986999068
Volume (tons)
16
3.3
20
2.1
8
138.15
0.25
25
0.2
0.18
2.775
0.05
0.304
7,903
0.4
0.3
0.016
4.251
0.149
2.146
0.25
0.027
515.785
90.04
3.9
9.45
0.661
4
0.4
2.1
2.1
1.227
0.05
1.21
0.649
0.45
0.25
0.5
174.45
32
4.75
0.8
85.438
-11.342
103.387
61.875
. 1458
66.5
0.75
0.797
0.25
0.1
0.175
0.054
0.06
1.35
0.525
0.25
1.5
27.4
26.3
1.8
5.7
3
3.15
11
840.5
14
7.7
1.2
1.2
233.2
81.6
SIC Code
4789
4789
4789
4789
4789
4789
4789
4789
4911
4911
4911
4911
4911
4911
4911
4911
4911
4911
4911
4911
4911
4911
4911
4922
4922
4922
4924
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4941
5048
5171
5171
7219
7378
7379
- 7379
7539
7622
7629
8211
8221
8731
8731
8733
8734
8734
8734
8734
8741
8999
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
Form Code
B319
8319
B319
B319
B319
B319
8319
8319
B319
B319
B319
B319
B319 .
B319
8319
B319
831 9
8319
8319
8319
8319
8319
B319
B319
B319
B319
B319
831 9
B319
B319
B319
8319
8319
B319
8319
8319
8319
8319
B319
B319
B319
8319
B319
B319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
B319
B319
8319
B319
8319
8319
8319
8319
B319
8319
B319
8319
8319
Source Code
A29
A29
A29
A29
A29
A29
A91
A99
A08
A08
A21
A21
A29
A29
A29
A29
A57
A57
A99
A99
A99
A99
A99
A21 '
A21
A21
A21
A08
A08
A08
A09
A19
A21
A21
A21
A21
A29
A08
A29
A21
A29
A59
A57
ASS
A59
A19
A59
A49
A08
A29
A09
A29
A21
A94
A94
A94
A94
A29
ATS
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 44
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
DQQ8
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
0008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
0008
D008
D008
0008
0008
0008
D008
D008
D008
D008
0008
D008
D008
0008
D008
D008
D008
D008
D008
D008
System Type
M111
M111
M111
M111
M111-
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111
M141
M141
M061
M111
M111
M111
M111
M111
M111
M111
M111
M111
M111.
M132
M141
M141
M141
M141
M141
M111
M129
M129 -
M141
M019
M061
M132
M132
M141
M053
MOS1
M111
M111
M141
M111
M141
M141
M119
M043
M061
M112
M043
M132
M141
M141
M141
M019
M119
M132
M111
M111
M111
M111
M111
M111
EPA ID
NYD987008414
NYD987008422
NYD987008430
NYD987012853
NYD987Q22175
NYD987022183
NYD987022720
NYD987022969
NYD987023017
NYD987024577
NYD987024585
NYD987029642
NYD987033982 .
NYD987036720
NYD987039443
NYD987039450
NYD987040904
NYOOOOOCM549
NY000004S005
NYD9821 87858
NYD986950319
MI4690390550
NYD986950715
NYD986992303
NYD986992386 '
NYD986992410
NYD987024239
NYD987025376
NYD987039559
NYD987039567
NYD987039575
NYD987039S83
NYDOQ2429355
NYD986897023
NYD986950715
NJD060792918
NCT0000023S5
MDD981106131
MS7570Q24060
LA9571 924050
NJ91 70022694
NE8571924648
MT85719245S6
MO321 3720979
ME9570024522
MOD980631295
MO3213720979
MT8571924556
ME71 7002201 9
MD3210021355
ME71 7002201 9
ME7170022019
ME71 70022019
ME71 7002201 9
NY4571 924774
ME7170022019
MT8571 924556
MA0570024026
MA0570024026
NM5890110518
NJ01 700221 72
MS7570024060
NJ01 700221 72
NYD982736894
NY789000897S
NY7890008B75
UTD980718332
PAD98236S033
PAD987279577
PAP000006411
WID988637385
W1D988S37393
WID988637401
Volume (tons)
2.1
6.6
5.6
30.6
2.1
4.55
3.2
6.8
3.2
5.7
6
33.8
21.8
24.727
2.5
2.5
13
3.4
130.5
7.2
6.3
10.279
62.04
16.8
42.84
33.4
20
4,4
75.6
45.024
12.6
65.52
• 12.6
6.3
17.5
0.75
1.5
1
30.41
9.31
2.487
1.189
0.085
0.751
0.576
0.206
0.478
0.008
.7.637
19.94
237.545
5.99
17.507
16.837
0.3
- 68.825
0.098
0.01
71.42
0.065
0.477
0.01
0.24
0.05
0.084
39.51
6.764
28.2
3.4
720.5
39.95
54.95
8.5
SIC Code
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9199
9221
9531
9621
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
9999
9999
1041
1622
1622
1622
1622
1622
1622
Form Code
8319
8319
B319
B319 •
B319 • -
B319
B319
B319
B319
8319
B319
6319
8319
8319
8319 -
B319
B319
B319
831 9
B319
B319
B319
B319
8319
B319
B319
B319
8319
B319
B319
B319
8319
8319
B319
8319
B319
8319
B319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
B319
831 9
8319
B319
B319
8319
8319
8319
B319
831 9
8319
B319
B319
B319
8319
8319
8319
B319
8319
Source Code
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A21
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A99
A29
A27
A01
A08
A08
A08
A19
A21
A21
A21
A2t
A29
A29
A29
A29
A29
ASS
ASS
A38
A49
A53
A59
A59
A94
A99
A99
A99
A92
A94
A94
A94
A21
A21
A21
A21
A21
A21
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 45
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0008
D008
D008
D008
D008
0008 '
D008
DOD8
D008
D008
D008
D008
D008
DOOS
0008
oooa
D008
DOCS
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
DOOS ,
0008
DOOS
0008
D008
0008
0008
0008
DOOS
0008
DOOS
D008
0008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS'
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
System Type
M141
M111
M111
M111
M111
M111
M111 . -
M111
M111
M111
M111
M111
M111
M111
M111
M141
M141
M043 '
M141
M111
M019
M111
M111
M043
M041
M132
M132
M141
M132
M111
M132
M132
M119
M032
M032
M043
M999
M132
M013
MOSS
M111
M014
M111
M111
M039
M039
M039
M043
M111
M111
M132
M111
M019
M011
M132
M111
M132
M132
M111
M111
M111
M132.
M111
M111
M111
M013
M132
M132
M019
M119
M121
M112
M111
EPA ID
PAD987279577
PAD980919153
WID9885976S2
WID988627527
WID988627535
WID98863S975
WID988635983
W1D988637351
W1D988637468
WID988637526
WID988S37S34
WID988S37542
WID988637690
W1D988638177
WID988640793
PAD980919153
PAP000005862
TXD008123168
WID006429005
UTD988072294
irTD988072294
PAD0413S9403
PAD00439703Q
W1D981 958655
PAD0006S0366
TXD005942438
VA1 21 0020730
PA00030045S7
TXD000792937
PAD001604693
PADQ00651281
UTD073093874
PAD071612583
V10980536080
VID980536080
V1D980536080
W1D00607322S
RIDOQ1 198605
PAD981104110
WVD004319935
PAD0043323QO
PAD981104110
PAD004332300
PAD004332300
PAD004336368
PAD098439037
PAD0043363SO
PAD004336350
W1DQ06073225
W1DOQ6Q73225
WVD136333S80
PAD981 109135
PAD003023371
PAD096266499
LTTD000826412
UTD092024934
PAD004372363
WYD000776435
PAD004315156
WID006073225
W1D006073225
W1D006073225
PAD003017092
WID006073225
PAD003017092
PAD004335485
PADQ04335485
PADQ41398348
WID980570113
WID980570113
WVD003062S43
PAD987387792
WID006073225
Volume (tons)
13
36
8
16
8.9
1.9
1.8
24
S
6.38
12
7.2
7.18
3.25
12,928
4.95
4
9.95
2
2.236
19.09
0.219
15.33
0.222
1.7
80.58
19
0.075
2.9
7.05
1.69
0.05
14,1
0.126
0.47
0.52
0.225
2.7
80.59
1.4
18
86.749
1.5
6.7
685.8
1,080.00
225
0.425
3.6
0.3
14,834
127.12
3.981
17.278
11.7
0.612
1,818.00
0.75
16.19
19.5
11.55
4.8
35.6
13.2
84.7
1,307.46
189.005
2.94
21,626
88.285
714.4
542.46
123.955
SIC Code
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
1622
2819
2819
2819
2819
2819
2851
2851
2851
2869
2892
2899
2911
2911
2911
2911
2911
2911
2911
2911
3088
3229
3229
3229
3229
3229
3229
3229
3231
3231
3231
3231
3261
3261
3262
3312
3315
3322
3331
3339
3339
3341
3351
3364
3364
3364
3364
3364
3364
3366
3366
3366
3366
3366
3369
3369
3431
Form Code
B319
B319
831 9
B319
B319
B319
8319
B319
B319
B319
831 9
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B31S
B319
B319
B319
B319
B319
B319
B319
8319
B319'
B319
B319
8319
8319
B319
8319
B319
B319
B319
8319
8319
8319
8319
B319
8319
8319
B319
B319
B319
8319
Source Code
A21
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A29
A08
A08
A29
A3S
A78
A21
A82
A94
A01
A74
A92
A08
A21
A21
A29
A53
A78
A91
A91
A49
A21
A57
A59
A71
A78
A78
AS9
A21
A29
A49
A91
A29
A78
A59
A75
A09
A78
A94
AS9
A99
A57
A59
A29
A40
A40
A78
A78
A92
A40
A40
ATS
A89
A89
ASS
A49
A29
Origin Code
1
1
1
T
1
1
1
1
1
1
1
1
. 1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
' 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
Page 46
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code I
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
0008.
DQQ8
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
0008
D008
0008
0008
0008
D008
System Type
M132
M111
M999
M999
M111
M111
Mm
M119
M141
M013
M111
M132
Mill
M141
M111
M141
M132
M141
M141
M141
M019
M141
M111
M111
M119
M111
M111
M043
M111
M141
M019
M119
M132
M141
M013
M141
M111
M132
M141
M043
M141
M132
M129
M019
M129
M141
M141
M111
M132
M111
M013
M111
M111
M049
M132
M043
M013
M132
M013
M013
M013
M111
M132
M132
M141
MU1
M141
M141
M111
M141
M141
M141
M111
EPA ID
WID006073225
WID00607322S
WID006073225
WID00607322S
WVD065632424
W1D006073225
WID006073225
VAD046960449
W1D006426431
PAD002350833
WID0060720S2
VAD083059311
WID982204968
PAD080879992
VAD003444379
TXD981053713
PAD003018090
PAD987388121
PAD987388105
PAD987388121
TXD088996186
TXD088996186
PRD987370939
PRD987370939
PRD987370939
PRD987370939
PRD987370939
PAD046558037
WID000713115
PAD059282459
WID988632154
WID9886321S4
VAD070360219
VAD058913294
PAD981 947294
PAD981947294
PAD982364S64
PAD9823645S4
VAD003123072
PRD987374527
VAD980551782
TXD007365984
PAD001 882372
VAD066000993
PAD001 882372
TXD0489163S7
PA521 3820892
PAD001 882372
PAD001 882372
PAD004510848
PAD002327708
VTD002084705
VTD002084705
RID030284293
W1D055302731
WID055302731
UTD009073305
PAD002279149
PAD01 41 67589
PAD014167589
PAO079181186
WID059980045
VAD054039961
TXD0271 15856
VTD002085108
VTD001075894
VAD988186110
VA1 17002481 3
W1D044391712
VA517Q000181
PA41 7002241 8
VAD988186t10
VAD001 307495
Volume (tons)
6.37
0.9
0.9
0,75
718.7
4.9S
59.78
. 0.709
0.7
373.384
6.301
30.5
92,18
13.6
3.8
0.09
0.337
0.1
0.375
0.1
0.94
5.31
8.2
2,9
5.6
3.6
0.4
0.214
0.875
1.6
0.075
18.461
45.38
7.25
6
0.25
35.9
54.9
0.125
0.25
0.772
1.66
2.55
117.123
9.38
3.35
0.995
549
1,834.00
73.819
0.025
18.456
1,4
0,35
1.98
0.247
45.789
2.11
2.179
0.858
22.423
23.97
0.76
29.01
5.446
1,141
9.842
0.73
147
1.525
0.117
0.001
57.85
SIC Code
3431
3431
3431
3432
3432
3432
3432
3443
3469
3471
3479
3479
3494
3496
3499
3533
3541
3547
3547
3547
3577
• 3577
3612
3612
3612
3812
3612
3613
3621
3624
3641
3641-
3641
3646
3663
3671
3671
3671
3671
3672
3672
3672
3672
3672
3672
3672
3672
3672
3872
3674
3674
3674
3674
3674
3675
3675
3679
3679
3691
3691
3691
3711
3714
3714
3724
3724
3731
3731
3731
3731
3731
3731
3731
Form Code
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
8319
8319
B319
B319
8319
B319
B319
B319
8319
B319
B319
8319
B319
B319
8319
B319
B319
B319
B319
B319
B319
831 9
B319
8319
B319
B319
B319
8319
8319
8319
8319
B319
8319
8319
8319
8319
B319
8319
8319
B319
B319
8319
8319
8319
B319
B319
B319
B319
8319
8319
B319
Source Code
A29
ASS
ASS
A08
A40
A51
A82
A99
A82
A29
A78
A99
A49
A49
A78
A49
A25
A08
A29
A29
A09
ACS
A08
A29.
A91
A92
A99
A92
A89
A57
A49
A49
A49
ASS
A49
A29
A57
A57
ASS
AOS
A08
A22
A39
A49
A49
A49
AS6
ASS
ASS
A49
ASS
A57
ASS
AS9
A57
A82
A57
A69
AS7
A59
A91
A29
A22
A59
AS6
A59
AOS
A19
A29
A29
A58
A58
A91
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 47
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
O008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOB
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOB
DOOB
DOOB
DOOB
DOOB
D008
D008
D008
D008
D008
D008
System Type
M132
M141
M132
M141
M141
M141
M132
M999
M141
M043
M043
M043
M117
M141
M999
M049
M052
M061
M061
M111
M141
M111
M111
M112
M119
M999
M111
M132
M132
M013
M132
M132
M111 •
M132
M043
M111
M119
M111
M111
M132
M141
M119
M141
M111
M141
M141
M141
M043
M111
M043
M132
M141
M111
M111
M111
M999
M111
M141
M141
M019
M141
M999
M119
M111
M132
M013
M0.13
M111
M111
M141
M119
M141
M132
EPA ID
RID063900690
PA41 7002241 8
UTD009081357
PAD002316305
TXD000709964
TXD000709964
PAD004335485
WAD033606203
TXD981 050578
PAD981 036551
WVD003095536
WID006112478
RID000652354
WID045131182
WAD053814091
WID043858935
WVD988799995
VAD044779015
WVD001 863679
PAD987347606
PA821 3820642
VA6690500909
PAD060508397
PAD980713002
PAD000647354
WA4960010151
PAD086204245
WVD980554943
PAD060496072
PAD000765883
TXD000837393
TXD097311849
PAD981 938897
PAD981 938897
PAD049672389
PAD005029582
VAD0851 25466
PAD000779959
PAD074979857
VAD056907611
PAD1 06384993
WID988637781
PAD9808299SO
VAD000820712
TXD000633982
TXD980869184
VTD000636449
PAD004393138
PA8890031869
VA4570024477
VA4570024477
VA4690320235
PAD981 042237
PAD982674913
PAD981741457
WA21 7002341 8
VA1 170024722
VA8170024170
UT321 3820894
VA5170022938
VA5170022938
WA7890008967
PA6170024545
NVD000626531
NVD000626531
NYD986995819
NYD986995868
NYD986995868
MID982075392
NYD986989713
MID985621051
NJD0021 47023
NHP000003506
Volume (tons)
1.275
1.406
19.332
3.023
0.24
18.24
0.975
0.04
7.33
1.132
0.626
0.405
0.578
13.629
11.5
1.091
0.25
1.6
7.113
71.25
0.15
6
40
28.524
7.5
1.58
313.85
0.24
2
4.8
0.22
0.11
15.435
30.235
0.04
18.4
0.8
36
20
40
0.058
7.029
8.95
1.5
1.61
9.25
0.456
2.744
5.81
36.259
1.35
23.33
135.1
4
7.493
0.5
0.582
0.45
0.09
1.55
0.88
• 0.31
1.954
1.25
95.88
32.105
14.735
3.47
4.25
4.5
17.287
0
73.7
SIC Code
3731
3731
3761
3769
3812
3812
3824
3825
3827
3829
3861
3931
3961
3993
3999
3999
4011
4011
4011
4111
4225
4581
4613
4613
4613
4911
4911
4911
4911
4911
4911
4911
4922
4922
4922
5047
5169
5171
5171
5171
8062
8211
8221
8221
8221
8221
8221
8731
8733
9199
9199
9511
9621
9621
9621
9711
9711
9711
9711
9711
9711
9999
9999
1041
1041
1522
1522
1522
1795
2086
2514
2834
2851
Form Code
B319
831 9
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
8319
8319
8319
8319
B319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
831 9
8319
8319
831 9
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319 I
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
Source Code
A91
A91
A75
A99
A29
A49
A19
A99
A57
A56
A89
A75
A69
A99
A54
A56
A99
A21
A59
A29
A29
A29
A78
A21
A21
A59
A99
A99
A99
A29
A29
A99
A40
A19
A21
A21
A29
A94
A89
A01
A08
A08
A08
A59
A94
A08
A29
A29
A29
A21
A21
A29
A08
A21
A78
A92
A92
A29
A59
A59
A69
A69
A69
A56
A08
A69
A53
A62
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
1
2
2
2
2
2
2
2
2
2
2
Page 48
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
0038
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DQ08
D008
D008
0008
DOOS
D008
0008
D008
D008
D008
D008
D008
D008
D008 •
D008
D008
D008
D008
D008
D008
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
0008
DOOS
DOOS
0008
0008
0008
DOOS
DOOS
D008
0008
oooa
DOOS
DOOS
DOOS
0008
0008
DOOS
DOOS
DOOS
DOOS
DOOS
D008
System Type
M013
M043
M043
M141
M049
M137
M132
M111
M111
M043
M132
M132
M141
M111
M141
M132
M111'
M043 '
M111
M141
M111
M111
M111
M111
M119
M132
M043
M111
M141
M043
M141
M039
M121
M043
M111
M041
M041
M041
M041
M041
M141
M019
M132
M111
M129
M111
M132
M132
M013
M132
M013
M132
M132
M111
M132
M132
M109
M141
M111
M99S
M999
M111
M132
M132
M077
M111
M141
M141
M111
M043
M999.
M999
M999
EPA ID
NJD002385730
NJD002385730
NJD0021 84448
LAD008052334 •
NJP000908327
NEDOQ0802843
NYD0021 04404
NYD004971503
NYD006977086
NJD986592129
NCT000002323
NCD021 389358
NYD0021 00493
MAD002084093
MAD080031180
NJD002342517
ORD980982839
MOD003537271
ORD980982839
MED985467844
NHD06675S620
NHD066755620
NYD064337298
MiD0053567i5
MID005356795
NYD0021268S2
MAD001408517
NYD9821 83857
NJD002362762
NYDOQ0809327
MAD001011071
NJD043274471
NY0986870319
NYD006866008
NYD987011665
NYD980646624
NYD000701607
NYDOQ0701680
NYD982743577
NYD987033818
NYD980648554
NJD075440149
NYD981 483985 .
MI0000030320
MD5170024686
NYD982722118
MD321 0021 355
MA721 00251 54
ME81 7002201 8
ME9570024522
NJD061843249
NJD061843249
ORD02T61S186
NJD986641637
NJ0986620664
NJD986633543
NJD982532434
MA8570024424
PAP000006519
WAD988522488
WAD0092S0820
PAD069038941
PAD004336277
PAD990753089
WID006073225
WID006073225
VTD093252Q96
VAD990710899
WID059980045
VAD083056507
WAD053814091
WA8570024200
WAD041 334368
Volume (tons)
13,112
52.533
20
2.537
47
3.5
12.748
280
4.44
10
1,259.52
33.165
5.3
17.46
0.325
17.271
2.126
0,688
0.652
0.4
0.6
85.276
86
887,363.00
5.835
12.33
0.176
0.1
25.272
0.04
0.125
94.92
1,238.17
0.228
17
69
16.8
15
19.2
27
224.11
0.09
0.8
25
0.11
20.6
21.09
5.721
8.405
0.006
1,202.33
1 ,454,01
1,123.83
8
10
38
0.5
75.4
13.59
215.81
108,42
, 0,26
3.2
1,359.70
1.294
0.4
1.2
0.165
4,190.09
8.77
1.82
318.8
205.77
SIC Code
2869
2869
2869
2911
3011
3052
3083
3229
3341
3356
- 3369
3411
3499
3612
3641
3669
3672
3672
3672
3678
3679
3679
3691
3711
3711
3714
3724
3743
3823
3861
3914
4226
4813
4931
4941
5171
5541
5541
5541
5541
7539
3062
8221
8299
8734
9223
9711
9711
9711
9711
9999
9999
9999
9999
9999
9999
9999
9999
1622
2421
2611
2819
3221
3341
3431
3431
3571
3663
3711
3713
3999
4581
4911
Form Code
B319
B319
B319
B319
B319
8319
B319
8319
B319
B319
B319'
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
8319
8319
8319
831 9
B319
B319
8319
8319
8319
B319
B319
B319
8319
8319
8319
8319
8319
8319
8319
B319
8319
B319
8319
B319
B319
B319
8319
8319
B319
8319
B319
8319
8319
8319
8319
B319
8319
8319
B319
8319
8319
B319
8319
8319
B319
B319
B319
Source Code
A63
A69
A93
A08
A65.
A56
A63
A56
A92
A69
A61
A69
A40
A56
A29
A69
A59
A92
A99
A93
A91
A93
AS6
A08
A56
A56
A69
A69
A69
A69
A92
A
ASS
ASS
A21
A59
A59
A59
A59
A59
A69
A57
ASS
A69
A08
A21
A08
A59
A69
A91
A61
A61
A61
A62
A62.
A62
A69
A69
A21
A49
A09
A59
A61
A61
A56
A99
A38
A56
Origin Code
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
,2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
' 2
2
2
2
2
2
2
2
Page 49
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
0008
D008
0008
D008
0008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
System Type
M999
M111
M999
M999
M043 .
M999
M111
M132
M141
M141
M132
Ml 41
M013
M141
M132
M141
M119
M132
M141 .
M043
M132
M013
M043
M111
M111
M141
M043
M141
M129
M132
M043
M132
M141
M129
M061
M041
M061
M132
M111
M141
M141
M132
M141
M141
M141
M043
M141
M141
M111
M132
M141
M043
M119
M141
M141
MDK
M141
M111
M141
M141
M111
M132
M032
M043
M132
M141
M141
M141
M043
M043
M141
M061
M013
EPA ID
WAD988502340
WVD980554588
WAD988509022
WAD988S23403
PA0890090004
WAD988516787
PAD987285723
LJT521 0090002
Rl 11 70024243
PAD980829329
PAD000731S05
NCD003195161
MND982627226
VAD0031 23072
VA821 0020626
VA821 0020626
WID056060981
TXD008090409
MAD076624311
NYD002113736
MSD982769663 •
NYD002240638
NYD002240638
LA0213820533
NHD040244428
MAD076590652
NYD002241982
NHD98220068S
MDD981111263
MID068819648
MAD000769638
NCT000002279
NV7570024110
TXD0064962S1
PAD004397030
SDD981545577
SDD981545577
PAD092868793
VAD0031 29640
VA1 17002481 3
PAD981742448
VAD000607986
VA5170022482
VA1 21 372081 5
VA5170022482
NCD0031 50562
MDD087293346
NJD002526069
MAD001017589
MAD001017S99
MAD001017599
UTD980954168
VAD981738479
MAD086534864
NYD002242006
NJD051406346
MND053422762
NHD040244428
MAD001012244
MAD980525505
MAD990886301
MDD0030S0198
VID980536080
PAD981039613
WID988575379
MDD982S66218
MAD000844571
MS621 0809871
M1D980995096
MOD000687525
MED058951047
MAD000652644
ORD01 0746402
Volume (tons)
2.25
20.7
13.5
65.27
0.692
64.35
1.8
0.625
6.214
0.4
25.61
4.871
252
•3.2
15.58
0.9
0.495
63.79
0.33
. 111.03
7.07
10.7
4.96
0.002
8
19,537
1.3
1.91
0.2
33.6
4.75
8.89
2.522
0.66
1.405
0.4
0.65
4.125
0.245
0.014
0.4
28.659
2.175
0.175
0.6
1.545
155.4
0.6
46.49
289.7
0.178
1.319
0.15
1.514
4.4
0,2
0.95
1.75
1.5
0.5
0.99
0.2
0.728
0.5
75
0.275
1.839
0.052
2.385
0.061
16.439
0.54
49.453
SIC Code
4911
4911
4941
6513
8731
9621
•9621
9711
9711
9999
9999
3675
5093
3671
9199
9199
3471
2911
2891
3089
3357
3484
3484
3489
3672
3672
3672
3676
4111
5171
S171
• 6513
9711
2082
2851
3672
3672
3672
3728
3731
4111
5171
9711
9711
9711
2296
3441
3471
9999
9999
9999
3672
3672
3841
3421
3652
3672
3672
. 3672
3672
3679
3999
2911
3451
3624
3484
3672
9199
2851
3613
' 3625
3672
3691
Form Code
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
8319
B319
B319
B320
B393
B403
B403
B403
B403
B403
B403
B403
B403
B403
B403
B403
B403
B403
B403
8403
B403
B403
B403
B403
B403
B403
B403
8403
B403
S403
B403
8403
B403
B403
8403
B403
B403
B403
B403
B403
B403
8404
8404
8404
8404
B404
B404
B404
8404
8404
B404
B404
8405
B405
B405
B406
B406
8406
8406
8406
Source Code
A39
A56
A29
A08
A99
A61
A69
A76
A72
A71
A59
A59
A22
A29
A94
A31
A99
A09
A09
A08
A71
A89
A99
A08
A99
A21
ASS
A57
A21
A21
A59
A01
A01
A01
ASS
A21
A59
A21
A08
A21
A21
A57
A93
A93
A69
A69
A69
A01
A56
A75
A2S
A58
A32
A59
A59
A59
A49
A71
ATS
A19
A71
A92
A01
A34
A59
A56
A59
A59
A57
Origin Code
2
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
Page 50
-------�
1993 BRS Data (GM Form) -TC Wastes Managed Off-site
Waste Code
DOOS
DOOS
DOOS
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
D008
D008
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M111
M043
M013
M141
M043
M043
M131
M141
M043
M141
M043
M141
M043
M043
M132
M119
M013
M049
M141
M132
M132
M137
M111
M043
M043
M043
M019
M043
M132
M111
M043
M141
M061
M013
M013
M013
M111
M043
M043
M141
MQ43
M042
M019
M111
M141
M111
M141
M043
M111
M141
M061
M053
M111
M132
M132
M141
M141
M043
M141
M043
M141
M043
M041
M141
M111
M141
M043
M111
M141
M141
M132
M141
M141
EPA ID
NJD061 829461
PAD000796334
MND001 970334
NYD001315266
NC1 170027261
VAD981 036957
VA1 17002481 3
VA1 17002481 3
PA0890090004
VA469032Q23S
NJD986592129
VAD066000993
MOD000823252
NVD000626S31
NVD000626531
MED001 095470
NCD003148889
NJDQ531 04501
NJD001340686
NJD0021 73946
MND000686071
NED000802843
NJD002389468
NYD0021 16499
MID03861695i
NJD002325074
NJD002325074
NJD00232S074
NJD002325074
MID004320479
NJD002181386
NYD002242006
MND006253801
MND980996805
NYD002240638
MND0008192$8
NHD058537960
MND006253223
MND980702286
NYD982528606
NHD986467124
MOD000687525
NYD001 560879
NYD001 560879
MAD980525505
MAD001008770
NHD046312559
NYDOQ2241982
MED077469864
NYD059385120
NYD001315266
NYD091 975037
MID065597809
M1O084571256
NMDOS2664578
MAD001013226
MAD065781197
NYD000809327
MAD062163191
NYD000809327
MAD062163191
MND006961239
NYD030214738
NHD986469542
NYD987032604
MDD06938648Q
NCD980843866
MID076380658
MND00082391'4
NHD986469625
NJ01 700221 72
NC6570024475
VAD005007679
Volume (tons)
46.2
0.18
0.829
0.325
0,182
0.3
3.46
30.045
0.165
0.091
0.22
4.375
1.016
0.45
4.2
0.037
0.1
0.227
1.147
0.26
0.6
0.415
223.44
1.87
3.207
1.192
3.355
0.112
19.605
0.15
0.5
1.6
0.9
. 43.964
4.2
7.894
1.953
0.05
7.9
0.4
4.65
0.327
0.125
11
0.4
0.05
10.088
2.5
1.575
0.45
3.73
0.3
1.75
0.229
0.162
0.271
0.07
0.625
16.593
0.01
0.401
2.109
0.672
22.1
1.486
1.794
1.595
0.5
0.29
0.4
45.3
4.65
0.4
SIC Code
5093
3678
3483
3694
9711
3728
3731
3731
8731
8744
3356
3672
1031
1041
1041
2621
2621
2813
2851
2892
2911
3052
3061
3231
3231
3262
3263
3263
3263
3312
3356
3421
3471
3471
3484
3489
3494
3561
3561
3575
3599
3613
3624
3624
3672
3672
3672
3672
3675
3679
3694
3699
3714
3714
3724
3826
3827
3361
3861
3861
3861
4011
4911
4911
7033
8731
8734
8734
8741
9199
9711
9711
2823
Form Code
B406
B406
B407
B407
B407
B407
B407
B407
8407
8407
8407
8407
8409
B409
B409
B409
8409
B409
B409
B409
8409
B409
B409
8409
8409
B409
8409
8409
8409
8409
B409
B409
8409
8409
8409
8409
8409
8409
B409
B409
B409
8409
8409
B409
B409
B409
B409
B4Q9
B409
B409
8409
8409
8409
8409
8409
8409
8409
8409
8409
B409
8409
8409
8409
8409
B409
B409
B409
B409
B409
8409
8409
B409
B409
Source Code
A72
A92 .
A99
A92
A92
ASS
A29
A29
A99
A21
A69
A56
ASS
A59
A59
A08
A21
A19
A78
A08
A08
ASS
A92 -
A09
A21
A21
A57
A57
A57-
A09
A92
A07
A29
ASS
A59
A99
ATS
A99
A99
A29
A29
A01
A49
A49
A09
A22
A29
A37
A29
A19
A92
A31
ASS
A92
A49 '
A35
A21
A19
A57
A59
A92 '
A56
A08
A21
A69
A94
A09
A59
A57
A99
A29
A29
A08
Origin Code
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
"$
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.
Page 51
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008 .
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
0008
D008
0008
0008
0008
0008
O008
0008
0008
D008
0008
0008
0008
D008
0008
0008
0008
D008
0008
D008
D008
0008
D008
0008
0008
0008
D008
0008
0008
D008
0008
D008
0008
0008
D008
0008
0008
0008
0008
0008
D008
0008
D008
D008
D008
0008
System Type
M043
M141 ,
M043
Ml 41
Ml 11
M043
M111
M141
M141
M111
M043
M043
M081
M141
M141
M141
M043
M043
M061
M132
M141
M141
M111
M043
M119
M132
M141
M061
M141
M041
M039
M132
M111
M129
M132
M111
M141
M111
MS99
M023
M132
M999
M043
M111
M129
M132
M141 •
M043
M132
M132
M132
M132
M141
M119
M111
M022
M061
M141
M079
M042
M013
M109
M112
M141
M109
M141
M141
M042
M112
M013
M013
M141
M141
EPA ID
RID001 805670
RID001 805670
TXD005942438
TXD005942438
PAD021 450382
WID003966884
WID006073225
VAD980831176
WID006084172
VAD003132545
PAD097880538
RID058Q58405
VTD001780725
PAD000621508
PAD001680719
RID001463090
PAD9810365S1
PAD981 036551
WVD001 863679
TXD01 0794097
VA6170061463
UT321 3820894
ORD093481646
NJD002385730
NJD001213453
MOD006266365
NYD980768253
NYD987025137
NYD987036258
MAD985286855
NJD079320495
NJD079320495
RID080815145
RID080815145
VAD000485300
PAD074986795
VTD002065597
PAD004321527
WAD980836530
PAD000780049
NJD0021 73946
WID006085757
WID006274153
W1D988638300
WID053691283
TX3214020429
TX8S71524117
TX8571 524091
TX8S71 524091
TXD987988953
TXD026046391
TXD982288821
NJD0021 89132
NJD0021S9132
MSD985978501
ORD9871 75569
ORD987175569
TXD068999622
PAD981 036551
NJD981142185
PAD069038941
NJ6180010120
NJD002325074
MAD051778934
MND053422762
MAD982194482
MAD001 060698
NYD0021 15087
WVD1 36333580
UTD009073305
PAD014167589
PAD981741457
MAD086534864.
Volume (tons)
- 1.341
10.051
0.35
31.07
28
2.392
325.14
0.988
5.847
3.15
0.2
0.73
0.688
0.08
0.042
0.313
1.06
' 0.077
1.95
50.85
0.031
0.124
2.121
1.477
55.44
18.9
0.7
58.5
0.8
22
6.72
^0.075
21.22
0.625
33
306.55
t/012
0.99
0.001
0.5
0.325
0.15
0.025
218.4
2.8
1,294.25
1.16
4.01
72.29
1.26
66.43
37.84
3.67
1.606
5
1.241
19.242
23.57
1.25
109.569
0509
2.836
105.88
1.96
1.05
2.1
0.22
20.201
70.5
86.5
6.307
4.467
0.984
SIC Code
' 2865
2865
2869
2869
3053
. 3069
3432
3541
, 3585
3625
• 3672
3674
3691
3769
3769
' 3812
3829
3829
4011
4226
9711
9711
1721
2869
2869
3211
3462
4225
5149
5541
6512
6512
2672
2672
2711
2819
3692
3821
'4931
5171
2892
2531
3484
4231
3483
9711
9711
2851
2851
3494
5171
5171
2819
2819
3315
3674
3674
3341
3829
4231
2816
4311
3262
3672
3672
3672
3679
3714
3262
3679
3691
9621
3841
Form Code
B409
B409
B409
B409
B409
B409
B409
8409
B409
B409
8409
B409
B409
B409
8409
B4C9
8409
B409
8409
B409
8409
8409
8409
B409
8409
8409
84C9
B409
8409
B4C9
8409
B409
B4C9
8409
B409
B409
8409
8409
8409
B40S
8409
B410
B410
8410
B411
B488
8488
8490
8490
8490
B490
8490
8502
8502
8502
8502
8502
8502
8502
B503
8503
8503
8504
8504
8504
8504
8504
8504
B504
8504
B504
8504
8504
Source Code
A33
A33
A08
A08
A49
A29
A29
A49
A29
A09
A49
A49
A59
A92
A99
A29
A57
A59
A69
A08
A21
ASS '
A08
A69
A69
A56
A93 '
A69
ASS
AS9
A 69
A69
ASS
AS6
A09
A69
A53
A56
A38
A99
A53
A09
A99
A56
A29
A99
A29
A29
A29
A30
A75
A60
A71
A71
A75
A75
A19
A76
A76
A75
A09
A60
A75
A92
A19
A7S
A75
A60
A60
A76
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
Z
2
2
2
2
2
2
2
2
2
2
3
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
3
Page 52
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOC®
D008
D008
D008
D008
D008
D008
D008
D008
DOOS
0008
DOOS
DOQ8
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
0008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
D008
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
DOOS
System Type
M132
M043
M125
MQ14
M141
M141
M129
M141
M109
M013
M059
M119
M111
M021
M042
M111
M111
M111
M132
M111
M011
M141
M013
M141
M141
M032
M141
M132
M111
M042
M013
M111
M111
M077
M042
M061
M141
M042
M042
M061
M121
M141
M111
M111
M111
M111
M121
M111
M111
M042
M141
M109
Ml 41
M141
M132
M111
M042
M141
M111
M042
M141
M111
M019
M013
M132
Ml 32
M141
M019
M109
M1Q9
M111
M111
M141
EPA ID
NVD981 639586
MOD980968739
MID005344973
MNT280010034
MND053422762
RID982755324
WID053691283
MAD001 923408
MND05073017S
PAD01 41 67589
WID006069710
MOD985797331
WID006073225
PAD002122653
NYD0021 34880
NJD0021 56354
NYD981494644
NHDOS8537960
M!D985569946
PAD061 105441
PAD0021 03265
VAD066000993
PAD01 41 67589
VTD001075894
VTD002085108
MIDQ38624508-
NYD980768253
NYD093256063
MID985569987 .
NYD986936961
PAD004510848
PAD004510848
PAD987391836
PA8890031869
NJD002385730
MND0061 58943
NJD0021 90627
MDD980918288
MID0991 24349
MID0991 24349
NCD061792362
NCD061792362
NYD000824359
MID005357504
MID005357504
MID005357504
MID982604001
NJD000499293
MND006161756
NYD001317072
MED05S951047
MND041 786930
MAD001 055235
MAD001 055235
LAD089317341
M10065597809
MIDOOS401970
MAD0011 27224
MAD076575513
MOD985812916
RID001 198605
PAD030068282
VAD981 738479
PAD079181186
WID006092555
TXD063067466
VTD001 075894
VTD002085108
PAD987328374
PAD987342839
PAD987328374
PAD987342S39
TXD980869184
Volume (tons)
21.4
0.229
0.5
1.4
1.875
1.25
0.1
1.042
5.734
88.443
2.079
2.364
2.831
0,3
2.5
1.355
43.5
257.625
81 .764
68.36
21.72
3.55
63.599
2.85
5.286
6,386
0.4
0.291
15.751
0.4
26.025
51.106
394.1
75.75
120.561
0.027
4.85
0.592
99.549
8.446
3,5
0.9
45.5
0.213
131.663
2.125
14.804
0.2
1.012
0.5
0.88
0.2
0.2
0.05
1-6.37
5.21
1.418
2.613
579
0.551
1.375
' - 7.55
0.12
420.693
1.013
8.26
3.483
77.68
3
0.53
15.905
3.565
0.79
SIC Code
7549
3471
3471
3672
3672
3471
3483
3669
3471
3691
•3824
3643
3432
3449
3312
2869
3321
3366
3931
3321
3624
3672
3691
3724
3724
3714
3462
3629
3711
3714
3674
3674
4911
8733
2869
2621
2816
2851
2851
2851
3221
3221
3229
3369
3369
3369
3479
3479
3571
3585
3625
3672
3679
3679
3713
3714
3724
3851
4931
6531
3229
3341
3672
3691
3714
3724
3724
3724
4813
4813
4813
4813
8221
Form Code
B504
B505
B505
B505
B505
B505
B505
B505
B506
B507
B509
B510
B5-10
B510
6510
B511
B511
B511
8511
851 1
8511
8511
8511
8511
8511
B512
B513
B513
B513
B513
B513
B513
6513
B513
B513
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519 •
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
B519
8519
Source Code
A03
A25
A38
A09
A60
A59
A56
A53
A38
A78
A60
A29
A03
A06
A53
A49
A78
A78
A78
A78
A71
A73
A73
A60
A78
A21
ABO
A19
A21
A92
A64
A64
A99
A60
A69
A60
A60
ACS
A60
A60
A60
A60
A50
A09
A38
A60
A24
A26
A29
A29
A38
A71
A51
A56
A08
A09
A60
A35
A60
A92
A21
A59
A27
A60
A82
A19
A59
A60
A32
A92
A92
A92
A99
Origin Code
3
1
1
1
1
1
1
2
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1'
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 53
-------�
1993 BBS Data (GM Form) -TC Wastes Managed Off-site
Waste Code
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DCX58
D008
D008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
D008
DOCS
D008
D008
D008
D008
D008
0008
D008
D008
D008
D008
D008
D008
0008
D008
0008
D008
D008
D008
0008
D008
D008
System Type
M042
M013
M042
M132
M059
M141
M132
M032
M125
M049
M061
M111
M119
M141
M052
M141
M042 '
M019
M109
M111
M109
M052
M061
M141
M141
M129
M141
M042
M132
M041
M042
M043
M061
M061
M061
M141
M041
M041
M041
M041
M042
M042
M042.
M042
M042
M041
M141
M132
M132
M141
M111
M111
M111
M111
M111
M043
M021
M141
M042
M141
M132
M042
M042
M132
M141
M042
M061
M141
M132
M141
M129
M043
M132
EPA1O
PAQ890090004
NJD002385730
NYD98702829?
NY00021 26852
WID001781186
LA0000023903
NDD0061 75467
MAD039324009
MID005381439
MAD980522817
MID0201 05565
LAD985211762
NYD01 31 28582
MAD001055235
NJD980536676
NYD980642227
NYD000765065
MOD980631295
NY0214020281
PAD000766063
PAD003023371
TXD048772610
TXD048772610
PAD003008448
PAD004327987
PAD0971 56962
WI0042822274
PAOS9Q090004
NJDO00574285
NYD98702844S
NYD987028446
NYD987008083
NJD986598514
NJD986598597 •
NJP000909101
NYD981 184450
NYD981 133358
NYD986899805
NYD986903169
NYD986944684
NYD980784003
NYD982269979
NYD986899805
NYD986932622
NYD987035391
NYD002244945
NHD990717647
MID981 000482
MDD003075207
NYD000368423
MID000809764
MID005379706
MID005379813
MID003906773
MItXKJ3906773
PAD000766170
WID006077374
TXD088996186
UT921 0020922
VA6170061463
MID0051 07222
MTD071401368
NYD0021 04404
NJD000813477
MAD051 505477
OKD990750960
MID005357504
NHD980668156
NYD002241982
NJD006980924
MS3170024639
VAD990800138
W1D007862964
Volume (tons)
0.704
33.696
3.36
17.225
101.94
2.4
11.402
9.506
0.558
25.48
14,108
15
0.344
11
41.674
62
3.811
1.87
1.22
0.6
9.384
18.5
4.04
. 4,4
21.8
0.212
1.275
0.873
2.32
0.25
0.5
8.5
1.5
1
12.2
2.178
3.423
4.5
17.015
5
4.108
2.739
2.25
3.5
3.9
1.307
4.15
6.5
26.348
0.3
171.36
4.532
33
69.5
5.004
0.042
8.078
0.34
0.172
0.119
19.73
1.063
19.845
0.075
1.575
1.904
0.83
7.85
0.5
0.02
0.001
0.6
258.57
SIC Code
8731
2869
.7532
3714
7216
1389
2911
3295
3341
3357
3462
3499
3559
3679
4226
4729
4911
9711
9711
3312
3315
3432
3432
3451
3494
3679
7694
8731
4931
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
5541
9999
9999
3479
3499
3519
3711
3711
3714
5013
5013
2672
3537
3577
9711
9711
3714
3499
3083
4213
2869
2911
3369
3672
3672
8731
9711
3731
5093
Form Code
8519
B519
B519
B519
B602
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B6Q3
B603
B603
B603
B603
B603
B603
B603
B603
B603
B6Q3
B603
BS03
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B603
B604
B604
B604
B604
B604
B604
8604
B604
B604
B6Q4
8604
B604
8604
8604
B606
B606
B608
B609
B609
B609
B609
8609
B609
8609
B609
B609
Source Code
A09
A60
A69
A60
A19
A19
A38
A54
A54
A54
A04
ASS
A38
A51
A60
A99
A19
A60
A60
A60
A60
A54
A54
A49
A29
A09
A60
A56
A53
A60
A60
A60
A60 •
A60
A60
A60
A69
A69
A69
A69
A69
A69
A69
A69
A69
ASS
A61
A38
A21
A19
A21
A21
A21
A09
A21
A06
A21
ASS
A21
A21
A09
A92
A64
A19
A60
A09
A09
A01
ASS
A58
ASS
A99
A60 - .
Origin Code
1
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
. 2
2
1
1
1
1
1
1
1
2
1
2
1
1
1
1
1
1
1
1
1
2
Page 54
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D008
D008
D008
D008
D008
D008
D008
0008'
D008
D008
D008
D008
0(308
D008
D008
D008
D008
D008
D008
twos
D008
D008
DCX38
D008
D008
0008
D009
D009
DOOi
0009
D009
D009
DOCS
D009
D009
D009
D009
D009
O009
D009
D009
D009
DOCS
D009
0009
D009
DQ09
D009
D009
D009
D009
0009
D009
D009
D009
D009
DOCS '
D009
DOCS
D009
D009
D009
D009
DOCS
0009
D009
D009
D009
D009
DOCS
0009
0009
D009
System Type
M111
M141
M013
M141
M111.
M999
M999
M999
M999
M999
M999
M999
W999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M019
M043
M019
M019
M129
M129
Ml 41
MDK
M141
M039
M043
M141
M119
M012
M111
M094
M141
M141
M041
M141
M012
M141
M041
M041
M141
MOW
M119
M141
Ml 41
M141
M049
M141
M061
Ml 41
M132
M141
M141
M141
M019
M012
M141
M141
M141
M119
M141
M141
M141
EPA ID
NJD096880265
TXD008063364
TXD980626642
TXD981 145766
TXD060170321
WAD061 670766
WAD009480823
WAD01 7404625
WAD009249392
WA8570024200
WA21 7002341 8
WA51 70027291
WA9214053465
WA7B90008967
WAD052594751
WAD0090723S6
WAD041 585464
WAD982658155
WAD9884S7$50
WAD988S12158
WAD988522462
WAD988466942
WAD988523742
WAD981767007
WA21 7002341 8
WA921 4053465
NJD986593705
NJD002342087
MOD054950670
NJD986629O04
NJD982796633
UTQ571 724350
NJD986584134
NJDOQ2334084
NYD980785950
NJD001288042
MIT270011513
NYD002067882
MOD046740148
MID009708678
NJD002373819
MOD006278S42
MDD022402994
NJD011 550092
NJD986630630
NCD067181818
LAD981052376
NJO064332273
NJD986579894
NYD000632315
NCD085074821
NJD002568715
NYD002108629
MD3170024720
NJD073745945
NYD000523993
NYD052980893
NCD980559983
NJ0049642820
NJD002350023
NJD002445S83
NHD03769S236
NHD073974651
NHD052017787
MIDOCS356860
NYD0021 26852
MAD001 408491
NJD002442549
MAD001 047968
MAD000652644
NJD000631937
NYD000809327
NED000829754
Volume (tons)
399.381
1.25
57.12
1.37
4.16
4.59
0.008
0.01
0.06
0.25
98.97
0.31
0.001
0.59
0.1
0.31
16,738.27
0.002
0
155,21
47.51
2,669.01
17.83
40.21
26.45
0.08
0.48
0.24
0.03
0.085
0.13
0.052
0.934
0.004
0.002
0.025
0.01
0
0.02
0.02
0.688
0.05
0.157
•0.004
0.05
0.05
0.004
0.115
0
0.016
0.025
0.014
0.001
0.001
0.08
0.021
0
0.06
0.001
0.058
0
0.003
0.02
0.005
0.02
0.011
0.005
0.001
0.012
0.001
0.825
0.002
0.017
SIC Code
4931
3533
3691
3672
3676
3728
3764
3764
3812
4581
9711
9711
9711
9999
1221
3537
3721
4911
4911
4911
4941
6552
8211
9531
9711
9711
62
3229
3678
4939
8711
9711
2869
3612
2022
2032
2522
2611
2618
2819
2819
2821
2834
2834
2835
2836
2869
2369
2869
2869
2869
2891
2891
2899
2911
3021
3086
3229
3231
3296
3324
3555
3672
3679
3714
3714
3724
3728
3826
3829
3842
3861
4011
Form Code
B623
B696
B901
B
B
B
B
B
B
B
B
B001
B001
B001
8001
B001
B001
B001
B001
8001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
8001
B001
BOQ1
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
Source Code
A92
ASS
A91
A29 •
A23
A53
A
A94
A99
A94
ASS
A92
ASS
ASS
A94
A58
A94
ASS
A58
A94
A94
A94
A94
A94
A94
A58
ASS
A94
A94
A94
A94
A94
A58
A94
ASS
ASS
A56
A94
AS6
ASS
ASS
A58
ASS
ASS
A94
A58
A59
A94
ASS
A59
ASS
ASS
Origin Code
2
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
1
1
1 •
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 55
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
ID009
D009
D009
D009
D009
D009
D009
D009
,D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
ID009
D009
D009
D009
D009
CXX)9
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
System Type
M141
M019
M019
M049
M129
M141
M141
M012
M043
M019
M019
M129
M141
M019
M039
M141
M129
M129
M019
M141
M141
M019
M019
M141
M012
M141
M141
M141
M043
M019
M141
M012
M141
M141
M011
M141
M141
M019
M141
M141
M141
M014
M043
M141
M041
M051
M141
M141
M019
M141
M141
M141
M141
M019
M141
M141
M129
M141
M141
M999
M141
M141
M141
M019
M041
M141
M141
M049
M141
M019
M129
M012
M141
EPA ID
NYD072756513
NHD000791491
MED071749329
MDD000731596
MDD053936464
MED985467570
r4JD07707081 1
MAD076575513
NJD069896165 -
MI5570024278
MOD985795574
MOD985795574
NJD091 397547
NVD98 1963549
NYD060546181
NYD000829572
NY5890008993
NY6890008992
MOT300010220
MOt300010220
r4JD981 564099
MID000718791
NJD9821 85407
MD921 0020567
r4J0170022172
MED077474757
VAD000819466
PAD002274991
WID096828744
VTD064436074
PAD043394683
PRD091 197301
PRD1 05750236
WID076151364
PRD090023250
VAD000820662
TXD000449694
WVD004325353
PAD000766063
PAD004322509
PAD004379061
WIDOOS161368
WID006161368
PA41 7002241 8
PRD091188193
PRD091 188193
PRD101793834
PAD000730515
UTD0931 19980
WID982650160
VA61 70061 463
NCD0031 89024
NYD0021 04404
NCD041414772
MEO985467844
NJtXX»767806
WID066S81202
PAD000798132
PAD000797951
WID003967148
MDD170090021
NJD003001757
NJD981181191
MID003938156
NJD002361947
NYD9821 89086
MAD000844498
LAD050901669
NYD001 704444
NYD004971503
NYD987039237
MID005356886
MED000791681
Volume (tons)
0.08
0.001
0.028
0.005
0.04
0.037
0.019
0.005
0.02
0.01
0.01
0.06
0.004
0.001
0.007
0.087
0.004
0.002
0.07
0.025
0.007
0
0.03
0.184
0.045
0.001
0.025
0.005
. 0.085
0.002
0.055
0.002
0.01
0
0.01
0.002
0.12
0
0.021
0.005
0.153
0.152
0.007
0.135
0.002
0.284
0.003
0.012
0.002
0.001
0.006
0.01
0.01
0.006
0.01
0.008
0.01
0.003
0
36.925
0
0.002
0.225
0.03
0.012
0.012
0.001
0.005
0.01
0.15
0.036
0.215
0.026
SIC Code
4512
4911
4911
4911
4911
4911
4931
4931
8062
8099
8211
8211
8211
8221
,8221
8221
8731
8731
8734
8734
8734
8734
8734
9199
9711
9999
2111
' 2621
2621
2631
2819
2834
2834
2834
2834
2834
2869
2869
3312
3312
3312
3585
3585
3731
3841
3841
3851
3996
4911
8221
9711
2869
3083
3563
3678
8731
2841
4911
4911
9511
8221
2064
2297
2631
2834
2834
2869
2899
3086
3229
3449
3714
3724
Form Code
B001 .
B001
B001
B001
B001
BOOT
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
8001
B002
B002
B002
B002
B002
B002
B002
B002
B002
B002
B002
B002
Source Code
A93
A56
A58
A58
A58
A94
ASS
A94
A37
A94
ASS
ASS
A94
A94
A94
A94
ASS
ASS
ASS
ASS
ASS
A94
A94
A57
A94
A94
A94
A58
A59
A94
A58
A58
A59
A59
A94 .
A94
ASS
A94
A5B
ASS
A58
A59
A59
ASS
A94
A94
A94
A94
ASS
ASS
ASS
ASS
A94
A94
ASS
A59
A59
A93
A94
A59
A99
A59
A91
A94
A56
A94
A94
A94
A57
A93
A94
A56
ASS
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
Page 56
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009'
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
0009
D009
D009
0009
0009
D009
0009
0009
0009
0009
D009
D009
0009
D009
0009
0009
0009
D009
0009
0009
0009
0009
0009
0009
0009
0009
D009
D009
0009
System Type
M019
M019
M132
Ml 11
M019
M011
M019
M141
M141
M141
M141
Ml 41
M141
M012
M141
Ml 41
M132
M141
M019
M141
M141
M019
M141
M014
M141
M019
M141
Ml 41
M141
M141
M019
M141
M141
M141
M141
M041
M041
M041
M141
M141
M141
M141
Ml 41
M141
M141
Ml 41
M14J
Ml 41 •
Ml 41
M141 ,
M141
M141
M141
M141
M019
M141
M041
Ml 41
M043
Ml 41
M019
M012
M141
M137
M141
M019
M141
M019
M132
M141
M141
M019
M141
EPA ID
NJD077724201
MDD990759631
NYD980592497
NHD000842666
NYD057381535
NVD981 963549
MAD000844670
NHD000652065
NJD006980924
NJD048804488
MED985467935
PRD1181S0317
PRO98272S251
PRD000632182
VTD099682494
PAD981 947294
TXD981 595531
PAD000730S15
PAD987342839
PAD000797951
LAD008052334
NED007266331
MAD046131678
NCD079044426
NJD077070811
MAD071 723621
MDD069283240
NYD980779540
NJD048794S86
NJD98663S427
MSD008159717
NJD093842961
NJD002173276
NJD001 344506
NYD037053485
NJD000818567
NJD002147692
NJD002361947
NJD0581 18308
NJD001 479302
MAD980673065
MAD9821 96172
MDD022402994
MDD981939606
NJD002191211
NJD002361947
NJD01 1550092
NJD098262173
NYD001 288281
NYD1 14425051
MDD982579518
NJD068693167
NJD980768600
NJDQ53101085
NYD986944973
NYD072721004
NJDOQ21 73946
MSD098595317
NYD980592851
NHD062002035
NYD002245967
NYD002233997
NHD041 463456
NJD982727265
NMD056773765
NHD991 302522
MAD002423267
MID005358007
MID9805S7893
MAD000649707
NJD986575033
NJD98664544S
NJD986645443
Volume (tons)
0.112
0.005
50.794
0,085
0.06
0.002
0.053
0,001
0.04
0.095
0,02
0.005
0,011
0.005
0.021
0,005
0.04
0,035
0.02
0.005
0.005
0
0
0.026
0.057
0.025
0.005
0,001
0.005
0.015
0.013
0.033
0.085
0.035
0.28
0.044
0.025
0.017
0.005
0.057
0.027
2.147
0.052
0.04
0.095
0.047
0.005
0
0.02
1.1
0.05
0.165
0.002
0.04
0,031
0.025
0.004
0.01
0.005
0.001
0.01
0.025
0.02
0.012
0.009
0
0.024
2.752
0,017
0.008
0.015
0,159
0.001
SIC Code
3826
3829
3861
4911
8062
8221
8221
8731
8731
8731
9999
2834
2834
2911
3083
3671
3731
3996
4813
4911
2911
3052
3089
' 3646
. 4931
8062
8731
9999
2087
2521
2800
2833
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2834
2835
2841
2844
2869
2869
2869
2892
2911
3081
3089
3334
3357
3357
3499
3661
3672
3674
3711
3714
3812
3812
3841
3841
Form Code
8002
B002
B002
B002
B002
B002
B002
B002
B002
B002
8002
8002
8002
B002
8002
8002
B002
B002
8002
8002
B002
B002
B002
8002
8002
B002
B002
B002
B003-
BOOS
6003
BOOS
8003
6003
6003
6003
6003
8003
8003
8003
8003
8003
8003
8003
BOOS
B003
8003
BOOS
6003
6003
8003
8003
8003
8003
6003
BOOS
BOOS
6003
6003
BOOS
6003
6003
6003
8003
BOOS
6003
6003
6003
6003
6003
6003
6003
6003
Source Code
A56
A94
A59
A53
ASS
A94
A94
A94
A94
A94
A94
A59
A94
A94
A94
A56
A94
A56
A99
A94
A94
A99
A94
ASS
A53
A53
ASS
A94
A 94
ASS
A58
A94
A56
A57
ASS
A58
ASS
ASS -
AS9
A94
A94
A94
A94
A94
A34
A94
A94
A94
A99
A59
ASS
ASS
ASS
AS4
A94
ASS
A94
ASS
A94
A94
A94
A94
A94
A99
A94
A99
AS6
A99
AS6
A58
A94
A94
Origin Code
1
1
1
1
1
1
1.
1
1
1
1
1
1
1
1
1
1
1
1
•2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 57
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
0009
0009
0009
0009
D009
D009
0009
D009
D009
D009
D009
D009
D009
0009
0009
0009
0009
0009
0009
D009
D009
0009
D009
D009
D009
D009
D009
0009
D009
0009
0009
D009
D009
0009
D009 '
D009
0009
D009
'D009
0009
0009
D009
0009
D009
0009
D009
D009
0009
0009
D009
0009
D009
D009
D009
D009
D009
0009
0009
0009
0009
0009
0009
0009
0009
0009
D009
D009
System Type
M043
M141
M012
M141
M041
M141
M012
M111
M141
M041
M141
M141
M041
M141
M129
M141
M141
M141
M141
M012
M019
M041 .
M041
M049
Ml 32
M141
M141
M141
M141
M141 .
M141
M141
M141
M141
M019
M141
M141
M141
M141
M129
M141
M012
M141
M141
M141
M019
M141
M141
M129
M041
M137
M141
M141
M012
M141
M019
M049
M012
M012
M141
M121
M141
M141
M141
M141
M041
M051
M141
M141
M141
M043
Ml 41
M041
EPA ID
NJD002454866
NYD045606480
NYD002056679
NJD099285264
NJD980536676
MAD985270263
NJD079325460
NHD000791491
MAD097454599 '
NJD089216915
MAD985280858
NJD986646255
NYD064727027
LAD0779002Q7
MD621 0020743
MDD000737049
MD61 50004095
NYD986948024
MDD021461876
NYD002223642
NHD041027822
MDD001910777
NVT330010182
NJD0751 62990
NVT330010182
MAD0014255i4
MB3982767030
MNT28001Q414
NYD000631994
NYD048779326,
NYD071037113
MDD9811 06867
MOD049540792
NJD01 8469346
NYD071486518
NJD000765081
NJD048804488
NJD089205280
NJD980753842
MD821 3822762
NY51 2001 0710
MOD006 266803
MAD00142498S
MD01 20508940
MD51 2351 0732
NCD109141424
NCD986177061
NYD002054419
NVD097868731
NYD982272247
MD2970590004
WID0060952S1
WID006429005
W1D076151364 '
PRD118150317
WVDQ60682291
WVD060682291
PRO991291972
W1D006073225
PAD003026655
VTD002084705
VA1 17002481 3
PAD000621S08
PAD001680719
PAD002316305
PAD980714414
VAD000621177
PAD000798132
PAD020068383
PAD020068383
WID980904452
WID980904452
WID000809012
Volume (tons)
0.037
0.007
0.045
0.05
0.01
0
0.005
0.001
0.056
0.01
0.007
0.005
0.005
0.082
0,005'
0.006
0.156
0.005
•0.007
0.034
0.04
0.48
0.04
0.069
0.012
1.5
0.07
' 0.066
0.209
0.3
0.03
0.001
0.01
0.005
0.02
0.006
0.01
0.097
0.005
0.022
0.03
0.028
0.002
0.117
0.117
0.005
0.037
0.08
0.008
0.003
0.048
0.014
0.063
0.022
0.065
0.115
0.134
0.016
0.034
0.005
0.015
- 0.38
0.041
0.022
0.11
0.002
0.125
0.529
0.005
0.005
0.07
0.001
0.22
SIC Code
3842
3861
3861
3999
• 4226
4813
4813
4911
4911
4931
5961
8062
8062
8062
8071
8099
8099
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
8222
8731
8731
8731
8731
8731
8731
8731
8733
8733
' 8733
8733
8733
8733
8734
8734
8734
8999
9411
9711
2082
2819
2834
2834
2869
2869
2911
3321
3548
3674
3731
3769
3769
3769
3952
4911
4911
8062
8062
8221
8221
8221
Form Code
8003
B003
8003
8003
B003
BOOS
BOOS
BOOS
BOOS
BOOS
B003
B003
8003
BOOS
BOOS
8003
8003
BOOS
BOOS
BOOS
8003
8003
B003
8003
8003
B003
BOQ3
8003
8003
B003
BOOS
8003
8003
8003
8003
8003
8003
8003
BOOS
BOOS
BOOS
BOOS
BOOS
8003 '
8003
8003
8003
BOOS
8003
8003
8003
8003
BOOS
BOOS
BOOS
BOOS
B003
BOOS
B003-
BOOS
8003
BOOS
B003
BOOS
BOOS'
BOOS
BOOS
BOOS
8003
8003
BOOS
8003
BOOS
Source Code
A59
ASS
A94
A94
A94
A58
A59
A59
A94
A59
A99
A53
A94
A94
A59
A94
A94
A58
A59
A94
A94
A94
A94
A94
A94
A94
A94
A94
A94
A94
A94
A94
A58
A59
A94
A94
A94
A94
A94
A21
A59
A94
A94
A94
A94
A94
A94
A94
A59
A94
A53
A59
ASS
A59
A59
A94
A94
A58
A58
ASS
A59
A59
A94
A94
A94
A59
A57
A99
ASS
A94
A57
A57
A59
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
'1
1
1
1
1
1
1
1
1
1
1
1
1
1
' 1
1
1
1
1
1
1
1
. 1
1
1
1
Page 58
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
DOCS
D009
D009
D009
0009
D009
D009
0009
D009
D009
D009
D009
D009
D009
0009
0009
0009
D009
0009
D009
0009
0009
0009
0009
0009
D009
D009
D009
0009
D009
D009
0009
0009
0009
0009
0009
0009
0009
D009
D009
D009
D009
D009
D009
0009
0009
D009
0009
0009
0009
0009
0009
D009
0009
D009
D009
D009
D009
0009
0009
0009
0009
0009
0009
0009
0009
0009
D009
0009
0009
D009
D009
D009
System Type
M041
M141
M141
M141
M141
M141
M141
M141
M141
M079
M141
M141
M141
M041
M141
M125 ,
M141
M141
M141
M141
M141
M141
M141
M141
M019
M141
M012
M043
M141
M019
M132
M129
M043
M041
M111
M129
M041
M019
M012'
M141
M041
M019
M141-
M061
M112
M011
M132
M013
M141
M141
M141
M019
M141
M019
M043
M019
M012
M141
M141
M141
M141
M119
M039
M141
M032
M132
M119
M141
M041
M077
M041
M141
M081
EPA ID
WID980283394
R1D075705780
WID000809012
WID980283394 '
WID980904452
WID9811011$5
WID988576146
WID006091417
WID988628954
NYD0021 23701
NJD001368109
MED001095041
MAD000843920
NJD002191211
NJD986627206
NCD980600597
MAD001014570
NYD0021 04404
NJD002148484
NJD053509568
MD821 3822762
MD821 3822762
NJD991291584
NYD987023413
VAD089028518
VAD089028518
WID073836033
MD8213822762
MD821 3822762
M1D005360680
LAD981522295
LA021402272S
VAD982362428
RID001 784032
RID058058405
MND0481 66672
MOD0071 34091
MOD0071 34091
NYD001315209
NJD101686731
NCD000616441
NJ0001213453
MED058951047 .
NYD982540569
NYD982540S69
MAD001005370
MAD001005370
MOD0071 52903
NHD982542458
WID006105266
PAD041731670
WVD005005475
PRD980764401
PAD099091753
PAD005028642
WIDOO$102545
PAD002279149
UTD9S0806236
VTD060525151
WID9S26501SO
PAD003001070
MED001095470
LAD990683716
NJD001S72999
NYD002045466
VAD058621996
WID981534142
MD61 50004095
PRD000691014
NJD980775S44
NJDQ02361S47
NYD085503894
NYD054065909
Volume (tons)
0.019
0,052
0.151
0.028
0.009
0.294
0.002
0.004
0.021
0.002
0.01
0.116
0.015
0.005
0,005
0.002
0
0.013
0.012
0.006
0.001
0.006
0.005
1.775
0.015
0.01 5
0.013
0.05
0.009
0.003
0.007
0
0.02
0.02
0.04
0.818
22.018
0.02
0
0.005
0.031
0
0.003
0.7
0,6
0.065
1.23
0.137
0.089
Q.006
0.005
0.067
0.005
0.012
0.04
0.005
0.04
0.825
0.075
0
0.005
0.116
0.1
0.04
0.003
0.007
0
0,014
4.356
8.6
0.225
1.8
24.1
SIC Code
8221
8221
8221
8221
8221
8221
8221
8741
8811
2045
2052
2611
2821
2834
2842
2843
3053
3083
3662
3662
8733
8733
8999
9511
3334
3334
8249
8733
8733
2821
2821
9711
3577
8734
3674
2752
2834
2834
2834
2834
2844
2869
3625
3641
3641
3661
3661
3672
8734
2013
2816
2821
2834
2834
3331
3524
3679
3764
8062
8221
9999
2621
2911
3561
3674
7699
9511
8093
2835
2834
-2834
2835
2836
Form Code
B003
BOOS
BQ03
BOOS
BOOS
8003
BOOS
6003
BOOS
BOOS
B003
8003
B003
BOOS
8003
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
6004
B004
B004
8004
B004
B004
B009
8009
BOOS
8009
8009
8009
BOOS
BOOi
8009
BOOS
BOOS
BOOS
BOOS
8009
BOOS
BOOS
BOOS
BOOS
BOOS
B009
BOOS
B009
8009
8009
B009
BOOS
B009
8009
B009
8009
BOOS
8009
B101
61 01
8102
B102
B102
6102
Source Code
A59
A59
A59
A59
A59
A59
A59
A59
A89
A53
ASS
A56
A94
A94
ASS
A94
A94
A94
ASS
A53
ASS
A56 .
ASS
A69
A56
A56
A89
ASS
ASS
A94
A94
ASS •
A59
A93
ASS
A99
ASS
AS9
A94
A94
ASS
ASS
A89
AS2
A92
A58
ASS
A99
A94
A59
AS4
A99
ASS
A99
ASS
A59
A99
A99
ASS
ASS
A94
A56
A94
ASS
AS6
A53
A79
A94
A09
A31 ,
A57
A59
A37
Origin Code
1
1
1
1
1
1
1
1
1
2
2
2
2
2
• 2
3.
2
2
2
2.
2
2
2
2
2
2
2
3
3
.1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
3
1
1
1
1
1
1
Page 59
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
0009
D009
0009
DOCS
D009
D009
D009
D009
D009
0009
0009
0009
0009
D009
D009
D009
D009
D009
D009
D009
0009
D009
0009
0009
D009
D009
D009
0009
0009
D009
D009
0009
D009
D009
D009
D009
D009 .
D009
D009
0009
0009
0009
D009
D009
D009
0009
0009
D009
D009
D009
D009
D009
D009
DQ09
0009
D009
D009
D009
D009
0009
0009
0009
D009
D009
0009
0009
0009
0009
D009
D009
D009
D009
System Type
M141
M141
M141
M043
M119
M141
M077
M019
M019
M129
M121
M141
M141
M141
M099
M099
M119
M099
M129
M141
M141
M041
MQ81
M094
M141
MDK
M129
M141
M141
M141
M141
M041
M141
M141
M141
M141
M129
M141
M141
M121
M141
M141
M141
M141
M019
M141
M141
M019
M141
M141
M141
M011
M019
M141
M019
M141
M141
M141.
M019
M012
M141
M019
M141
M012
M141
M141
M141
M141
M141
M019
M019
M039
M041
EPA ID
NYD054065909
NJD058978750
NE8571 924648
PRD090083478
PRD090083478
VA5170022482
NYD9S0641641
NYD986871424
NY3570025475
M0821 1620267
MED001095629
MAD990685554
MAD001 055235
MAD001339159
MAD000639054
MAD097437982
PRD98Q2987S4
PAD0023991S6
MDP000007732
VA6170061463
MAD043409B79
MS2570024164
PRD090413568
VTD00206S597
MAD001 030576
NJD064344575
NJD980775944
NYD037053485
NJD9807S5367
NYD000809335
NJD01 8469346
NM0890010515
PAD01 4249635
VAD988186110
VAD98S186110
WID000713016
UT0571 724350
VTD00206SS97
MAD981 062904
UT0571 724350
NYP003601622 -
MID006015960
NJD003001757
MODOQ6288799
NJD152421061
MDD980694012
NJD981181191
NHD001 079896
MED980671796
MED001095371
MED001 107051
MED001 095371
yED086875887
MEDOQ1095371
NJD0571 43984
MND00617302S
NJD000768051
NJD011 443637
MNDOQ0686121
NYD066832023
NJD980593404
NJD986637353
NJD002444719
NJD001316173
NJD001316173
NJD002361947
NJD000818567
NYD01 3238480
NJD00186SS34
NJD0446S8935
NYD986936904
NJD001 220359
NJD981130172
Volume (tons)
15.392
' . 0.6
0,166
0.6
0.6
1.1
0.252
0.448
0.023
0.01
3.905
0.203
1.583
1.193
34.265
4.518
0.1
1.012
0.018
0.785
0.931
0.003
0.1
70.476
0.021
6.063
0.6
1.25
0.65
0.021
0.005
0.308
0.4S6
0.112
0.737
0.229
0
2.905
27.959
0.008
- 3.378
0.005
0.002
0.5
0.042
0
0.225
0.007
0.014
0.003
0.091
0.075
0.04
0.004
0.094
0.786
0.005
0.005
0.1
0.047
O.OOS
0.01
0.067
0.037
1.142
0.04
0.022
0.4
0.007
0.008
0.012
0.025
0.005
SIC Code
2836
2836
9711
3679
3679
9711
3674
3714
4581
9999
2621
3669
3679
3679
3728
3728
2834
3672
2999
9711
3861
5122
2834
3692
2262
2833
2834
2834
3341
3861
8731
9711
2899
3731
3731
4911
9711
3692
8731
9711
9511
2023
2064
2082
2087
2269
2297
2611
2611
2621
2621
2621
2621
2621
2621
2671
2676
2676
2819
2821
2821
2821
2821
2833
2833
2834
2834
2834
2834
2834
2834
2834
2834
Form Code
8102
B102
B102
B102
B102
8102
6103
B103
61 03
6105
B1Q5
8106
8106
B106
B106
8106
B106
B106
B106
8107
B110
B113
B113
B113
8114
8114
8114
8114
B114
B114
B114
8114
8114
B114
B114
8114
B114
B114
B114
8114
8115 '
8117
8117
8117
8117
8117
8117
8117
8117
8117
B117
B117
B117
B117
8117
8117
8117
B117
8117
8117
B117
8117
8117
8117
8117
B117
8117
8117
8117
81 17
8117
8117
8117
Source Code
ASS
A94
A99
A59
A59
A49
A23
A27
ASS
ASS
ASS
A23
A23
A75
A92
A92
A94
A23
A62
ASS
AS4
A58
A94
A75
AS4
A56
AS?
AS7
A94
A59
A59
A94
ASS
ASS
A94
A59
A19
ASS
A75
A58
A62
A56
A94
A94
A94
A94
A94
A56
A99
A53
ASS
A56
A56
A56
A93
A3S
A94
A94
A99
A56
A59
A94
A94
A94
A94
A57
ASS
A59
A72
A94
A94
A94
A94
Origin Code
1
1
1
1
1
1
1
1
1
1
2
1
1
t
1
1
1
1
2
1
1
1
1
1
1
1
1
1
V
1
1
1
1
1
1
1
1
2
3
3
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 60
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
0009
D009
D009
0009
D009
D009
0009
D009
0009
0009
D009
D009
0009
D009
0009
D009
DQ09
0009
D009
DOCS
0009
0009
0009
0009
0009
D009
0009
0009
D009
D009
D009
D009
D009
D009
0009
0009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
0009
0009
D009
0009
D009
0009
D009
0009
0009
D009
0009
0009
D009
D009
D009
System Type
M049
M099
M125 •'
Ml 41
M141
M012
M141
M019
M011
M141
MQ12
M012
M019
M141
M141
M141
M012
M039
M049
Ml 41
M012
M014
M141
M012
M141
M011
M141
M019
M012
M019
M125
M012
M012
M141
M141
M019
M019
M041
M011
M019
M141
M141
M019
M012
M011
M141
M141
M141
M141
M125.
M019
M014
M129
M012
M012"
M012
M019
M132
M141
M041
M041
M141
M012
M129
M012
M141
M141
M141
M141
M141
M141
M141
M012
EPA ID
NYD986936904
NCD982117384
MID005380126
NJD01 1550092
MDD982579518 •
NYD050275627
NJD000729798
MDD003082997
MID0071 38746
NCD9861 94272
LAD041S81422
LAD981052376
NJD053101085
NJD053101085
LAD056022387
NJD002349009
MOD043937895
MID056717747
LAD0081 86579
NJD075481598
LAD008080350
MND000686071
MND000685623
NJD002385615
NCD980SS9983
MID005357934
MDD99075937S
NCD003170784
MID005379797
M1D005356944
MID001 876663
NYD002207744
LAD071940233
NHD039103916
MAD981215411
NYD986874501
MND000823922
MOD000474148
NJD0451 33485
LAD067033944
NJD058112947
NJD0581 12947
ME5170024355
NJ0002342517
NYO000707901
ORD9871 96771
NJD986647535
MND006147268
NCD000822957
NYD986970770
NYD986970770
MOD085002319
M10005379888
MID005057005
MID072784150
NYD0021 26852
MID005356811
M1D005357967
NYD003995198
MSD050648757
MSD098590615
MID006016596
MOD092357821
NM7572124454
NY0002207751
NCD986166098
NYD000809327
NYD000809335
MDD063212377
NCD003938586
MA2570024487
LA61 70022788
NYD991 290800
Volume (tons)
0.01
- 1.116
0.03
0.007
0.005
0.035
0.015
0.002
0.005
0.025
0,002
0.175
0.011
0.005
0.1
0.46
0.188
0.021
0.035
0.134
0.035
0.75
0.015
0.02
0.005
0.061
0.005
0,215
0.3
1.9
0.8
0,254
0.005
0.003
0.013
0.185
0.045
0
0,005
0.037
0.005
2.257
0.03
0.02
0.383
0.03
0.003
0.063
0.06
0.005
0,01
0.229
0.004
0.07
'0.02
0.387
0.05
0.045
0.015
0.05
0.05
0.007
0.713
0.002
0.019
1.1
0,034
0:002
2
0.005
0.15
0.001
3.5
SIC Code
2834
2834
2834
2834
2835
2835
2844
2844
2851
2851
2869
2869
2869
2869
2873
2879
2891
2899
2911
2911
2911
2911
3089
3221
3229
3231
3334
3412
3465
3465
3455
3471
3491
3559
3569
3571
3571
3621
3643
3647
3662
3662
3669
3669
3674
3674
3674
3679
3692
3699
3699
3711
3714
3714
3714
3714
3714
3714
3721
3731
3731
3812
3822
3826
3827
3829
3861
3861
3999
3999
4581
4581
4729
Pom Code
81 17
6117
B117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
61 17
8117
8117
8117
6117
8117
8117
8117
BT17
8117
8117
8117
8117 .
8117
8117
8117
8117
6117
8117
8117
8117
8117
8117
8117
8117
8117
811?
8117
8117
8117
8117
8117
8117
8117
8117
61 17
8117
81 17
8117
81 17
8117
8117
8117
8117
8117
8117
Source Code
A94
A94
A94
A94
ASS
A94
A53
A57
A94
A94
A51
A56
A56 '
A56
AS9
A99
A59
A94
A19
ASS
A99
A99
A94
A56
A94
A57
A99
A56
ASS
ASS
A99
A53
A56
A09
A94
A56
A57
A59
A59
A99
A56
ASS
A53
ASS
A56
A56
ASS
ASS
A57
ASS
A72
A56
ASS
A56
AS6
A56
A94 '
A99
A59
AS4
A94
ASS
A72
A72
A53
A3S
AS?
ASS
A56
ASS
ASS
AS?
A72
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 61
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009 '
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009 .
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
System Type
M141
M019
M019
M019
M019
M141
M141
M019
M012
M141
M132
M011
M011
M011
M011
M012
M012
M012
M012
M019
M137
M137
M137
M137
M137
M137
M137
M137
M137
M137
M141
M141
M141
M141
M141
M012
M141
M141
M141
M012
M049
M141
M141
M141
M049
M141
M112 '
M141
M125
M012
M141
M119
M014
M141
M141
M012
M014
M141
M141
M141
M141
M141
M012
M019
M141
M012
M141
M039
M043
M141
M141
M012
M141
EPA ID
NYD991 290800
NJD980769764
NYD000730382
NYD003909686
N.YD980782486
MAD0551 79634
NJD000768036
NHD018919282
NYD085503746
MDD000619866
MSD980557318
NJD980533483
NJD980533509
NJD980533590
NJD980533657
NJD000574392
NJD000768028
NJD000574418
NJD980533640
NJD000768010
NYD000705939
NYD000706234
NYD003917960
NYD003939592
NYD075431353
NYD1 3581 1503
NYD981 495385
NYD9821 77743
NYD982535601
NYD986872489
NJD094961042
NJD000768226
MDD052340973
MS2570024164
NJT350011144
MND083467688
NHD986472439
NJD067520759
NYD981 138688
NYD060318250
NYD040464315
NYD108156977
MAD076580745
NYD1 52641 270
MD4972611111
NJD986648707
NJD100900489
NYD981 566607
MID980682S27
MIT270010598
LAD980866958
MD4170024687
MIT270010598
NCD000830737
NYD040464315
NYD091894899
NJD078247079
NJD000765081
NJD006980924
NJD01 1328887
NJD986584688
NJ0000074278
MID985617588
MD6170024685
MD61 70024685
NJ1 96001 11 52
MD5123510732
NJD982532202
NJD982532202
MND048160964
MDD981 105265
NYD1 3431 9664
MND000823914
Volume (tons)
0.2
0.002
16.023
0.602
0.553
0.077
0.034
0.025
0.3
0.021
0.229
0.445
1.277
0.853
0.837
0.11
0.025
0.178
0.139
0.359
0.8
2.5
0.1
0.1
1.2
0.8
0.9
0.1
0.8
5.6
0.021
0.009
0.001
0.016
0.035
0.383
0.048
0.035
0.01
0.1
0.018
0.125
0.065
0.003
0.045
0.02
3.119
0.06
0.05
0.24
0.019
0.05
0.313
0.465
0.008
0.2
1.27
0.002
0.06
' 0.03
0.007
0.001
0.006
0
0.011
0.228
0.018
0.01
0.001
0.012
0.035
0.075
0.012
SIC Code
4729
4785
4911
4911
4911
4911
4911
4911
4911
4911
4922
4923
4923
4923
4923
4925
4925
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4952
5122
5171
8011
8062
8062
8062
8062
8062
8062
8069
8071
8099
8211
8211
8221
8221
8221
8221
8221
8221
8221
8221
8731
8731
8731
8731
8731
8731
8731
8731
8733
8733
8733
8733
8733
8733
8733
8734
8734
8741
Form Code
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
Source Code
A72
A59
A56
A56
A56
A56
A57
A59
A94
A94
A56
A99
A99
A99
A99
A56
A56
A56
A56
A56
A56
A56
A56
A56
A56
A56
A56
A56
A56
A56
ASS
A94
A94
ASS
ASS
A51
A58
A58
A72
A94
A94
A94
A94
A53
A94
ASS
A99
A09
AS7
ASS
ASS
A59
A94
A94
A94
A56
A59
A94
A94
A94
A94
A94
A99
ASS
ASS
A59
A71
A94
A94
A94
ASS
A94
A99
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 62
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
0009
D009
DOCS
D009
D009
D009
D009
D009
D009
D009
0009
D009
0009
D009
0009
0009 -
D009
D009
D009
D009
D009
D009
0009
D009
0009
D009
0009
D009
0009
D009
0009
D009
0009
0009
0009
0009
0009
0009
0009
D009
0009
D009
0009
D009
0009
0009
DOCS
0009
D009
0009
0009
D009
0009
DOCS
0009
D009
D009
D009
D009
D009
0009
0009
0009
0009
0009
0009
0009
D009
D009
D009
D009
D009
System Type
M019
M141
M012
M041
M019
M141
M141
M141
M011
M141
M019
M049
M141
M019
M129
M141
M141
M137
M141
M141
M141
M019
M141
M141
M019
M012
M012
M141
M141
M012
M141
M021
M041
M019
M141
M012
M012
M019
M029
MQ1i
M141
M019
M141
M011
M12S
M141
M141
M012
M014
M141
M141
M999
M011
M141
M011
M141
M019
M012
M012
M019
M012
M141
M012
M141
M019
M039
M041
M043
M132
M141
M012
M012
M012
EPA ID
MD417002468?
NJ1680090015
NM8800019434
ND4571 924758
M08571924549
NC61 70022580
NC8210020121
NV7570024110
MO321 3720979
NV5570024112
OK9571 824045
NV1 89001} 991
ME8170022018
NM65721 24422
MID0991 13128
NE8571 924648
MO8571 924549
OK421 3720846
MI0571 924760
NJD000811034
MI0571 924760
TXD006496251
W1D046538666
PAD000766170
TXD073920399
PADQ02334753
TXD05827S130
VAD005007679
PAD01 4360390
PAD002387926
PAD987280229
PRD980767974
WID007947898
PAD000824730
TXD987987914
PAD002348324
LrTD092029768
PAD098439037
PAD000651752
UTD982590622
PAD000000554
PAD000800490
PAD003026655
PAD003022191
PAD004339297
VAD000019364
PA521 3820892
WID0061 12254
VA21 70024606
PAD981 947294
VAD066000993
W1D988573556
PAD002389252
PAD002389252
PAD021 047584
TXD982284382
PAD002327708
PAD043882323
PAD000796334
WID0061 26999
VAD001 307495
VA1 17002481 3
PAD001307792
PA31 700221 04
PAD080719289
TX3571 924643
TX8571 524091
TX8571 524091
TX8571 524091
PAD987393196
PADOQ0620963
PAD086204245
PAD098209703
Volume (tons)
0.036
0.01
0.102
0.002
0.012
0.015
0.073
0.006
0.162
0.045
0.009
0.007
0.02
0.008
0.005
0.013
0.005
0.002
0.001
0.06
0.002
1.31
0.048
0.064
0.09
0.008
0.07
0.017
0.01
0.119
0.018
0
0.475
0.007
0.03
0.12
0.05
0.055
0,475
0.01
0.005
0.966
0.002
0,003
0.035
,0.1
0.023
0.002
0.059
0.005
0.025
0.063
0.017
0.072
0.005
0.03
0.112
0.025
0.003
0.011
0.655
•0.845
0.2
1.605
0
0.01
0.01
0.01
0.01
0.007
0.012
O.OOi
0.012
SIC Code
8744
9511
9661
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
. 9711
9999
9999
9999
9999
2082
2621
2672
2819
2821
2821
2823
2834
2834
2834
2834
2851
2869
2869
2899
2911
3231
3312
3355
3452
3465
3548
3585
3612
3621
3621
3632
3648
3671
3672
3672
3674
3674
3674
3674
3674
3675
3678
3713
3731
3731
3996
4225
4512
4581
4581
4581
4581
4911
4911
4911
4911
Form Code
8117
81 17
B117
B117
B117
61 17
B117
B117
B117
B117
8117
8117
8117
B117
B117
B117
B117
8117
B117
8117
B117
B117
B117
8117
8117
8117
B117
81 17
8117
8117
8117
8117
8117
8117
8117
8117
8117
8117
B117
B117
B117
B117
B117
B117
B117
8117
8117
8117
B117
8117
8117
B117
B117
8117
8117
B117
8117
B117
B117
8117
B117
B117
8117
8117
8117
8117
8117
8117
8117
8117
8117
B117
8117
Source Code
ASS
AS8
A53
A51
ASS
A53
ASS
ASS
ASS
A56
A57
ASS
A59
A94
A94
A94
A99
A53
A53
A57
ASS
A59
A56
A99
A94
ASS
A99
A94
A53
A56
A59
A94
A09
A94
A94
A94
A94
A58
A53
A56
A56
A56
ASS
ASS
A56
ASS
A59
A56
A72 •
AS6
AS9
ASS
ASS
AS6
ASS
A59
A99
A59
A94
ASS
A56
A94
A56
A57
A99
A57
ASS
A59
ASS
A56
A57
A57
A57
Origin Code
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• 1
1
1 .
1
1.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1'
1
1
1
Page 63
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0009
D009
D009
D009
D009
0009
D009
0009
D009
0009
D009
D009
D009
D009
D009
D009
0009
D009
D009
0009
D009 "
D009
D009
0009
0009
D009
D009
D009
0009
0009
D009
0009
0009
0009
0009
0009
0009
0009
0009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
0009
0009
D009
0009
0009
D009
0009
0009
D009
0009
D009
D009
D009
D009
D009
0009
0009
D009 "
0009
System Type
M012
M042
M014
M141
M141
M141
M141
M012
M141
M141
M017
M12S
M132
M141
M019
M129
M141 '
M141
M141
M141
M141
M141
M019
M141
M012
M012
M141
M019
M019
M132
M019
M019
M141
M129
M141
M111
M141
M141
M141
M012
M141
M141
M141.
M141
M141
M141
M141
M141
M024
M121
M012
M019
M141
M019
M039
M132
M141
M012
M019
M141
M019
M014
M012
M019
M141
M014
M141
M012
M012
M141
M141
M141
M141
EPA ID
R1D063890214
RID063890214
7X8800016125
TT957009QOQ2
PAD1 06384993
TXD000821264
TX0571 924042
VAD000820712
PA8890031869
PAD981 743842
RI81 70024790
PAD11 4942832
VA1 170024722
TX2571 724333
UT921 0020922
VA3971 520751
RI1 170024243
UT3213820894
VA61 70061 463
VA6170061463
VA8170024170
VA821 3720321
VA721 3720082
NCD0391 37823
MI0006016547
MED060996204
MED985731272
MOD007161565
NJD002202869
NJD980783849
MID006013643
MOD985819556
NYD00222S100
MDP000007684
NCD0008S6591
NHD000791491
MDD000619395
MDD980554711
MDD980555486
NYD006866008
NYD980648133
NYD980648158 •
NYD980648166
NYD980648182
NYD980648190
NYD980648208
NYD980648216
NYD986889400
MDD980554653
MDD980554653
NYD049224447
NJD079320495
NJD067520163
NYD020672820
NJD070275870
MrT270010598
MED060996451
MND071491708
M1D000809756
NJD991291584
MND000773341
TXD01 0797389
TXD050309012
VAD0031 32438
PA521 3820892
PRD000768283
PRD000768283
PAD987313038
PAD1 60960605
PAD1 60960605
PAD068570936
WID980905954
UT5210090002
Volume (tons)
2.044
0.123
0.19
0.004
0,048
0.03
0.05
0.2
0.528
0.005
0.034
0.038
0.002
0.16
0.059
0.09
0.004
0.037
1.233
0.022
0.178
1.017
0.049
0.001
0.18
0.001
0.006
0.041
0.02
0.05
0.045
0.01
0.03
0.001
0.275
0.005
1
0.075
0.05
110.762
3.438
2.326
0.602
0.817
0,662
. 5.027
5.816
1.35
5.9
0.018
0.022
0,02
0.02
0.003
0.017
5
0.02
, 0.05
0.089
0.01
0.003
0.02
0.03
0.017
0.055
0.015
0.015
4.85
0.9
0.325
0.005
0.002
0
SIC Code
5093
5093
7384
7629
8062
8062
8062
8221
8733
8734
9199
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
2111
2522
2611
2621
2656
2821
2821
2834
2843
3561
4424
4911
4911
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4931
4953
4953
5169
6512
8062
8062
8069
8221
8221
8731
8744
8999
9711'
2869
2869
3577
3824
3841
3841
4924
6519
6519
8221
9512
9711
Form Code
B117
B117
B117
81 17
8117
B117
81 17
B117
B117
B117
81 17
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
B117
8117
8117 ,
8117
8117
8117
B117
B117
B117
B117
B117
B117 •
B117
B117
B117
8117
8117
B117
B117
B117 .
6117
B117
B117
B117
8117
8117
8117
8117
B117
8117
8117
B117
811*7
B117
B117
B117
B117
B117
6117
8117
8117
8117
8117
81 17
B117
8117
B117
8117
81 17 '
Source Code
A08
A08
A59
A59
A94
A94
A94
A94
A99
A94
A56
A53
A53
A56
ASS
A58
A58
ASS
A59
A94 ' .
A94
A94
A94
A59
A56
A53 -
A58
A56
A56
A69
ASS
A69
A59
A59
A53
A56
ASS
ASS
ASS
ASS
A59
A59
A59
A59
AS9
ASS
ASS
ASS
A71
A71
ASS
A69
A53
A72
A93
A53
A94
A94
A58
ASS
ASS
ASS
A56
A56
A53
A94
A94
ASS
A69
A69
A56
ASS
ASS
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
- 2'
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
- 2
2
2
2
2
2
2.
2
2
2
2
2
2
2
2
2
Page 64
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
0009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
0009
D009
0009
D009
D009
D009
D009
0009
D009
0009 .
0009
0009
D009
D009
0009
0009
D009
D009
D009 "
D009
D009
0009
D009
D009
0009
0009
D009
0009
0009
0009
0009
0009
0009
D009
D009
D009
D009
D009
D009
D009
0009
D009
O009
D009
D009
0009
0009
D009
0009
D009
D009
D009
D009
0009
D009
D009
0009
D009
D009
D009
System Type
M089
M077
M041
M041
M077
M141 -
M041
M141
M014
M111
M141
M111
M041
M141
M012
M141.
M039
M125
M132
M141.
M041
M099
M041
M041
M043
M041
M999
M079
M141
M141
M999
M141
M999
M141
M111
M079
M141
M999
M999
M999
M999
M999
M132
M041
M012
M129
M141
M041
M049
M041
M141
M141
M141
M141
M061
M041
MOS9
M042
M141
M111
M141
M141
M041
M041
M111
M051
M014
M141
M119
M141
M049
M141
M061
EPA ID
MDD982678179
NYD0021 23461
MOD0071 34091
MODQQ71 34091
MiO005380126
MAD000844126
OKD080578982
MAD0621 72929 '
ORD060591963
MSD0506487S7
MADOQ0844118
MID985568021
NYD002207751
NY0214020281
NJ0170022172
MS7570024060
NJ71 70023744
NM9S70024423
NM9570024423
MED985467935
PAD002390961
PAD01 4360390
PAD002387926
TXD008018525
TXD008018525
PAD003008943
WAD9808356BQ
WID006092555
WID030202956
WID981101165
WAD004492575
PAD06977729Q
WA5170027291
VA6170061463
UT9210020922
MAD043409879
NYD000631994
WAD988511903
WAD980639686
WAD048440424
WAD988467650
WA2690308919
VA4570024477
MAD030826143
MOD006266803
LA021 4022725
NJD986634442
LAD003913449
NJD0021 95303
NYD002084135
NCD000648402
MAD001 863943
MAD0008464S1
PAD0023S5325
TXD061 555611
VADQ00820712
NHD980521843
NJD980775944
MAD982543S10
MID076380658
TXD049046S27
RL1 170024243
MID050615996
NYD980537112
OR1 570024264
MT8571 924556
PRD090070459
UT3213820894
MID067352989
NCD097607352
ND3571924759
VA61 70061 463
PAD002320737
Volume (tons)
0,057
30
0.229
2,106
1.655
1.2
0,44
0.005
0.05
0.23
0.37
0.704
0.301
1.401
0.805
0.002
0,07
0.669
6.307
0.083
12.55
93.88
37.66
4.88
0.04
6.208
0:007
0.229
0.44
0.294
0.32
0.005
0.002
10,25
2.317
0.363
0.707
114.13
0.005
0
0.02
0
0,197
5.65
0.855
0.066
0.156
0.2
0.005
0.196
2.6
0.417
0.021
0.2
0.77
0.225
0.05
0.6
0.229
0.688
29.83
0.006
0.021
0.112
0.019
0.006
0.04
0.066
8.854
1.8
0.003
0.006
1.909
SIC Code
8211
2819
2834
2834
2834
2835
3499
3648
3674
3731
3845
4789
8734
9711
9711
9711
9711
9711
9711
9999
2819
2834
2834
2834
2834
2834
3339
3714
5171
8221
8731
8731
9711
9711
9711
3861
8221
1041
1611
3679
4911
9199
9199
2834
8733
9711
4924
2863
3399
3511
3692
3812
3861
3671
3674
8221
4953
2834
2835
8734
8062
9711
3711
3861
9711
9711
3629
9711
2821
3842
4522
971 1
2992
Form Code
B118
B119
B119
8119
8119
B119
B119
6119
B119
8119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
8119
B119
8119
8119
8119
B119
B119
B119
8119
8119
81 19
B119
B119
B119
8119
B119
B119
8119
8119
B119
B119
B203
8204
8204
8205
8206
8206
B206
B206
B206
B206
B206
B206
8206
8206
8207
8207
8207 .
8207
8207
8209
8209
8209
8209
B209
8209
8210
8210
8210
B210
B211
Source Code
A94
A99
AQ9
A57
A57
A57
A02
A99
A99
A94
A04
A99
A58
A21
A49
A51
A53
A53
A53
A94
A72
A19
A49
A57
A57
A58
A59
A79
A59
A94
A09
A58
A69
A64
A53
A31
A94
A99
A99
A54
A57
A56
A54
A99
A94
A54
A54
A94
A94
A59
AS7
AS?
A94
A94
A58
ASS
A21
ASS
A57
ASS
A58
A57
ASS
A58
ASS
Origin Code
1
i
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
1
1
1
2
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1.
1
1
1
1
1
1
1
Page 65
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
0009
0009
0009
D009
0009
D009
0009
D009
0009
0009
0009
0009
D009
0009
D009
D009
0009
0009
0009
0009
0009
0009
D009
D009
D009
D009
D009
0009
D009
0009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
0009
D009
0009
D009
D009
D009
,D009
System Type
M141
M041
M141
M129
M041
M141
M041 .
M011
M141
M141
M011
M041
M043
M141
M141
M999
M041
M141
M132
M132
M132
M132
M132
M132
M129
M132
M141
M019
M141
M141
M141
M141
M111
M141
M141
M129
M132
M132
M132
M132
M111
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
Ml 32
M132
M132
M132
M132
M132
M132
M132
M132
M132
EPA ID
R1D001 463090
NJD002361947
NJD002361947
NJD000543173
NYDOS0275627
MDD982579518
NJD980775944
NYD0021 23933
NCD089906614
NV91 700221 73
M0321 3720979
PAD002387926
PAD004316832 -
PAD0023163Q5
NCD048469993
WA8570024200
NYD002207751
TX3571924643
NJD986581S41
NJD986581866
NJD9865S1999
NJD986582021
NJD986582096
NJD079324315
VAD077797793
NYD980646582
NYD055865125
NYD981 078330
NYO9807884S3
NYD980788665
NJ1680090015
NC1 170027261
WVD08891 1854
VA11 7002481 3
VA5170022482
NJD002202869
NJD001605559
MED001 097203
MAD066609520
NMT360010227
OKP410138353
LAD981911605
IAD9851 90685
LA09851 99843
LAD985203181
LAD985225606
LAP230069798
LAP230069809
LAP230069811
LAP230069923
UP2300706S8
LAP230070667
L*P230070675
LAP230070823
LAP230070835
LAP230070847
LAT23Q069886
M1D9856S7956
M1D985657972
MID98S6S8012
MID985658020
M1D985658038
MID98S658046
MID985658053
MID985658061
MID98S658079
MID9856581S2
MID985658160
M10985658178
M1D985658194
M10985658202
MID985SS8228
M1D985658236
Volume (tons)
0.104
' 34.27
0.345
0.03
0,44
7
1.8
0.075
0.007
0.001
0.021
1 1 .81 1
2
0.573
0,075
0.018
0.002
0.83
0.822
0.822
10.788
5.438
2.718
108
0.35
12.985
0425
0.626
0.3
0.201
0.005
0.01
0.419
0.009
0.05
0.242
1,613.64
2.546
8.51
10.33
15.4
3.496
29.665
1.998
0.06
4.994
2.59
1.79
6.46
1.56
3
11
3
7
3
10
3.995
1.6
1.6
2
2.8
2.4
3.6
2.4
2
2.8
2.4
2.4
2
1.6
2
4.8
2.8
SIC Code
3812
2834
2834
2834
2835
2835
2844
2869
2899
9711
9711
2834
3449
3769
2843
4581
3827
4789
4922
4922
4922
4922
4922
8221
4924
4922
3262
4911
4911
4911
9511
9711
2821
3731
9711
2821
2869
3356
3641
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
Form Code
B212
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
8219
8219
8219
B219
S219
B296
B301
B301
B301
8301
B301
8301
8301
8301
8302
8302
8302
8302
8302
B302
B302
B302
8302
B302
8302
8302 '
B302
8302,
8302
B302
8302
8302
8302 '
8302
8302
B302
B302
B302
B302
8302
8302
8302
8302
8302
8302
8302
8302
8302
B302
B302
8302
8302
B302
8302
8302
8302
8302
8302
8302
8302
Source Code
A57
AS7
A57
ASS
A94
A94
A57
A99
A58
ASS
A58
A49
ASS
A99
ASS
A99
A59
A69
A69
A69
A69 •
A69
A65
ASS
A69
A92
ASS
ASS
ASS
A94
ASS
A53
A53
ASS
AS9
A69
A69
A69
ASS
A69
AS9
A69
A69
A69
A69
ASS
A69
A69
A69
A69
A69
A69
A69
A69
A69
ASS
ASS
ASS
A69
A69
A6S
A69
A69
ASS
A69
A69
A69
ASS
ASS
A69
A69
A69
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
3
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
2
2
2
2
2
- 2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
Page 66
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
0009
D009
D009,
D009
D009
D009
D009
D009
D009
DQ09
0309
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
DQ09
D009
D009
D009
D009
D009
oooa
D009
D009
D009
D009
D009
D009
D009
D009
D009
DOCS
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
O009
D009
D009
D009
D009
D009
D009
D009
D009
O009
D009
D009
D009
0009
D009
DOCS
D009
System Type
M132
M132
M132
M132
M132
M132
M132
M132
M132
M132
M141
M141
M111
M119
M019
M019
M141
M141
M141
M141
M141
M119
M013
M019 -
M141
M141
M111
M019
M019
M012
M141
M132
M019
M012
M141
M111
M132
M141
M132
M141
M141
M141
MQ19
M132
M043
M012
M141 •
M141
M141
M043
M043-
M141
M011
M141
MDK
M141
M043
M141
M132
M141
M141
M141
M141
M039
M132
M141
M012
M012
M043
M132
M132
M141
M141
EPA ID
MOD1 15895385
MOD985819804
MOD985819846
MOD985819911
MOD985820083
MOD985820133
MSD985967330
NMD986682862
OKP41 01 38225
OKP41 01 38237
MAD980731095
MAT1 73292750
NCTOOOOQ2291
MDP000007884
NM65721 24422
NY7890008975
VAD980714281
PAD000805028
PAD987279049
MS6210809871
NJD980773113
MID005363114
NY721 3820940
NJD00234S247
NCD980845044
NYD075796037
NYD002026565
MI5570024278
NJD002342434
NJD981076011
NCD108706029
MAD01 91 46802
NJD981 083025
NVD981 963549
NYD001 307735
TXD056263S28
TXDOS6263528
VAD005007679
NVD000626531
NCD0954S9392
VA61 70061463
VA6170061463
NJD059014589
WID006430623
ORD041 265372
VTD002065597
VtD002065597
NYD002226900
MND000686071
MND079731519
NYD980653877
NYD980653877
NCD982094278
MD3170024720
NJD054060884
MND0061 72902
MS2570024164
MS2570024164
NH8572824847
NJD0021 40358
NJD002342434
NYD000809327
NYD980784680
NVD986776607
NVD986776607
NVD986776607
NJD981076011
NJD981487259
MI5570024278
U61 70022788
MOD000687392
NCD000856591
MDD980832067
Volume (tons)
3.6
1,6
3.2
2.4
3.2
3.992
3.451
2,615.83
5
2
0.3
4.989
17.04
1.25
0.007
240,625
0.012
0.3
o:os
0.003
0.162
0.25
0.002
2.1
0,05
0.2
0.3
0.002
0.008
5.9
0.275
0.408
30
0.007
0.08
15.13
38.59
0,2
3.63
0.005
0.3
0.026
0.752
0.5
0.052
1.361
0.435
0.251
1.3
1.215
0.002
0.031
0.207
0.002
0.008
1.324
0,025
0.053
0.175
0.055
0.057
0.895
0.122
1
1
1
0.2
11.4
0.448
0.449
0.006
0.035
0.045
SIC Code
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4922
4923
9511
9711
9999
2211
3312
4922
9199
2834
2869
3489
3497
3674
3679
3711
3728
3812
4111
4911
4922
4925
8221
8731
2812
2812
2823
1041
2892
9711
9711
8731
2821
3861
3692
3692
2066
2911
3571
3571
3571
3571
3679
3692
3695
3699
3699
3728
3728
3812
3861
3861
4011
4011
4011
4111
4111
4581
4581
4911
4911
4931
Form Code
8302
8302
B302
B302
8302
B302
8302
B302
8302
B302
B302
B302
B302
8302
B302
B302
B302
8302
B302
B302
B307
8307
6307
B307
B307
8307
B307
B307
8307
8307
B307
8307
8307
8307
B307
8307
B307
B307
8307
8307
B307
B307
8307
8307
8308
B308
8308
8309
B309
B309
B309
B309
B309
8309
8309
8309
B309
8309
8309
8309
B309
B309
8309
8309
B309
8309
8309
8309
8309
8309
8309
8309
8309
Source Code
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
A69
ASS
A69
ASS
A69
ASS
A53
A53
A94
A56 •
A58 .
A94
A56
A56
ASS
A56
A01
A59
ASS
A59
A56
A08
A94
A94
ASS
ASS
ASS
ASS
A53
A53
A56
A99
A82
A29
A49
A49
A55
ASS
ASS
ASS
ASS
A57
ASS
A57
ASS
ASS
ASS
ASS .
ASS
ASS
ASS
ASS
ASS
ASS'
ASS
ASS
ASS
ASS
ASS,
ASS
A55
ASS
Origin Code
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
3
3
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 67
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
CX309
D009
D009
D009
D009
D009
D009
D009
D009
0009
0009
D009
D009
D009
D009
D009
0009
0009
0009
D009
0009
D009
DOOS
0009
D009
0009
D009
0009
D009
0009
0009
DOOS
D009
0009
0009
D009
0009
D009
D009
D009
DOOS
D009
0009
D009
DOOS
DOOS
0009
0009
D009
D009
DOOS
D009
DOOS
D009
System Type
M141
M012
M132
M132
M141
M012
M043
M129
M141
M141
M141
M125
M012
M012
M012
M013
M014
M019
M019
M019
M043
M061
M061
M129
M129
M129
M132
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M141
M132
M132
M141
M043
M132
M141
M141
M141
M141
M132
M021
M012
M141
M012
M012
M012
M141
M132
M141
M132
M141
M043
M129
M011
M061
M132
M012
M043
M119
M129
M129
M129
EPA ID
NJD986629004
M1D981 798820
MND083467688
MNO071 363246
NHD986472439
NJ1960011152
MS2170022626
NY021 3820830
NHD986469609
OK4S71 584095
NCD981856396
MA869033Q719
MA72t002S154
M0321 3720979
OR1 570024264
NM65721 24422
ME9570024522 ,
MO8571 924549
NV3890090001
NY4571 924451
OK9571 824045
M08571 924549
ORD980987548
LA021 4022725
NY021 4020281
NY4571 924774
MSD981749401
MAD981071707
ME71 7002201 9
MO8571 924549
NC1 170027261
NC6570024475
NC821 0020121
NE8571 924648
NM65721 24422
NV7570024110
NV91 700221 73
NYD981 557770
NY4571 924451
NY4571 924774
NV9170022173
NJ0170022172
NV1210090006
NC8170022570
OK421 3720846
M10571924760
MI0571924760
MI0571 924760
VAD081 762536
PAD058445313
PAD021 047584
VTDQ02065597
VTD002065597
VTD002065597
VTD002065597
WIT560010282
VTD002065597
WID006427215
TX0571 924042
VAD98818611Q
PAD003025418
PAD987267473
TX3571 924643
TX3571 924643
VA91 70022488
1X2571524105
TX2571524105.
VA1 170024722
PA2571 225349
UT321 3820894
PR21 70027203
RI61 70022036
SO2571 924644
Volume (tons)
0.037
0.043
5.525
2.337
0.927
0.037
0.031
0.003
0.009
0.042
0.014
0.075
0.069
0.004
0.077
0.1 55
0.089
0.012
0.906
0.05
0.261
0.015
0.014
0.105
0.111
0.017
0.046
0.262
0.082
0.026
0.19
0.168
0.473
0.14
0.03
0.715
0.001
0.2
0.009
0.025
0.009
0.031
16.787
1.302
0.023
0.039
0.049
0.002
0.02
0.2
0.1
8.835
2.337
1.2
4.261
0,724
1.752
0
0.01
0.164
0.3
"0.045
0.14
0.23
0.003
0.01
0.12
0.144
0.177
0.013
0.045
0.028
0.25
SIC Code
. 4939
7538
8011
8062
8062
8733
9199
9199
9199
9199
9229
9621
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
,9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9711
9999
9999
9999
9999
2111
3671
3674
3692
3692
3692
3692
3692
3692
3694
3721
3731
3795
3841
4581
4581
4812
97t1
9711
9711
9711
9711
971 1
9711
9711
Form Code
8309
B309
8309
B309
8309
B309
B309
B309
B309
B309
8309
6309
B309
B309
B309
B309
8309
B309
8309
B309
B309
B309
B309
B309
8309
B309
8309
B309
B309
B309
B309
8309
B309
B309
B309
8309
B309
8309
8309
8309
B309
B309
B309
B309
B309
B309
8309
B309
8309
8309
8309
8309
8309
8309
8309
B309
B309
8309
8309
8309
8309
B309
8309
8309
B309
8309
8309
B309
8309
B309
8309
B309
8309
Source Code
ASS
A55
ASS
ASS
ASS
A55
A55
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A55
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A57
A58
ASS
AS8
ASS
ASS
ASS
AS8
ASS
A56
A58
A09
A49
A49
A57
A57
A92
ASS
ASS
ASS
ASS
A99
ASS
ASS
A58
ASS
A53
ASS
ASS
ASS
ASS
ASS
ASS
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
' 1
1
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 68
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Coda
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D00»
D009
D009
D009
D009
D009
D009
D009
0009
D009
0009
D009
D009
0009
0009
0009
D009
0009
0009
D009
0009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
DOCS
D009
0009
D009
0009
0009
O009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
System Type
M141
M141
M141
M141
M141
M141
M049
M999
M141
M141
M141
M141 .
M132
M141
M012
M141
M011
M043
M111
M141
M132
M129
M141
M019
M132
M132
M141
M141
M129
M141
M141
M012
M141
M141
M041
M141
M141
M019
M111
M111
M141
M019
M141
M125'
M043
M141
M111
M141
M049
M141
M141
M129
M043
M012
M043
M014
M141
M041
M01i
M011
M141
M141
M132
M129
M141
M141
M014
M141
M019
M141
M10i
M019
M039
EPA ID
TX2571724333
UT321 3820894
VA5170022482
VA6170061463
VA8170024170
VT6572824294
WI321 0020563
WI321 0020563
NYD980526875
MAD000844597
NJD980755367
NCD000648402
NYD073675514
NYD980784S80
NJD981 134836
PAD987367216
VAD009305137
PAD990823858
WVD082957317
PAD058445313
TX8571 524091
SD2571 924644
R! 11 70024243
MOD043935048
NJD982532434
WVD004336343
MS6210809871
PA3170022104
VA3971 520751
MS621 0809871
NJD001787944
MIT270013709
NJDQ96877725
NJD047354881
NJD068715424
NJD068715424
NJD068693167
MID980896518
NYD0021 23495
MAD001 439546
NMD000609339
NYD002100295
NYD000809327
ORD980981278
MS2570024164
MS2570024164
MIT270010598
MD921 0020567
MD921 0020567
MD921 0020567
NC2750890004
NJ4690308933
NM8800019434
NM0890010515
NM0890010515
ORD081182180
PAD014360390
TXO980625966
WD006121347
PAD021 047584
VAD003123072
TXD988024204
RID001191055
VA3971 520751
VA821 3720321
VA6170061463
MAD981214976
MAD981214976
NJD982532434
W1D980905954
NJ2571824018
MN0006449649
NJD053299814
Volume (tons)
0.99
0.076
0.125
0.864
1.394
0.02
0.031
0.05
0.44
0.031
1.2
2.974
11.53
0.02
3
4.922
0.1
0.071
1.9
0.075
0.01
0.032
0.015
0.009
0.2
16.3
0
0.001
0.081
0
0.005
0.025
0.15
0.07
9.142
3.45
0.325
0.129
0.025
0.2
0.109
0.02
0.05
0.006
0.002
0.002
0.347
0.056
0.001
0.125
0.05
0.001
0,101
0.05
6.308
0.115
0.067
0.23
0.427
0.002
0.037
1.44
1.25
2.322
0
0
0.005
0.005
0.028
0
0.796
0.194
0.08
SIC Code
9711
9711
9711
9711
9711
9711
9999
9999
2813
2899
3341
3692
3714
3861
4111
2819
2824
3471
3641
3671
4581
9711
9711
4581
9999
2812
9199
4225
9711
9199
2821
2834
2834
2834
2835
2835
2841
2851
2869
3511
3674
3827
3861
5169
8011
8011
8221
9199
9199
9199
9199
9621
9661
9711
9711
9999
2834
2869
3639
3674
3674
3823
3961
9711
9711
9711
3851
3851
9999
9512
NA
1011
2037
Form Code
B309
B309
B309
B309
B309
8309
8309
B309
B310
8310
B310
831 0
B310 -
B310
8310
831 0
8310
8310
8310
8310
8310
B310
8310
B310
8311
B314
8314
8315
8315
8315
8316
B316
B316
B316
B316
B316
8316
8316
8316
8316
B316
B316
8316
8316
B316
831 6
B316
B316
B316
8316
8316
B316
8316
8316
8316
8316
831 6
6316
8316
B316
B316
8316
B316
B316
8316
8316
8316
B316
8316*
8316
831 9
8319
8319
Source Code
ASS
A55
ASS
ASS
ASS
ASS
A89
A89
A32
A94
A78
A71
A57
ASS
A92
A94
ASS
A23
A19
A92
A53
ASS
A94
A53
A69
A92
A94
ASS
ASS
A94
A99 .
A94
A94
A99
A57
A57
A57
A94
A53
A99
A59
A58
A58
A58
ASS
ASS
A94
A57
ASS
ASS
A94
ASS
A56
A94
A94
A59
AS3
A99
A56
A58
A59
A49
A99
ASS
ASS
A94
A90
A90
A69
A59
A99
A59
A99
Origin Code
1
1
1
' 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
3
1
1
3
1
1
1
1
1
1
'1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
1
1
1
Page 69
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
-D009
D009
D009
D009
0009
D009
D009
D009
0009
O009
0009
D009
1X09
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009 .
D009
0009
D009
D009
D009
0009
D009
D009
0009
0009
0009
0009
0009
0009
D009
0009
D009
0009
D009
D009
D009
D009
D009
D009
D009
0009
0009
0009
D009
0009
D009
0009
0009
0009
D009
0009
.0009
D009
D009
D009
0009
D009
0009
0009
D009
D009
D009
0009
System Type
M141
M141
M132
M014 .
M014
M043
M132
M019
M141
M141
M039
M019
M014
M014
M141
M132
M111
M132
M141
M012
M012
M043
M119
M019
MDK
M141
M019
M012
M012
M011
M141
M141
M141
M141
M141
M141
M141
M014
M019
M141
M141
M141
M019
M011
M141
M012
M132
M132
M012
M141
M019
M019
M019
M132
M141
M012
M018
M141
M019
Mill
M039 .
M132
M012
M014
M014
M019
M019
M012
M019
M132
M141
Mill
M141
EPA ID
NYD000688606
NJD002455418
NCD0031 50562
MND980995815
MND0061 67332
NHD001 079896
MED001095629
MND0061 58943
MND0061 72902
NJD002520484
NYD012854048
MND981 089790
MND006228183
MND0062S8115
MND985877210
UD062666540
NYD000824482
LAD008086506
MDD001710227
NJD062026281
NJD986647782
LAD0591 30831
LAD008182990
NCD041 043811
NJD064344575
NJD0021 73276
NYDQ54065909,
MIT270013709
MID000820381
NYD982176281
NYD085503894
NYD085503894
NJD068715424
NCD067181818
NJD068693167
NJD068693167
NJD068693167
MAD053483467
MND023060569
NJD000729798
NYD001 483494
NJD000729798
LAD01 0390599
LAD053783445
MAD001409150
LAD056024391
IAD056024391
MSD0541 79403
MTD010380574
MOD089945950
MID006016422
M1D005379607
MND041 775008
NYD048148175
NYD086225596
UD058959123
NJD0021 52205
NHD041 463456
MID000810390
MID005356621
MND985692490
M0421 3820489
MND0811 38604
MAD985294263
MAD985294347
MND000819268
MN3170022914
NYD002084135
NYD002084135
NYD002084135
NYD002084135
MEDQ01104157
NYD002 123644
Volume (tons)
0.123
1.007
1.06
0.124
1.525
0.017
0.75
1.702
0,2
0.025
1.456
3.432
0.047
0.5
0.137
71.9
1.8
149.6
0.2
0.24
0.38
0.297
0,57
2
0.01
0.938
4.655
7.166
2.036
4.84
1.08
0.57
0.89
0.575
0.2
0.12
0.3
2.72
1.16
0.75
0.85
0,015
0.015
0.1
0.005
0.1
0.19
0.16
0.034
0.174
0.01
0.318
0.245
41.04
0,06
0.144
0.25
0.25
0.63
1.3
0.123
0.456
0.045
1.314
1.14
1.881
2.972
0.282
9.113
6.265
3.613
0.151
0.302
SIC Code
2082
2082
2296
' 2431
2431
2611
2621
2621
2672
2672
2673
2731
2752
2752
2752
2812
2812
2812
2819
2821
2821
2822
2822
2824
2833
2833
2834
2834
2834
2834
2835
2835
2835
2836
2841
2841
2841
2844
2844
2844
2844
2849
2861
2879
2899
2911
2911
2911
2911
3083
3221
3241
3312
3341
3341
3354
3357
3357
3451
3471
3479
3482
3483
3489
3489
3489
3489
3511
3511
3511
3511
3531
3563
Form Code
B313
B319
B319
B319
8319
B319
B319
B319
B319
8319
831 9
8319
B319
B319
8319
8319
B319
8319
B319
831 9
831 9
8319
B319
B319
8319
8319
8319
B319
8319
B319
B319
8319
B319
8319
B319
B319
B319
8319
8319
8319 ~
8319
B319
8319
B319
B319
B319
8319
8319
8319
8319
8319
8319
8319
8319
831 9
8319
8319
8319
8319
8319
8319
8319
8319
8319
831 9
8319
8319
8319
B319
8319
8319
8319
B319
Source Code
A56
A99
A59
A59
A99
A53
A59
A99
A59
A99
A59
A99
A56
A59
A99
A49
A92
A99
A94
A59
A99
A99
A99
A59
ASS
A92
A56
AS9
A94
A99
A57
A58
A99
A92
A69'
A89
A92
A99
A99
A99 -
A99
A91
A94 • •
A94
A94
A53
A53 .
A56
A94
A59
A58
A56
A99
A89
A99
ASS
ASS
A59
A99
A59
A92
A49
A59
A59
A59
A99
A99
A59
A59
A59
A59
A57
ASS
Origin Code
1
1
1
1
1
1
1
. 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 70
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009 '
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
0009
0009
0009
0009
0009
D009
D009
D009
D009
D009
D009
D009
D009
0009
0009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
0009
D009
O009
System Type
M141
M012
M141
M012
M011
MQ12
M011
M011
M019
M141
M039
M019
M132
M132
M141
M111
M141
M111
M141
M012
M141
M141
M141
M141
M019
M019
M019
M019
M141
M132
M141
M132
M133
M012
M141
M141
M019
M012
M012
M019
M043
M141
MQ12
M141
M141
M132
M019
M111
M111
M132
M141
M125
M132
M111
M141 .
M141
M132
M141
M141
M132
M141
M012
M012
M141
M019
M141
M132
M141
M141
M141
M141
M141
M141
EPA ID
NHD001085158
MND000823922
NYD084006741
NYDQ01 359694
MND006161756
MND006161756
NYD084006741
NYD980653877
MND079731519
NCD04 1463761
MAD980672042
MND053417515
MOD006270318
NCD057037194
MAD080031180
NYD002209989
NJD049860687
NYD002209989
NJD001 643840
NJD002342517
NJD986598316
MAD001 923408
MAD076590652
NHD046312559
MND000819292
MNDQ41 786930
MND058330473
MND985667807
ORD980725592
MAO000649640
NJD9811 37292
OR09871 66204
NHD045513785
MAD001 055235
MAD001 055235
NYD002235182
MND982424202
NYD001 359694
NYD080480734
MND0061 47268
ORD009020231
MAD001339159
NYD080480734
MED086878980
NYD9807a9218
MND980996391
MND006207773
MID980795488
MID985572890
MID005356712
NCD980841753
MID005358783
MID061 874723
NHD001 427475
MAD001408517
NHD001 427475
NMD052684578
MA0000639054
MAD097437982
MSD050648757
MED041460247
NHD064441132
NJD002342434
NJD002342434
MAD001 028646
MAD086534864
NYD0008Q9335
NYD000809327
NYD000809335
NYD980537112
NYD980646152
NYD980784680
NYD980790083
Volume (tons)
0.175
2.196
5.03
4.275
0.103
8.872
0.314
0.05
9.591
3.557
3.91
1.226
1.525
0.055
4.3
14.923
0,75
1.952
1.14
0.025
0.15
0.1
0.1
0.229
0,006
0.012
0.037
0.007
0.095
0.225
0.04
0.162
0.051
0.19
1.862
0.007
0.147
0.05
0.288
0.624
0.176
0.709
2.396
0.11
1.442
0.8
4.325
0.44
2.96
2.6
0.075
0
1.25
0.5
1.078
0.647
"0.872
2.5
1.751
0.5
0.05
0.152
1.8
2.494
0.145
0,425
0.75
36.475
1.685
1,317
0.395
23.061
6.205
SIC Code
3569
3571
3571
3571
3571
3571
3571
3571
3571
3571
3572
3621
3621
3625
3641
3641
3641
3641
3663
3669
3669
3669
3672
3672
3672
3672
3672
3672
3672
3674
3674
3674
3674
3679
3679
3679
3679
3679
3679
3679
3679
3679
3679
3694
3695
3699
3711
3711
3711
3711
3713
3714
3714
3724
3724
3724
3724
3728
3728
3731
3731
3812
3812
3812
3841
3841
3861
3861
3861
3861
3861
3861
3861
Form Code
8319
8319
B319
B319
B319
8319
B319
B319
B319
B319
B319
8319
8319
8319
B319
B319
8319
B319
8319
B319
8319
B319
8319
B319
8319
B319
8319
8319
8319
8319
8319
8319
6319
B319
B319
8319
B319
B319
B319
8319
8319
B319
8319
B319
B319
8319
8319
B319
B319
831 9
B319
B319
8319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
Source Code
A58
A57
A57
ASS
A59
A59
A94
A94
A99
A99
A59
A92
A99
A92
A09
A57
A57
A92
A99
A58
A58
A99
A29
A29
A99
A99
A99
A99
A99
A56
A56
A99
A99
A49
A49
A56
A57
A58
ASS
A59
A59
A94
A99
A99
A57
A99
A99
A99
A99
A99
A99
A99
A99
A59
A59
A59
A99
A92
A92
A59
A99
ASS
A99
A99
A99
A99
A57
A57
A57
A57
A57
A57
A57
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1 •
Page 71
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009-
D009
D009
D009
D009
0009
D009
D009
D009
DOQ9
D009
D009
0009
0009
0009
0009
0009
D009
D009
D009
D009
D009
D009
DC!09
D009
D009
D009
D009
D009
0009
D009
D009
0009
D009
0009
D009
D009
D009
D009
D009
0009
0009
0009
D009
D009
D009
D009
0009
D009
System Type
M012
Ml 41
Ml 41
M141
M014
M019
M132
M141
M141 ,
M141
M141
M111
M032
M141
M141
M012
M019
M021
M141
M019
M019
M141
M111.
M119
M141
M043
M043
M043
M043
M043
M049
M132
M132
M012
M132
M141
M141
M141
M014
M111
M141
M019
M132
M141
M019
M141
M141 •
M141
M111
M141
M019
M125
M141
M129
M043 .
M141
M141
M141
M043
M141
M141
M129
M141
M141
M125
M039
M141
M019 '
M141
M039
M019
M132
M132
EPA ID
MADO0 1402320
NYD000809335
NYD980646152
NYD980790083
MAD058060476
MAD001 402320
NYD980592497
MAD000846469
MAD000846493
MAD043410133
MAD062163191
NYD002229128
MDD022688329
MDD022688329
NJD986645927
MND981 190242
MND003835501
LA61 70022788
NYD986870319
MED0432S0109
MED981 069644
MAD0551 79634
MIDOOQ72154S
MID0870S6685
MID000722157
MDD000731570
MDD000731596
MDD053936464
MDD120291109
MDD981115132
MDD981 732654 .
MOO000687392
NYD000829564
MSD980728067
NYD000767731
NJD07707081 1
NY0000706259
NJD000730424
MND985667674
MAD076S75513
NYD980S37187
NM48901 39088
NM48901 39088
MAD007325814
NYD981 875461
MAD991 289505
NJD060803467
NYD986900371
MIT270010598
MAD0651 60756
MAD001 425594
MND980792642
NY6890008992
NYD067919183
NYD091 894899
NJ0048804488
NY6890008992
MAD001 424985
NJ1960011152
MDS170024685
NYD981 182249
MD5170024686
MND000823914
MED0421 40483
MND980826457
NC2690308232
MD9800013865
MT8571 924556
NM6572124422
MA721 00251 54
NM6572124422
NV1210090006
MO9890010524
Volume (tons)
•0.495
0.024
0.095
0.013
0.705
1.112
43.175
9.922
0.229
1.335
4.457
0.125
0.271
0.271
0.75
0.017
1.25
1.694
25.007
0.115
0.009
0.07
0.4
1.252
0.016
0.381
0.12
0.492
0.042
0.178
0.169
1.992
0.6S
0,425
0.235
0.01
0.1
0.375
0.046
0.3
0.34
. 0.228
0.457
0.113
3.5
0.497
O.OOS
0.021
0.132
0.005
34.891
4.329
0.003
0.125
0.7
1.112
0.634
0.2
0.672
0.392
0.05
1.409
1.34
0.425
1.266
0.6
0.037
0.053
0.029
0.065
0.306
2.226
0.26
SIC Code
3861
3861
3861
3861
3861
3861
3861
3861
3861
3861
3861
3914
3993
3993
4226
4226
4512
4581
4813
4911
4911
4911
4911
4911
4911
' 491 1
4911
4911
4911
4911
4911
4911
4922
4922
4922
4931
4931
4931
' 4931
4931
4931
4953
4953
5093
7384
8069
8211
8211
8221
8221
8221
8221
8731
8731
8731
8731
8731
8733
8733
8733
8734
8734
8741
8999
9223
9621
9661
9711
9711
9711
9711
9711
9711
Form Code
B319
831 9
B319
B319
8319
8319
8319
B319
B319
B319
B319
8319
B319
B319
B319
B319
8319
B319
8319
8319
8319
B319
B319
8319
B319
8319
8319
8319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
8319
8319
8319'
831 9
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
8319
8319
8319
B319
8319
8319
B319
B319
Source Code
A59
A59
A59
A59
A99
A99 .
A99
A99
A99
A99
A99
ASS
A99
A99
A92
A99
A56
A57
ASS
A56
A56
A56
A57
A92
A92
A99
A99
A99
A99
A99
A99
A99
A56
A59
A59
A53
A59
A92
A99
A99
A99
ASS
A58
A59
A92
A99
A94
A94
ASS
A92 ~
A99
A99
A53
A94
A99
A99
A99
A59
A99
A99
A94
A99
A57
A64
A99
AS9
A94
A53
A53
AS7
ASS
A58
A59
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
,1
1
1
1
. 1
1
1
1
.1'
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
• ' • 1
1
1
1
1
Page 72
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
System Type
M019
M111
M141
M141
M141
M011
M011
M141
M141
M141 .
M132
M012
M043
M132
M132
M014
M141
M041
M043
M141
M019
M012
M043
M012
M132
M012
M132
M132
M132
M039
M132
M141
M141
M119
M111
M019
M019
M012
M141
M141
M019
M141
M141
M012
M141
M141
M141
M141
M119
M132
M019
M111
M132
M141
M012
M132
M132
M141
M012
M012
M141
M111
M141
M141
M141
M012
M141
M141
M141
M039
M043
M043
M141
EPA ID
MND000773341
NM65721 24422
ME71 7002201 9
NM65721 24422
MA8570024424
VAD000819466
VAD01 00671 71
VAD01 00671 71
TXD087716122
WID043477900
WID046536231
TXD008123168
TXD008123168
TXD008123168
PAD041 399403
WVD004341491
VAD023690183
VAD188141626
VAD0031 10087
PAD003008943
VAD982578619
PAD982362832
TX621 3820529
PRD991291972
TXD000782698
PAD004335162
WID006101695
PAD004320248
VAD046960449
PAD004316832
PAD004316832
TXD000792952
VTD002083434
PAD069779627
WID006073183
WID0061 14078
PAD980829287
WID006097109
PAD002395325
VAD066000993
PRD987374527
TXD049038201
PAD000765800
PAD002389252
PAD002389252
TXD096397211
TXD007321904
TXD980870356
VAD098444474
VAD098444474
TXD000014217
TXD1 60825428
PAD002279149
VTD002065597
TXD008018004
TXD008018004
PAD002360485
VAD054040456
TX7572024605
PAD987343860
VA5170000181
VAD001 307495
PA4170022418
UTD009081357
PAD002316305
PAD003025418
RID001 463090
TXD000709964
TXD006287015
PRD980759443
PRD000003400
PRD090413568
RID001201508
Volume (tons)
0.05
2.23
0.41
2.23
0.048
0.097
0.04
0.35
0.07
0.048
12.115
0.31
0.65
63.4
6.653
7:5
0.075
5.758
0.225
0.462
0.425
0.001
0.1
0.004
2.2
0.075
0.05
0.3
3
0.45
0.487
0.16
15.97
1.125
0.175
0.6
0
4.689
0.325
0.386
0.007
0.13
0.055
0.38
0.92
0.75
7.89
0.15
0.14
0.401
0.01
0.07
5.74
0.075
0.49
0.25
0.3
3.85
0.25
0.004
0.038
' 0.4
0.333
15.361
0.5
0.2
0.275
1.6
2.26
0.004
0.129
0.783
0.935
SIC Code
9711
9711
9711
9711
9999
2111
2111
2111
2621
2732
2812
2819
2819
2819
2819
2819
2824
2834
2834
2834
2844
2899
2899
2911
2911
3312
3351
3429
3443
3449
3449
3471
3484
3489
3531
3554
3564
3625
3671
3672
3672
3674
3674
3674
3674
3674
3674
3674
3678
3678
3679
3679
3679
3692
3711
3711
3713
3714
3721
3728
3731
3731
3731
3761
3769
3795
3812
3812
3812
3823
3841
3841
3951
Form Code
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
Source Code
A99
A99
A99
A99
A94
A59
A92
A92
A94
A61
A82
A59
A59
A59
A91
A92
A56
A59
A59
A99
ASS
A94
A99
A53
A59
ASS
A59
A99
A99
A57
A91
A99
A99
A99
A89
A69
A57
A89
A59
A49
A94
A49
A57
A58
A58
A59
A99
A99
A99
A99
A56
A56
A69
A53
A99
A99
A58
ASS
A59
A59
A53
A56
ASS
A99
A99
A99
A99
A99
A99
A94
A57
A57
A59
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
•
1
1
1
1
1
1
1
1
1
1
1
Page 73
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
DQ09
IX)09
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009 '
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009 ' .
D009
D009
D009
D009
D009
D009 '
0009
D009
D009
D009
D009
DOCS
0009
D009
0009
D009.
0009
0009
System Type
M141
M141
M141
M132
M132
M999
M141
M012
M012
M141
M141
M141
M999
M999
-
M999
M141
M999 '
M132
M141
M141
M132
M141
M132
M012
M141
M019
M012
M132 "
M141
M039
M041
M119
M132
M.141
M141
M141
M141
M141
M141
M141
M043
M132
Mill
M141
M141
M141
M132
M141
M132
M141
M141
M011
M043
M012
M141
M141
M141
M132
M012
M999
M019
M132
M999
M141
M999
M141
M019
M119
M132
M141
M141
M141
EPA ID
RID0401 12047
PAD009872706
TXD020810503
PAD000765891
PAD049672389
WAD058367152
TXD981 155203
TX8800016125
VTD000636449
VTD000636449
TXD000820118
VA7800020888
WA2170023418
WA51 70027291
WA821 4053995
WA921 4053465
TX7170022787
WA7890Q08967
WVD000765297
MED001 095041
NYD980526875
NYD0021 23461
NJ0002444719
NJD001317064
NJD0021 44202
NJD0021 44202
MND03733S072
NJD051 274348
NJD091859215
MED040228983
MiD096322532
M1D096322532
NJD002325074
MID00432Q479
NCD0031 62542
MAD991302712
MAD001 128032
MDD0693806S7
MAD002084093
NYD002247377
NYD059385120
MND982627291
NCD003216462
MID072784150
MAD001408517
NYD000521971 •
NYD002246114
MID985579861
MAD030821631
NYD000729863
NYD000730127
NYD051 590255
NJD071 457295
NJD0714572i5
NJP000907857
NJD986652345
MS6210809871
MS621 0809871
NJD982532434
UTD000826404
WAD980639686
PRD980644397
VWD004336343
WAD009276197
VTD000649780
WAD000064642
VTD093252096
VAD0031 32438
W1D006082473
UTD073008237
UTD073008237
VTD002065S97
VTD002065597
Volume (tons)
1.25
0.25
0.75
0.322
0.772
5.12
1.23
0.11
2.99
2.8
0.2
0.002
0.55
2.976
0.05
0.08
1.92
0.075
5.28
0.313
0.245
41.5
0.057
2.4
5.492
1.25
0.218
0.009
8.37
0.02
0.125
0.042
8.57
0.675
0.015
0.011
0.05
0.25
2.85
0.045
0.189
1.2
22.805
1.95
0.007
0.067
0.295
0.459
0.385
4.875
0.004
0.397
2.66
0.005
3.425
0.005
0.003
0.007
0.15
5.65
0.001
0.002
254.2
0.005
0.175
0.6
0.01
0.03
0.45
0.125
1.087
0.26
0.16
SIC Code
3961
4911
4911
4922
4922
4953
7349
7389
8221
8221
8731
9661
9711
9711
9711
9711
9711
' . 9999
9999
2611
2813
2819
2821
2833
2834
2834
2835
2865
2899
3083
3211
3211
3262
3312
. 3334
3339
3462
3479
3612
3679
3679
3679
• 3692
3714
3724
3812
3812
4911
4911
4931
4931
4931
8062
8062
8111
8211
9199
9199
9999
1021
1611
2091
2812
2911
3484
3499
3571
3577
3674
3674
3674
3692
3692
Form Code
B319
B319
B319
8319
B319
B319
B319
B319
8319
B319
B319
B319
8319
B319
B319
8319
8319
8319
8319
B319
831 9
B319
B319
B319
B319
B319
8319
B319
B319
8319
8319
8319
B319
S319
B319
8319
8319
8319
B319
8319
B319
8319
B319
8318
8319
8319
B319
B319
8319
8319
8319
B319
8319
B319
B319
B319
8319
B319
B319
8319
8319
8319
831 9
8319
831 9
B319
8319
B319
831 9
8319
8319
8319
8319
Source Code
A93
ASS
A57
A99
A99
A99
A56
A59
A59
A59
A53
A99
A92
A56
A32
A99
A94
A99
A56
A56
A99
ASS
A69
A53
A53
A53
A56
ASS
A91
A53
A94
A99
A56
A53
ASS
A99
A56
A99
ASS
A53
ASS
A69
A99
ASS
ASS
ASS
A92
A92
A56
A56
A58
A94
A69
A56
A53
A69
A99
A53
A56
A89
A99
A99
A56
A93
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
• 2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
Page 74
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D009
D009
D009
D009
DOCS
D009
D009
D009
D009
D009
D009
D009
D009 .
D009
0009-
D009
D009
0009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
0009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
DOCS
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
D009
O009
D010
D010
D010
D010
D01Q
D010
D010
System Typo
M131
M111
M011
M011
M141
M141
M039
M999
M999
M129
M141
M141
M141
M012
M141
M019
MQ43
M019
M141
M061
M141
M141
M061
M049
M043'
M141
M043
M043
M043
M111
M141
M141
M011
M011
M011
M011
M141
M141
M129
M141
M141
M141
M999
M141
M999
M141
M111
M141
M141
M019
M019
M041 '
M041
M141
M039
M0 12
M012
M141
M999
M999
M999
M999
M999
M999
M999
M999
M141
M129
M129
M041
M141
M141
M141
EPA ID
VTDO0 1075894
PAD085711141
UTT500010087
Lrrrsoooioi03
PAD987393196
PAD987393220
VAD980715064
WAD078216405
WA921 4053465
RI6170022036
MDD1 70090021
MD1 17009001 2
MS621 0809871
PAD002327708
PAD002327708
NJD044688935
MOD006278642
NJD044688935
NCD097607352
PAD002368892
PAD002368892
VA1170024813
NCD097607352
PR21 70027203
WiT560010282
NJD002444719
NCD047373766
NYD05027562?
LAD003913449 '
NJD064332273
MAD043409879
NJD101225365
NYD981 179005
NYD986999563
NYD986999571
NYD987010816
MAD000845412
MD61 50004095
NM65721 24422
PAD001680719
PAD002316305
UT321 3820894
WA7890008967
VTO002065597
WA8570024200
MAD001339159
MID982606287
UT321 3820894
MED980671796
MND982425589
NYD980788665
NYD000730382
NYD000730408
NYD980777502
MNDOQ0826206
NCD980843866
NJD001344506
TXD061 555611
WAD988470985
WA21 7002341 8
WA51 70027291
WA7890008967
WAD988469193
WAD988489142
WA21 7002341 8
WA921 4053465
MDD022402994
MDD000800672
MDD000647636
W1D000808147
MDD022402994
MOD000737049
M061 50004095
Volume (tons)
1.38
14.4
17.95
1.35
0.095
0.005
0.002
0.01
0.013
0.035
2.65
1.2
0
0.96
0.225
0.081
0.564
0.501
0.2
0.24
0,4
0.005
0.15
0.006
0,702
o:oos
7.638
0.405
0.9
1.2
1.24
0.01
1.8
3.5
11,3
8.2
0.024
0.893
0.049
0,025
1.617
0.022
0.009
0.465
0.006
0.826
0.248
18.058
0.092
0.125
2.606
2.649
0.634
0.648
3,424
1.139
3.97
0.05
0.002
0.23
0.003
0.01
3.53
0.99
0.28
0.11
0.097
0,029
0
0,071
0,1
0
0.027
SIC Code
3724
3824
491 1
4911
4911
4911
7549
8062
9711
9711
8221
8221
9199
3674
3674
2834
2821
2834
3842
2891
2891
3731
3842
9711
3692
2821
2833
2835
2869
2869
3861
4215
4729
4729
4729
4729
4911
8099
9711
3769
3769
9711
9999
3692
4581
3679
4789
9711
2611
2711
4911
4911
4911
4911
4911
8734
2834
' 3674
2835
9711
9711
9999
2835
8211
9711
9711
2834
4911
8734
2865
2834
8099
8099
Form Coda
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
8319
8319
B319
B402
B403
B403
B403
8403
B403
8403
B404
B40S
B407
8409
B409
B409
B409
B409
B409
8409
B409
B409
B409
B409
8409
B409
8409
8409
8409
8409
8409
8409
B409
B503
8519
8604
B701
B701
B701
B701
8701
B701
8701
8701
8701
B901
8001
B001
B001
8001
B003
BOOS
B003
Source Code
A99
A56
A53
A53
A56
A56
A72
A53
A99
A99
A94
A99
A99
A58
A94
ASS
A57
ASS
A58
A59
A57
A99'
A81
A58
ASS
A53
A09
A69
A59
ASS
A72
A72
A72
A72
A59
A94
A59
A99
A99
A21
A56
A75
A53
A21
A99
A99
ASS
ASS
ASS
A56
A99
A99
A93
A99
A94
A94
A94
A57~
A94
A94
A94
Origin Code
2
2
2
2
2
2
2
2
2
2
3
3
3
3
3
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
' 1
1
1
1
1
1
1
2
2
1
2
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
2
2
2
2
1
1
1
1
1
1
1
Page 75
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D010
0010
D01Q
001 0
D010
D010
D010
D010
D010
D010
D010
D010
D010
D010
D010
0010
D010
D010
D010
D010
0010
0010
D010
D010
0010
D010
001 0
0010
D010
D010
D010
D010
0010
D010
D010
0010
0010
D010
0010
0010
0010
D010
0010
0010
0010
0010
D010
D010
D010
D010
0010
D010
D010
D010
D010
D010
D010
0010
D010
0010
D010
D010
D010
0010
0010
D010
D010
D010
D011
D011
0011
0011
0011
System Type
M141
M141
M141
M041
M111
M061
M141
Ml 41
M141
M077
M079
M141
M078
M043
M079
M041
M081
M077
M111
M019
M141
M049
M141
M077
M119
M141
M141
M141
M109
M051
M061
M141
M051
M141
M141
M111
M061
M061
M089
M125
M141
M111
M141
M141
M043
M141
M111
M041
M132
M141
M043
M141
M141
M132
M141
M141
M141
M141
M132
M132
M119
M132
M111
M999
U111
M041
M132
M999
M141
M041
M111
M043
M141
EPA ID
NJD089205280
MD01 20508940
M1D006015960
NCDOQ0616441
MID000809228
MOD006265326
MDD022402994
VA1170024813
VAS1 70022482
MO421 3820489
NYD9S6869402
NCDOS7203752
NYD045S05888
NYD980790083
MSD064102577
MAD001408517
PAD000731430
PAD000731430
PAD000731430
NJD9866S0034
MID006015960
NJDQ021 52205
NYD002047967
MID005358783
LAT230012833
NJD980648521
TXD061555611
NJD042908954
NJD002016103
NJD000768028
LAD982560914 '
LAD982S60914
PAD980917975
MDD022402994
MED981889173
MID076380658
NJD001288711
MID981 194269
NYD002033710
PAD060511086
NJD042908954
PAD980917975
PAD980917975
VA1 170024813
MOD007452154
NJD042908954
NY0002033710
MAD981062797
LAD982560914
MAD007325814
PAD990823858
LAD982560914
NHD073998106
PAD03Q068282
MID006015960
MID006015960
NJD01 1550092
NYD054065909
OKD096646666
NJT350010195
NJD048613590
M1D0641 97742
PAD030068282
WA2170Q23418
PA0030068282
MAD98T062797
VAD065415457
WAD058367152
NJ0000021501
NJD986596724
NJD002373819
NJD000818567
NJD073745945
Volume (tons)
0.005
. 0,005
0.15
0.024
2.119
177,252
0.944
0.27
4.67
0.252
2.064
0.98
0.395
0.027
2.519
0.38
0.3
3,774.94
144.76
5.75
1.609
0.855
0.01
0.021
0
0.229
1.38
3.154
1.2
30.734
0.605
0.806
2.17
4.45
0.4
7.356
21
0.247
0.85
312.706
0.2
0.275
0.75
0.82
0.1
0.2
0.525
0.688
0.467
0.445
0.028
0.198
0.525
1.72
0.05
0.407
0.25
17
1.603
19.6
0.1
0.28
79.754
0.12
1.189
0.229
0.6
48.59
0.119
0.481
0.68
0.001
0.2
SIC Code
8731
8733
' 2023
2844
3711
3714
2834
3731
9711
3482
2752
3625
3531
3861
3499
3566
4911
4911
•4911
2284
2023
3357
3479
3714
8221
8741
3674
2813
2241
4925
. 3827
3827
3674
2834
7538
8734
2893
2821
2834
5171
2813
3674
3674
3731
2833
2813
2834
3425
3827
5093
3471
3827
3679
3341
2023
2023
2834
2834
3452
3469
4613
8734
3341
9711
3341
3425
3491
4953
2761
2819
2834
2911
Form Code
B003
BOOS
B009
8009
B101
B101
B102
B102
81 02
B103
B106
8106
8108
B113
81 14
8114
B115
B115
B115
B116
8119
8119
8119
8119
8119
81 19
B119
81 S
8205
B205
8206
8206
6206
B207
8207
8207
B209
B219
8219
8219 ~
B307
8307
8307
8307
8308
B310
B310
B310
B310
8310
B310
8310
B316 ,
B316
B319
B319
8319
B319
B319
B319
8319
831 9
8319
8319
B319
8409
B609
8
B
B001
B001
8001
Source Code
A94
A94
A94
ASS
A19
A59
AS8
A59
A22
A29
A37
A22
A24
ASS
A09
A69
A78
A78
A78
A31
A59
A09
A37
A19
A94
A75
A99
A78
A29
A56
A54
A54
A32
A99
A58
A57
A09
A57
ASS
A49
ACS
A91
A91
A29
A99 •
A55
A53
ASS
A09
A27
A22
A54
A49
A59
AS?
A91
A49
A57
A29
A40
A56
AS?
A57
A78
AS3
A49.
A
A
A94
ASS
A94
Origin Code
1
1
1
1
1
1
. 1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
2
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
Page 76
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0011
D011
D011
D011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
D011
001 1
0011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
0011
00.11
D011
D011
D011
D011
D011
D011
D011
D011.
D011
D011
D011
0011
0011
0011
D011
D011
D011
D011
0011
•D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
System Type
M129
M043
M049
M129
M041
M141
M141
M049
M141
M141
M043
M041
M043
M043
M061
M999
M141
M043
M141
M141
M141
M041
M141
M141
M141
M019
M043
M141
M011
M141
M042
M039
M141
M141
M141
M141
M043
M049
M141
M141
M141
M041
M041
M141
M141
M141
M141
M141
M141
M141
M041
M079
M019
M061
MOW
M014
M043
M041
M141
M019
M141
M121
M119
M129
M019
M061
M141
M12S
M141
M141
M019
M141
M141
EPA ID
MID006018196
NYD001 527829 ,
MDD000731596
MDD000800672
MI5570024278
NYD987004355
MED0421 40483
MD9210020567
MD9210020567
PAD002274991
PREX190413568
WVD004325353
WVD004325353
VAD001 307495
UTD0006S1653
WID003967148
MAD000846501
NYD013440169 .
MAD980673065
MAD982196172
NJD01 1550092
LAD0081 87080
NCD067199851
NYD002047967
MAD0921 92541
NYD000689059
NYD045606480
MAD985280858
NVD982502684
MD61 50004095
MDD050793926
NYD002223642
NJD986584688
NJD980753842
MD01 20508940
MD51 23510732
NJ01 700221 72
WVD060682291
PAD042147652
PAD002316305
PAD001680719
W1D980283394
WID980904452
\MD980283394
NJD1 01 686731
NCD980600894
NYD980779540
PRD982725251
VA421 02201 39
NYD980647861
MAD981066731
NJD000531707
MND081 138604
MDDQ03065877
MAD000842377,
MAD001014174
MAD000842377
NHD064441132
NYD987016169
MAD001 424985
VTD002085108
VTD002068070
NJD986645836
NJ0986652931
NYD980654081
NJD986585388
NYD980653711
NVD981641434
NHD990717803
NJD002349009
NHD986470730
NYD986884963
MAD001339159
Volume (tons)
0.015
0,02
0.015
0.021
0.005
0.021
0.46
0.002
0.002
0,005
0
0
0
0.025
0.007
0.012
1.61
0.01
0.112
0.45
0.005
0.15
0.002
0.025
0.15
0.334
0.052
0.055
26.72
0.075
0.045
0.004
0.005
0.03
0.075
0.41
0.03
0.054
0.002
0.025
0.919
0.049
0.109
0.013
0.12
0.751
0.024
0.005
0.195
5.963
0.082
0.504
0.681
1.409
25.023
33.205
0.229
0.517
7.17
5.661
0.48
0.313
1.147
0.542
71.9
2,3
3.89
5.908
9.483
0.22
0.688
0.688
0.705
SIC Code
3585
3663
4911
4911
8099
8734
8999
9199
9199
2621
2834
2869
2869
3731
8221
9511
3674
2672
2834
2834
2834
2869
2879
3479
3679
3861
3861
5961
8062
8099
8221
8221
8731
8731
8733
8733
9711
2869
3562
' 3769
3769
8221
8221
8221
2834
8221
9999
2834
9199
2711
2819
3448
3483
3546
3555
3555
3555
3812
8011
8733
3724
3728
2752
2752
2752
2752
2752
2754
2761
2879
3643
3646
3679
Form Code
B001
B001
8001
B001
BQ01
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
B001
6002
B003
6003
B003
BOOS
BOOS
BOOS
BOOS
B003
B003
BOOS
BOOS
BOOS
BOOS
BOOS
BOOS
B003
B003
8003
BOOS
BOOS
B003
BOOS
BOOS
BOOS
BOOS
B003
BOOS
8009
B009
B009
B009
B009
B101
B101
B101
B101
61 01
81 01
8101
B101
8101
B101
B101
8101
8101
B102
8102
8102
8102
B102
B102
8102
8102
B102
8102
B102
Source Code
A94
A49.
ASS
A94
A94
A94
A94
A58
A58
ASS
ASS
A94
A94
A58
A94
A59
ASS
A58
A94
A94
A94
A94
A94
A57
A56
A58
ASS
A99
A72
A94
A72
A94
A58
A94
A94
A94
ASS
A94
A94
ASS
A94
AS9
A59
A59
A94
A99
ASS
A94
A59
ASS
A27
A37
ASS
A99 .
A49
A49
A99
A37
A72
A89
A05
A93
A09
ASS
A37
A37
ATS
A37
ASS
A57
A22
A36
A37 '
Origin Code
1
1
1
1
1
1
1
1
1
1
1.
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
i
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
Page 77
-------�
1993 BRS Data (GM Form) -TC Wastes Managed Off-site
Waste Code
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
DQ11
001 1
D011
D011
D011
D011
D011
D011
D011"
0011
D011
D011
D011
D011
001 1
D011
D011
0011
0011
0011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D01.1
D011
D011
D011
0011
D011
D011
D011
D011
D011
001 1
D011
001 1
D011
D011
D011
D011
D011
0011
D011
D011
0011
D011
0011
D011
0011
D011
0011
D011
D011
O011
D011
System Type
M141
M039
M141
M141
M041
M141
M019
M141
M019
M125
M014,
M141
M019
M019
M019
M029
M019
M042
M019
M089
M141
M141
M141
M014 '
M014
M014
M014
MOW
M014
M014
M141
M019
M141
M014
M029
M141
M141
M041
M019
MOW
M019
M019
M014
M129
M141
M141
M014
M078
M132
M111
M019
M092
M092
M129
M141
M141
M129
M019
MDK
M019
M141
M019
M019
M019
M019
M019
M019
M019
M019
M077
M019
M019
M141
EPKID
MED041 460247
NJD085652576
MAD053449393
MA1 21 0020631
ME6572890022
MD41 70090001
ME7170022019
ME71 7002201 9
NY2572824249
PAD987391570
RID06390Q690
VA1 170024813
RID001 463090
MiD071 735096
NYD981 563588
NJD055098669
NHD002579399
MED000791681
MN00008193QO
NM75721 24454
MAD001 029768
NJ0000027201
NYD981 077480
LAD981512494
LAD981512932
LAD981905920
LAD982289902
LAD9822934S8
LAD037970217
LAD981519689
MD61 50004095
NHD041 027822
NYD002050177
WID071 153696
W1D981001803
VTD000649780
VTD002083434
VTD002068070
VA1 170024813
PAD000730515
VA721 3720082
MND990860470
MAD001 128198
NVD982446197
MOD985775147
NYD059385120
MAD001014182
NMD052684578
MOD1 92203487
NYD067916494
MED1 231 40667
NYD986931939
NYD987027679
MED985474576
VA1 17002481 3
VA5170000181
PAD002282556
NYD010026391
NJD1 24684481
NYD065945495
NYD981075617
NYD987000114
NJ0000034223
NYD002040947
NYD075782987
NYD982279713
NYD986869402
NYD987017142
NYD987039872
NYD98699502S
NYD986950079
NYD986991792
NYD980776827
Volume (tons)
8.012
' 0.055
0.459
0.777
0.071
0,853
2.692
3.877
0.381
1.667
5.179
0.22
2.15
2.39
3.44
3.199
0.817
2.359
0.242
0.329
0.229
0.05
1.32
5.8
10.7
1.3
2.5
10.9
18.3
• 7.6
1.026
0.25
0.7
1.227
6,288
0.228
0.913
0.16
0.322
3.92
1.278
0.009
1.762
3.444
0.229
' - 1.308
0.963
1.56
• 0.596
0.229
2.535
0.44
1.76
2.669
0.299
0.4
0.157
2.614
1.32
16.18
9.07
11.635
0.459
4.525
4.587
3.565
11.947
6.651
1.147
5.497
0.229
37,552
0.025
SIC Code
3731
3844
3861
8733
9711
9711
9711
9711
9711
2752
3731
3731
3812
2673
2711
2752
3553
3724
3812
3826
3829
6331
7334
8011
8011
8011
8011
8011
8062
8062
8099
8221
8734
2752
2796
3484
3484
3728
3731
3996
9999
3479
2752
2796
3470
3679
3679
3724
3795
3861
6311
6399
6399
7336
3731
3731
3823
2657
2711
2711
2711
2721
2732
2752
2752
2752
2752
2752
2752
2752
2796
2796
3555
Form Code
B102
8102
B102
B102
B102
B102
B102
B102
B102
B102 .
B102
B102
B1Q2
B103
B103
8103
B103
81 03
8103 •
B103
8103
B103
8103
8103
B103
61 03
B103
B103
B103
8103 .
B103
8103
B103
61 03
B103
B103
B103
81 03
8103
8103
8103 '
8103
8105
8105
8105
B105
B105
B105
8105
8105
B105
8105
B105
B105
BIOS
B105
B105
8106
B106
B106
B106
8106
8106
B106
81 06
8106
8106
8106
8106
B106
8106
B106
8106
Source Code
A37
A99
A31
A37
A31
A35
A72
A72
A99
A37
A31
A94
A37
A37
A37
A37
A99
A99
A49
A72
A29
ASS
A19
A72
A72
A72
A72
A72
A72
A72
A94
A59
A94
A27
A69
A49
A99
A23
A22
A49
ASS
A58
A37
A72
A58
A29
A99
A49
A37
A37
A31
A37
A37
A37
A58
ASS
A89
A31
A
A37
A37
A37
A3? •
A37
A37
A37
A37
A3?
A37
A3?
A37
A37
A37
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
r
1
1
1
1
1
1
1
1
1
1
1
Page 78
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0011
D011
D011
D011
0011
D011
0011
001 1
0011
D011
D011
D011
D011
D011
D011
D011
D011
001 1
001 1
D011
D011
D011
D011
D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
0011
D011
D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
0011
D011
001 1
D011
0011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
System Type
M141
M141
MQ19
M049
M141
M141
M125
M141
M029
M019
M141
M079
M099
MQ19
M019
M019
M019-.
M019
M019
M019
M019
M019
M019
M019
M019
M019
M019
M019
M019
M019
M019
M019
M111
M141
M019
M019
M039
M014
M019
M141
M014
M141
M141
M141-
M061
M014
M141
M077
M079-
M019
M141
M141
M079
M141
M141
M129
M141
M092
M092
M014
M121
M019
M041
M141
M141
M019
M141
M079
M141
M141
M141
M019
M032
EPA ID
NYD986884286
NHD037695236
NYD077508810
MID041511478
NJD002141778
MAD001 005370
NJD981 140502
MAD001411081
NJD982791360
MAD980522585
NHD000791889
MAD001015650
NJ021 0022752
NJD982188617
NYD013518139
NYD1 52305645
NYD981 482888
NYD981 482896
NYD981 482904
NYD982535429
NYD982727422
NYD986932374
NYD986934362
NYD986965713
NYD986977270
NYD986987493
NYD986987675
NYD987000528
NYD987001013
NYD98701S922
NYD987029501
NYD987034758
NYD982791444
MS2570024164
NYD986885614
NYD089394266
MAD000844670
MAD991304767
MAD075347500
MA0991304767
MAD099198178
NJ1960011152
MD9800013865
MA0570024026 .
TXD003897733
PAD1 06384993
VA61 70061 463
VA1 170024722
VA1 170024722
NYD057722019
NJD986573400
MAD001014182
NYD061 956470
UT321 3820894
NV9170022173
MID0471 89097
NJD001526078
NYD986931939
NYD987027679
LAD072630254
VA4S70024477
NJD986615102
NCD041 463761
NCD041 463761
MAD001 410539
MAD001061001
MAD001 055235
NYD002038586
NYD002038586
MAD001408517
NJD986628717
NYD002056679
NYD000767624
Volume (tons)
0.045
1.925
0.9
110
0.6
0.884
0.229
0.7
0.25
0.229
1.607
3.207
0.742
7.798
12.302
10.613
9.654
9.32
10.133
17.89
8.361
13.344
8.716
4,572
13.657
13.699
13.094
13.845
12.552
11.072
9.049
8.653
11.7
0.011
15.033
1.168
1.23
0.042
0.03
0.2
1.947
0.222
0.007
0.953
0.27
69.954
0,056
3.426
0.924
0.457
0.22
0.021
0.045
0.006
0.304
63.703
0.229
0.667
1.76
27.9
2.4
1.075
0.888
0.2
2.2
0,252
3.165
0.4
0.2
0.16S
0.96
10,45
3.899
SIC Code
3555
3555
3577
3585
3613
3661
3672
3679
3679
3679
3699
3861
4412
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7384
7819
8062
8099
8211
8221
8221
8221
8221
8221
8733
9661
9711
3571
8062
9711
9711
9711
3625
3679
3679
3861
9711
9711
2732
3499
6399
6399
8062
9199
2833
3571
3571
3669
3679
3679
3679
3679
3724
3812
3861
8221
Form Code
B106
B106
B106
B106
8106
B106
B106
B106
B106
81 06
B106
B106
B106
B106
8106
B106
B106
B106
B1Q6
B106
B106
B106
8106
8106
8106
81 06
8106
8106
8106
B106
8106 •
B106
B106
B106
8106
B106
B106
61 06
B106
81 06
8106
8106
B106
8106
8106
8106
B106
B106.
B106
B107
B107
B107
B107
B107
B109
B110
81 10
B110-
B110
8110
B110
B113
B113
B113
B113
6113
6113
B113
8113
B113
81 13
B113
B113
Source Code
A37
A49
A49
A49
A49
A31
A05
A22
A31
A49
A37
A37
A59
A3?
A37
A37
A37
A37
A37
A37
A37
A37
A37
A37
A37
A37
A37
A3?
A37
A3?
A3?
A37
A37
A49
A37
A37
A37
A94
A94
A94
A99
A49
AS9
A99
A37
A37
A22
A37
A37
A22
A22
A99
A37
A 58
ASS
A3?
A94
A37
A37
A72
A99
A99
A59
A59
A49
A22
A29
A49
A49
AS7
A3?
A49
A09
Origin Code
1
1
1
1
1
1
1
1
' . 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 79
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Coda
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
001 1
D011
D011
D011
O011
D011
O011
0011
0011
0011
D011
D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
0011
0011
0011
D011
0011
D011
O011
D011
D011
001 1
D011
D011
D011
D011
0011
001 1
D011
0011
0011
D011
001 1
0011
D011
System Type
M141
M041-
M141
M129
M141
M019
M077
M141
M141
M129
M019
M119
M119
M141
M141
M141
M141
M141
M077
M019
M019
M077
M092
M141
M077
M092
M089
M099
M014
M141
M061
M014
M019
M141
M011
M141
M141
M119
M141
M077 •
M019
M141
MDK
M141
M125
M041
M141
Ml 41
M019
M141
M041
M141
M141
M141
M141
M111
M077
M141
M141
M141
M141
M141
M141
M023
M041
M079
M075
M061
M099
M119
M041
M061
M141
EPA ID
NCD000830737
NCD000813519
NY6890008992
NM2750211235
MA8570024424
PAD004327417
PAD004329116
PA521 3820892
VA821 0020626
NHD073976904
MND0061 47052
NYD002206142
NYD013440169
NJD0474560S8
MAD000844126
MAD001409150
MAD001419514
NYD001 386077
NJD000473355
MND079731519
NYD001321611
NYD080480734
NYD080480734
MAD001411016
NYD080480734
NYD080480734
NYD001315266
MID050615996
NHD001 427475
NHD001 427475
MDD004383402
MND982070732
MND980615496
MAD001410240
NJD064266000
MAD001 402320
MAD001011071
MAD001113331
MAD002084093
MID098644685
NVD986776169
NVD986776169
NJD986638773
NYD987023157
ORD000409581
MS2570024164
MS2570024164
NYD100397413
NVD981963549
NED000809475
MOD071 999783
MDD981 106867
NJD01 1328887
NJD048804488
NJD986583706
MDD040549461
MS6210809871
MS621 0809871
NCD9818S6396
ME8170022018
NV7570024110
NC1 170027261
NC1 170027261
NM0890010515
NM0890010515
NM0890010515
NYD980779540
PAD987377504
PAD01 0567386
WVD060682291
PAD075485995
PAD075988071
PAD002389252
Volume (tons)
0.45
0.875
0.111
1.93
0.73
0.511
5.383
0.045
0.233
0.5
0.042
13,92
19.638
0,229
0.55
0.382
2.754
0.104
14.879
0.2
0.062
1.918
1.648
0.275
0.824
0.276
11.869
0.229
8.439
1.646
0.6
0.658
0.5
0.688
4.362
0.861
0.434
1.608
0.459
0,35
8.558
5.055
0,256
33,781
• 0.349
0,074
0.497
0.207
6.62
0.882
0.23
3.194
0,22
" 1.6
0.24
8.845
0.266
1.425
0.051
2.711
0.739
0.001
0.573
0.045
0.058
4.197
0.24
1
18.9
0.205
0.03
1 .845
0,808
SIC Code
8221
8221
8731
9711
9999
3498
3532
7221
9199
2295
' 2657
2672
2672
2761
2835
2899
3053
3341
3555
3571
3672
3672
3672
3679
3679
3679
• 3694
3711
3724
3724
3812
- -3812
3823
3827
3861
3861
3914
3949
3999
4911
5399
5399
6141
7221
7384
8062
8062
8211
8221
8221
8221
8222
8731
8731
8731
8733
9199
9199
9229
9711
9711
9711
9711
9711
9711
9711
9999
2677
2752
2869
2879
3089
3674
Form Code
B113
8113
B113
8113
B113
B113
B113
B113
B113
6114
B114
8114 •
8114
8114
B114
8.114
8114
8114
B114
81 14
8114
8114
B114
8114
8114
B114
81 14
8114
8114
81 14
8114
8114
8114
B114
8114
8114
B114
8114
B114
B114
8114
B114
8114
8114
8114
8114
8114
B114
B114
8114
B114
B114
8114
B114
81 14
8114
8114
B114
8114
B114
81 14
B114
B114
B114
8114
8114
8114
8114
8114
8114
8114
8114
8114
Source Code
A37
A94
A94
A99
A59
A37
A99
A99
A72
A49
A49
A09
A09
A59
A99
ASS
A23
A49
A99
A37
A99
A99
A99
A29
A49
A49
A31
A99
A49
A49
A37
A99
A49
A49
ASS
A94
A37
A04
A3?
A94
A3?
A3?
A99
A59
A37
A49
A49
A94
A94
A94
A99
A59
A37
A37
A37
A37
A36
A36
A3S
A09
A49
ASS
A72
A94
A94
A94
A59
A49
A99
ASS
A94
A22
A29
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
' 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 80
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
0011
001 1
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
System Type
M141
M141
M041
M041
M014
M041
M019
M141
M141
M077
M061
M079
M074
M141
M041
M09i
M141
M141
MQ19
M141
M141
M014
M019
M019
M141
M019
M077
M141
M141
M141
M141
M141
M014
M079
M141
M141
M061
M079
M019
M141
M019
M019
M141
M099
M141
M019
M141
M019
M077
M141
M141
M141
M014
MOM
M014
MQ14
M077
M019
M141
M141
M049
M132
M141
M129
M041
M129
M141
M019
M099
MQ41
M141
M999
M999
EPA ID
RID000001701
VAD988186110
RID0000017SO
WVD00309S536
VA8170024170
PR2170027203
NYD061 966750
MID072793128
NHD095506002
MED086875887
MAD000844S22
NJD986638195
NYD001391200
NJD001317601
MAD001 439546
MAD001 439546
NHD001085158
MAD002084093
NYD066075797
MAD071705222
MAD985268556
MND053422762
NYD002233039
MAD000829986
MAD0001 89068
MAD086538394
NYD058650102
MAD001 408517
MED985467679
MED048268890
MAD001 863943
NJD986575033
MND000293365
NYD061 956470
MAD000846451
MAD001 199256
NCD981861438
NYD000730432
NHD081 257446
NYD000706077
NJD020381141
NJD986627016
NJD060792918
MAD98J203656
NVD981 578990
LAD981592330
MOD980829873
MID98S569516
MID980682827
NE"D000766808
NED000766816
NHD000790923
MND980613822
MhfT280010414
NMD075088252
NMD980621197
MI0980682827
NY0986942845
NHD986469609
NHD986469633
MD3210021355
MA7210025154
MAD21 0092730
NY021 4020281
LA9571 924050
LA9571 924050
LA9571924050
OK421 3720846
OK6213822798
PRD1 56924573
PAD981947294
WAD000618140
WAD009256819
Volume (tons)
1.319
0,001
0.688
5.112
0.537
0.752
0.459
0.005
0.078
0.01
0.234
2.752
2.101
1.564
0.561
1.646
1.2
0.917
0.916
2.374
0.528
0.163
0.022
0.229
0.126
5.546
2.55
0.017
0.479
0.975
0.354
0.502
0.48
0.021
0.5
0.917
0.25
2.523
0.205
0.624
1.376
6.359
0.459
14.679
57.172
20.036
3.721
2.85
0.02
0.585
1.25
0.75
3.747
12.956
0.88
8.509
0.2
2.967
0.058
0.044
10.561
3.768
0.25
2.091
0.073
0.039
0.045
9.755
1.16
2.97
0.125
0.23
0.06
SIC Code
3676
• 3731
3829
3861
9711
9711
2051
2099
2297
' 2621
2677
2752
2819
2834
3511
3511
3569
3612
3643
3663
3663
3672
3672
3674
3679
.3679
3692
3724
3731
3764
3812
3812
3845
3861
3861
3911
4911
4911
4911
4931
5043
5043
7334
7379
8062
8062
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
8221
9121
9199
9199
9711
9711
9711
9711
9711
9711
9711
9999
9999
2834
3671
3679
3721
Form Code
8114
B114
8114
8114
8114
8114
8119
8119
B119
8119
8119
8119
81 19
B119
B119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
81 19 .
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
8119
B119
8119
B119
81 19
8119
8119
81 19
8119
81 19
8119
B119
B119
B119
B119
B119
B119
B119
B119
B119
8119
8119
8119
8119
8119
8119
Source Code
A37
ASS
A49
A94
A99
A99
A49
ASS
A37
A58
A31
A59
A94
A99
A49
A49
ASS
A49
A49
A49
A49
A36
A59
A59
A29
A49
A37
A57
A37
A37
A99
A99
A49
A57
A94
ASS-
ASS
A59
A99
A37
A37
A37
A58
A04
A37
A99
A59
A94
A94
A94
A94
A94
A99
A99
A99
A99
A99 •
A37
A99
A99
A01
A49
A59
A72
A99
A99
A99
A72
A72
A35
A59
Origin Code
. • 1
1
1
1
1
•1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.
Page 81
-------�
1993 BRS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011 .
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
System type
M999
M141
M041
M014
M077
M141
M014
M999
M119
M119
M061
M061
M077
M141
M141
M141
M141
M019
M141
M099
M141
M141
M141
M141
M141
M061
M061
M019
M141
M141
M141
M013
M141
M141
M141
M141
M061
M041
M141
M041
M141
M141
M019
M061
M041
M125
M021
M077
M014
M141
M041
M014
M061
M061
M061
M132
M141
M019
M014
M019
M011
M141
M019
M141
M141
M141
M019
M014
M019
M125
M129
M011
M012
EPA ID
WAD980985923
VTDO0 1075894
VTD002068070
VAD001 307495
VAD988222675
VAD988186110
VA21 70024606
WA8570024200
WVD098433394
WVD988768495
PRD987373636
PRD987381068
WID006073225
TT9570090002
VA81 700241 70
UT321 3820894
VA6170061463
UT521 0090002
VA6170061463
WID988627568
NYD987037900
TXD980627228
NCD097716625
NJ0000074278
MAD058060476
MAD0001 33496
VAD065415457
NJD001 283845
NJD001 865534
NJD982716466
NJD075481598
NJD089216915
NC8210020121
UTD009094012
VA61 70061 463
VA6170061463
NJD000691832
NM65721 24422
VA61 70061 463
PRD987373636
VA1 170024813
RID075705780
OKD072401045
MSD982771420
NCD000623165
ORD980725592
NYD987000759
NYD987000759
LAD043429182
M0321 3720979
PAD046558037
TX9170024708
PRD987373768
PRD987373792
PRD987381605
NJD002444024
NYD987037900
NYD01 0026391
NJD986627008
MND0061 73082
NCD980843866
NC5690308262
WID006089668
PAD987277308
VTD002065597
WID086686003
VA8213720321
NJD000310458
MOD0071 20652
NM9570024423
NY4571 924774
VTD002065597
VTD002065597
Volume (tons)
0.48
0.971
0.068
1 1 .035
17.3
0.009
14.2
0.1
0.584
0.625
24.032
37.083
0.462
0.175
0.701
0.049
0.004
0.445
0.001
0.446
3.494
0.38
12.26
0.11
1.125
4.579
5.74
6.86
1
0.12
0.925
4.3
7.359
0.44
0.003
0
1.655
0.004
0
0.008
2.201
0.95
1.549
0.699
0.413
0.17
6.962
0.677
18.77
0.018
0.057
2.4
9.05
2,260.00
13.337
0.875
5.4
0.001
0.016
0.294
1.957
0.005
0.095
5.4
0.457
0.458
0.134
0.217
0.008
0.016
0
7.44
0.779
SIC Code
3721
3724
3728
3731
3731
3731
3861
4581
4922
4922
5043
5043
7384
8062
9711
9711
9711
9711
9711
9999
8621
9431
2844
8731
3861
3052
3491
2711
2834
2834
2911
4931
9711
8221
9711
9711
3221
9711
9711
5043
3731
8221
3211
3443
3471
7336
7384
7384
8062
9711
3613
3764
5043
5043
5043
3861
8621
2657
2711
8731
8734
9999
3471
3676
3692
3844
9711
3679
3674
9711
9711
3692
3692
Form Code
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B119
B198
B201
B201
B203
B206
B206
B207
B207
B207
B207
B207
B207
B207
B209
B210 ,
B211
B211
B211
B211 ~
B212
B212
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B302
B302
B307
B307
B307
B307
B307
B307
B307
B307
B307
B307
B307
B309
B309
B309
B309
B309
Source Code
A05
A94
A49
A49
A94
A72
A37
A37
A99
A99
A89
A99
A49
A58
A58
A59
A94
A04
A69
A35
A57
A94
A94
A40
A29
A37
A37
A59
A29
A94
A72
A94
A21
A49
A06
A58
ASS
A64
ASS
A37
A99
A69
A49
A37
A37
A37
A49
A53
A99
A31
A99
A99
A99
A53
A69
A72
A72
A94
A09
A59
A72
A57
A59
A57
A72
ACS
ASS
ASS
ASS
A57
A57
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
Page 82
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D011
D011
D011
D011
001 1
D011
D011
D011
D011
001 1
D011
D011
D011
D011
D011
D011
D011
D011
D011
13011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011.
D011
D011
D011
D011
D011
0011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
D011
System Type
M013
M011
M141
M141
M141
M141
M132
M011
M141
M019
M141
M061
M141
M019
M141
M019
M141
M013
M141
M141
M119
M043
M011
M019
M141
M043
M043
M079
M141
M141
M043
M109
M077
M111
M014
M141
M132
M011
M019
M013
M013
M019
M019
M132
M137
M043
M011 ,
M011
M019
M141
M141
M141
M141
M141
M019
M019
M043
M011
M014
M011
M019
M141
M019
M019
M011 "
M141
M011
MQ13
M141
M014
M011
M011
M141
EPA ID
WIT560010282
VTD002065597
VA61 70061 463
NHD990717803
MOD007131113
NUD001317601
MID000724724
NJD990753493
MAD985266493
NED035093053
MDD003243532
NYD002056679
MADQ01 402320
VA11 70024722
VA61 70061 463
VA721 0020502
MAD990685554
WIT5600102B2
MAD001411016
MAD980S22577
NYD002206142
NYD986944973
NYD0021 16499
MAD001 008770
MAD001408517
NYD980646152
NM0890010515
NM0890010515
PA4170022418
VA6170061463
PR21 70027203
NYD987032588
NYD986974962
MD321 0021 355
MND982425589
NYD095575429
LAD040776809
NJD002141489
NJD986617280
MND980616700
NY721 3820940
MN3170022914
MN3170022914
NHD073984288
NHD073984288
NJD051 40634$
MED077469864
NHD001 089465
MND985668227
NHD000791889
NYD003995198
NYD000521971
NYD002246114
NJD002342434
MND980615496
MNT280010372
NYD980537112
NJD0642660QO
NYD045606480
NJD064266000
NVD981 578990
ME81 7002201 8
PAD004397881
PAD098439037
PRD980759443
PAD002103174
VAD046960449
VADOOOQ19448
PAD021 052329
PADQ21052329
VAD023741705
VAD981112618
MADOQ1025170
Volume (tons)
2.102
1.951
0.092
0.7
0.033
0.03
3
9.872
1.199
36.12
0.2
0.25
0.4
0.273
0.009
0.061
0.037
3.098
0.03
0.325
0.515
0.005
1.195
0.007
0.191
0.012
0.007
0.076
0.001
0
0.025
5.067
0.003
0.077
1.838
20.392
1.5
1.565
0.65
0.072
0.001
0.016
0.25
0.01
0.05
0.65
0.749
3.147
0.3
0.102
0.012
0.145
1.22
0.031
0.18
0.037
0.07
0.242
0.115
30.442
0.059
"0.036
0.66
1.9
0.1
0.5
1.911
17.452
. 0.083
0.205
0.048
0.026
0.1
SIC Code
-. 3692
3692
9711
2761
2796
2834
2879
3369
3669
3676
3728
3861
3861
9711
9711
9999
3669
3692
3679
2295
2672
2869
3231
3672
3724
3861
9711
9711
3731
9711
9711
•• . 742
2631
9711
2711
2834
' 2869
2899
3231
3483
3489
3489
3489
3641
3641
3652
3675
3675
3679
3699
3721
3812
3812
3812
3823
3823
3861
3861
3861
3861
8062
9711
2899
3231
3399
3399
3443
3675
3679
3679
3764
3764
3949
Form Code
B309
B309
B309
B310
8310
B310-
B310
B310
831 0
B310
8310
B310
8310
B310
8310
B310
8310
B310
B315
8316
8316
B316
B316
B316
B316
B316
8316
B316
8316
8316
8316
8316
B316
B316
8319
8319
B319
B319
B319
8319
8319
8319
8319
8319 -
8319
8319
8319 '
8319
8319
8319
8319
8319
8319
8319
8319
B319
B319
8319
8319"
8319
B319
B319
8319
B319
B319
B319
B319
B319
6319
B319
6319
8319.
B319
Source Code
A57
A78
ASS
A71
A22
A53
A59
A72
A49
A72
A22
ASS
A75
A72
A92
A72
A56
A78
A24
A57
ASS
A94
A23
A09
A57
A58
A94
A94
A23
A94
A99
A69
ASS
A01
A29
A57
A36
A59
A09
A29
A57
A72
A99
A49
A49
A19
A29
A92
A49
A56
A59
A35
A35
ASS
A99
A99
A19
A32
A32
A57
A99
A53
A94
A29
AS7
A57
A99
A57
A57
A92
A49
A49
ASS
Origin Code
1
1
1
1.
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
Page 83
-------�
1993 BBS Data (GM Form) - TC Wastes Managed Off-site
Waste Code
D011
ocm
D011
001 1
D011
D011
D011
001 1
0011
D011
0011
0011
0011
D011
D011
D011
D011
0011
0011 .
D011
0011
0011
D011
D011
D011
0011
System Type
M999
M043
M019
M019
M141
M141
M019
M013
M141
M011
M049
M014
M099
M061
M129
M019
M019
M019
M019
M101
M999
M999
M999
M999
M999
M999
EPA ID
WAD988475885
MID000826503
NVD982041345
TXD0081 17400
MAD007325814 -
MED05895104?
MED980913883
NHD98220068S
NYD000632489
VTD002065597
WID988610028
MAD088984380
NYD079819090 •
PRD987369741
MED985471960
NVD986771822
NJD041211392
NVD982041345
VAD003121050
VAD981941420
WAD1 18965748
WAD009256819
WAD093639946
WA21 7002341 8
WA921405346S
WAD988511903
Volume (tons)
0,002
0.04
0.388
0.27
0,044
0.431
0.933
2.492
0.02
0.803
0.023
3.5
15.655
. 0.359
4.066
13.57
0.069
182.841
927
2.725
0.15
0.48
0.25
0.75
0.01
60.3
SIC Coda
4911
2899
7384
2869
5093
3625
3675
3676
8062
3692
5122
3555
• 8221
2752
2752
2759
3843
7384
3231
3999
3679
3721
3728
9711
9711
1041
Form Code
B319
B403
B403
8406
8407
B409
8409
B409
B409
B409
8409
849
B503
B503
B509
B519
B519
B519
8519
8519
Source Code
A94
ASS
A94
A59
A09
A29
A92
A94
A53
A89
A49
A94
A37
A72
A27
A 38
A37
A59
A22
Origin Code
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
' .3
1
1
1
1
1
2
Page 84
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D007D008
D004D005
D004D005DQ06DQG7DOG8
D004D007
D004D009
D005D006D007D008D009
D005D006D007D008D01 0
D005D008
D005D011
D006D008
D006D008D009
D006D009
D007D008
D007D008
D007D011
D008D009
D008D009D011
D008D011
D008D011
D008D011
D008D01 1
D008D011
D008D011
D008D011
D008D01 1
D008D011
D009D010D011
D009D011
D009D011
D010D011
D005D008
D008D009
D008D009
D008D01 1
D004D006D007D008DO 1 0
D004D008
D004D010
D005DOQ6D007D008
D005D006D007D008
D005D006D007D008DQ1 1
D005D008
D005D011
D006D007D008D010
D007D008
D007D008
D007D008
D007D008
D007D009
D008D009D011
D008D011
D008D011
D008D011
D008D011
D009D011
D004D005D006DQ07D008
D007D008
00100011
D008D009
D0080010
D008D009
D004D008D009D01 1
D005D007D008
D006D007
D006D007
D006D007D008
D006D007D008D011
D006D008
D008D011
D008D011
D008D011
DOQ8D011
D005D006D009
System Typ«
M999
M141
M141
M141
M141
M043
M141
M141
M043
Ml 41
M141
M141
M041
M043
M119
M141
M141
M125
M041
M041
M141
M079
M041
M141
M049
M061
M141
M141
M141
M141
M141
M019
M043
M019
M141
M043
M041
M071
M111
M141
M141
M141
M141
M141
M141
M111
M141
M141
M041
M141
M141
M141
M019
M141
M041
M039
M041
M141
M141
M141
M079
M051
M077
M082
M141
M079
M141
M141
M141
M124
M141
M041
EPA ID
WAI 89 1406349
PAD043394583
FAD004322186
PAD043394683
VAD000819466
PAD003935426
TXD000449694
RID001201508
PAD002368892
VA61 70061 463
VAD98QS51782
VAD000819466
PAD003935426
PAD003935426
VAD003121928
MAD086538394
VAD000820662
MIT270013709
NED000325167
MID005357934
NHD085575520
NYD00221141S
MED071749329
MDD981 105265
NV1890011991
PAD041731670 '
NV9170022173
MD9210020567
VAD000819466
NJD0014957S3
PAD982364564
MDD048581763
MDD048581763
NJD002342517
VA1 17002481 3
VTD002084705
PAD075511816
PA41 700001 58
PA4170000158
PAD981 947294
PAD001680719
PAD0422S0712,
PAD002316305
PA0000441907
PAD002316305
PA8890031869
PA8890031869
PAD982364564
NYD000689059
MAD98067306S
MD821 3822762
PAD001680719
R1D000791061
NYD085503894
PAD004393138
VA721 3720082
PAD075511816
UTD980808S13
MID006015960
UTD980806236
PRD980298764
UTD980634760
PAD987322286
PAD987322286
VA6170061463
VA2800005033
VA1170024813
NYD980647861
NYD980768642
NCD0671 85744
NYD980777437
WV0003095536
Volume (tons'
5.03
0.1
0.282
0.05
0.007
• 2.502
0.01
0.075
0.01
0.014
0.058
0.03
0.116
0.064
0.002
0.02
0.012
0.053
0.01
0.022
1.45
0.084
0.004
0.09
0.036
0.045
0
0.129
0.131
0.025
0.01
0.007
0.012
0.387
0.25
0.248
0.003
0.1
1.75
0.107
0.057
0.017
0.025
0.297
0.016
0.009
0.001
0.06
0.276
0.483
0.002
0.015
0.25
0.305
0.89
0
0.031
1.65
0.002
0.275
0.1
5.205
16.1
17.3
4.304
2.472
0.59
0.917
0.685
4.8
8.028
0.103
SIC Code
4911
2819
2899
2819
2111
8732
2869
3951
2891
9711
3672
2111
'8732
8732
2869
3679
2834
2834
2873
3231
3679
3823
4911
8734
9711
2816
9711
9199
2111
8734
3671
3669
3669
3669
3731
3674
8221
4581
4581
3671
3769
8221
3769
3728
3769
8733
8733
3671
3861
2834
8733
3769
3961
2835
8731
9999
8221
3761
2023
3764
2834
3499
2851
2851
9711
9661
3731
2711
3569
3575
7375
3861
Form Code
8
B001
8001
B001
8001
B001
B001
B001
8001
B001
B001
B001
B001
B001
B001
B001
B001
B001
8001
B001
B001
B001
B001
B001
B001
B001
8001
8001
B001
8001
B002
B002
B002
B002
8003
B003
BOOS
BOOS
BOOS
B003
BOOS
BOOS
B003
B003
BOOS
BOOS
BOOS
B003
B003
B003
B003
BOOS
8003
BOOS
B004
8004
8004
8009
B009
B099
8101
B101
B101
8101
B101
8101
B101
B101
8101
8101
8101
81 02
Source Code
A
ASS
A94
ASS
A94
A59
A58
ASS
A58
ASS
ASS
A94
A59
A59
ASS
A99
A94
A94
A94
A94
A59
ASS
A57
ASS
ASS
A94
A57
A57
A94
A94
A57
A53
A53
A39
A59
A59
A94
A21
A21
A59
A94
A94
A94
A21
A94
A94
A94
A58
ASS
A94
A94
A94
A92
ASS
A94
AS7
A94
A99
A94
A99
A94
A06
A31
A31
A21
A59
A99
A31
A35
A92
A04
A94
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
t
1
1
1
1
1
Page 1
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D005D007D008
D006D007
D006D007D008
D007D008
D007D008
00070008
000700090011
D0080009
0008D009DQ100011
D008D009D010D011
D008D011
D004D006D007
D004D006D007D008
D004D005D007D008D01 0
D004DOOSD007D008D01 OD01 1
D004D006D007D008D01 1
D004DOOSD008
D004D007D008
D004D0070008D010
D005D007D008
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008D011
D006D011
D0070008
D007D008
D007D009
D008D009
D008D010
D010D011
D006D007D008
D005D006
D005D009
D006D007
D006D007D011 '
D004D006DOQ7
D0040007
D005D006D007D008D010D01 1
D006D007
D006D007
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008D009
D006D007D008D010
D007D008
D007D008
D007D008
D007D008
D007D008
D007D011
D007D008
D006D007
D006D007D008
D007D008
D007D008
D008D011
D004D006D007D008D009D01 OD01 1
D005D007D009
D006D007
D006D007D008
D006D007D008
D006D007D008D009
D006D007D008D009
System Type
M141
M141
M141
M079
M079
M061
M141
M081
M091
M141
M141
M014
Ml 41
M141
Ml 41
M014
M077
M014
M041
M111
M141
M129
M014
M141
M119
M141
M019
M071
M141
M141
M129
M119
M141
M134
M079
M141
M041
M141
M141
M081
M137
M141
M122
M122
M141
Ml 41
M079
M141
M014
M141
M141
M141
M141
M141
M134
M077
M141
M091
M141
M079
M041
M061
M141
M141
M141
M111
M041
M041
M141
M141
M079
M129
M077
EPA ID
UTD009094012
UT0570090001
VA51 70022482
PAD000441907
PAD000441907
TXD000836437
VTD988366167
NYD070862701
ME7170022019
ME71 7002201 9
MD61 50004095
TXD0589S8265
TXD058958265
VA5170000181
VA1 17002481 3
TXD058958265
PAD041895566
TX0058958265
VAD990800138
PAD000766162
TX321 3820738
PAD981 103617
TXD058958265
TXDOS89S8265
TT0570090001
PA5213820892
WY5S71924179
VADOS8621996
VA61 70061 463
VA61 70061463
PAD051 452878
SDD0061 98980
VA61 70061 463
TXD0081 13441
NYD134319664
MAD001013515
NJD092229079
R11 170024243
PA31 70022104
PRD090413568
PA6213820503
VA1 170024813
TXD05895826S
TXD058958265
VA61 70061 463
VA6170061463
PAD002333490
VA1 17002481 3
TX00589S8265
VA6170061463
VA6170061463
VA61 70061 463
VA61 70061 463
VA5170000181
TXD041 128083
PAD063872337
VA51 700001 81
PAD004365870
PAP000005738
PA0003038056
VAD988224408
TXD063067466
VA61 70061463
TXD008135618
PAD000765891
OKP4101 39099
PA0890090004
PA0075485995
PAD987322286
PAD005000500
VAD010070043
WVD045875291
RID030284293
Volume (tons)
0.24
0.075
2
40.711
22.05
10.2
0.22
0.2
0.122
0.195
0.04
2.23
2.94
0.131
0.333
2.26
6.667
1.24
8.2
0.765
11.68
0.994
0.23
0.68
25.848
0.447
0.026
13.25
1.336
0.117
0.5
0.505
0.514
1.17
0.415
4.208
1044.2
- 23.352
0.001
'0.438
0.415
1.061
4.67
2.08
3.735
0.623
2.4
0.68
6.17
10.615
0.435
O.S36
0.54?
0.051
53.3
28.667
6.517
357.54
3.753
1.54
0.234
0.9
0.051
4.82
0.315
0.797
0.974
8.486
7
0.726
258.009
39.4
0.229
SIC Code
8221
9711
9711
3728
3728
3728
8734
3082
9711
9711
8099
7699
7699
3731
3731
7699
3471
7699
3731
2514
3449
3471
7699
7699
9511
3471
3761
7699
9711
9711
2759
3069
9711
2821
8734
3471
2761
9711
4225
3841
9711
3731
7699
7699
9711
9711
3313
3731
7699
9711
9711
9711
9711
3731
3471
3541
3731
7699
9999
3861
4011
3724
9711
3471
4922
3444
8731
2821
2851
3613
3724
2821
3674
Form Code
8102
B102
B102
B102
B102
B102
B102
8102
B102
B102
B102
B103
B103
8103
B103
B103
B103
B103
B103
B103
B103
B103
B103
B103
8103
B103
B103
B103
B103
B103
B103
81 03
B103
B103
B103
B103
8103
B104
B105
B105
81 05
B105
B106
B106
81 06
81 06
8106
8106
8106
8106
8106
8106
8106
8106
BTO6
B106
8106
8106
8106
8106
B107
8109
8109
8109
B11Q
B110
8113
8113
B113
B113
8113
8113
8113
Source Code
A94
A57
A22
A19
A21
A29
A94
ASS
A31
A31
A94
A01
A22
A22 •
A22
A01
A22
A22
A02
A56
A19
A22
A22
A22
A02
A29
A23
A27
A22
A22
A49
A22
A22
A94
A94
A23
A59
A02
ASS
A58
•A22
A58
A01
A07
A22
A03
A89
A03
A22
A03
A19
A92
A03
A01
A01
A06
A03
A03
A69
A27
A99
A01
A22
A03
A05
A22
A94
A94
A31
A60
A09 «
A09
A19
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 2
-------�
1993 BBS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
DOQ6D0Q7DQ09D010D01 1
D006D007D009D011
D006D007D011
D006D008
D007D008
DOQ8D009
D009D010
D009D011
D004D006
D004D008
D005D006D008
D005D007D009
D006D011
D006D011
D006D011
D007D008
D007D008
D0070008
D007D008 •
D007D008
D007D008
D007D01 1
D007D01 1
D007D01 1
0008D009
D008D01 1
D008D01 1
D0080011
D008D01 1
D008D011
D009D01 1
D009D011
001 00011
D01 00011
D004D006D007D008
D004D010
D004D006D007
0004D008D009
D006D009
D004D005D008
D004D005D008
D004D006D007
D004D006D007D008D01 0001 1
D004D007D008
D004D008
D004D010
D004D010
D005D006D007D008
D005D006D008
D005D008
D006D007
D006D007
D006D007
D006D007
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008D011
D006D007D011
D006D008
D006D008
D006D008D011
D006D009
D006D011
0007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D00700080009
D007D009
System Type
M041
M141
M141
M141
M111
M032
M141
M091
M099
M141
M079
M041
M141
M141
M141
M077
M041
M129
M132
M077
M119
M043
M129
M132
M141
M129
M077
M141
M023
M041
M077
Ml 41
M061
M099
M091
M137
M019
Ml 41
M012
M061
M141
M141
M999
M041
M111
M141
M137
M041
M999
M999
M061
M041
M141
M999
M129
M141
M999
M999
M999
M014
M999
M999
M141
M999
M129
M041
M141
M999
M141
M141
M999
M061
M132
EPA ID
PA0890090004
VAD023741705
VAD981112618
PAD990827610
PAD004335162
NYD126912054
NV91 700221 73
PA0890090004
PAD000800243
PAD068570936
PAD067362327
PAD075485995
PA41 7002241 8
VAD980551782
TX0170099915
PAD014130439
PAD004338000
UT0571724350
UT0571 724350
PAD987371440
PAD987371440
UT0571724350
UT0571724350
UT0571724350
PA41 7002241 8
NJD002452324
MDD0055694S4
MED058951047
NM0890010515
NM0890010515
NY5890008993
NY6890008992
OK0690540000
OK0690540000
PAD982704389
WV0004319935
VA721 3720082
VAD000820662
PAD004336145
PAD044366003
PAD044366003
PAD002352102
WA2170023418
VAD06S385296
PA8890031869
VA1 170024813
PAD0791 84099
PRD980759443
WA7890008967
WA2170Q23418
TXT490014552
WV017QQ23691
WV01 70023691
WA8570024200
PA41 7002241 8
PA41 7002241 8
WA2170023418
WA91 70023361
WA2170023418
UTDOQ9081357
WAD009256819
WA2170023418
TXD00736S984
WA51 70027291
TX0170099915
PAD098439037
VT0001 075834
WAD061670766
PAD003047974
VAD938186110
WA0081487753
TXD037952884
VA4570024477
Volume (tons]
1.552
8.825
3.275
9.625
3.025
0.23
0.162
0.173
. 259.726
0.15
0.8
2.134
0.603
0.745
0.22
1718.36
1.75
0.029
0.03
390.538
3.311
0.325
0.017
0.395
0.324
1.147
0.229
0.39
0.045
0.075
1.262
' 0.055
0.521
0.354
18.531
67.936
0,005
0.005
0.02
0.391
0.782
12.26
0.48
1.45
0.34
0.238
23.912
1.8
0.11
0.34
3.19
4.625
9.83
0.04
3.685
4.566
0,18
0.18
40.78
107.518
0.76
0.16
4.36
0.05
0.11
0.1
1.555
10.24
0.81S
0.013
8.61
1.58
0.35
SIC Code
8731
3764
3764
3471
3312
• 7538
9711
8731
4922
8221
2816
2821
3731
8711
9711
2869
3081
9711
9711
9999
9999
3479
3479
3479
3731
3351
3611
3625
9711
9711
8731
8731
3799
3799
8731
3229
9999
2834
3312
3229
3229
3566
9711
2869
8733
3731
4922
3399
9999
9711
3498
3764
3764
4581
3731
3731
9711
9711
- 9711
3761
3721
9711
3721
9711
9711
3231
3724
3728
3728
3731
2298
7699
9199
Form Code
B113
B113
B113
B113
B113
B113
B113
B113
8114
8114
8114
B114
B114
8114
8114
B114
B114
B114
B114
8114
B114
B114
B114
B114
B114
B114
8114
B114
B114
B114
B114
8114
B114
B114
8115
B116
B117
81 17
B117
8119
B119
B119
81 19
B119
B119
B119
B119
8119
8119
B119
B119
8119
B119
B119
8119
B119
B119
B119
B119
B119
B119
8119
8119
B119
8119
8119
B119
8119
8119
8119
8119
8119
8119
Source Code
A99
A49
A49
A23
A56
A99
A04
A94
A04
A56
A75
A94
A22
A09
A49
A49
A49
ASS
A58
A69
A69
ASS
A53
ASS
A19
A92
A49
A3S
A94
A94
A94
A94
A37
A37
A78
A
A57
A94
A56
A59
A59
AS9
A59
A69
A58
A59
ASS
A75
A29
A29
A01
A01
A35
A99
A49
A29
ASS
A99
ASS
A01
A53
Origin Coda
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
' 2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
2
1
1
1
1
1
1
1
. 2
1
1
1
1
1
1
2
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
2
1
2
PageS
-------�
1993 BRS Data (QM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Cod*
DOQ7D010
D007D011
D008D009
D008D009
D009D011
D009D011
D009D011
D010D011
D005D007D008DCX59
D006D007D008
D007D011
D005D007D008D010
D005D007D008D01 0
D006D007
D006D007D008
D006D007D008
D006D007
D008D009
D006D007D008
D006D007D008
D006D008
D006D008
D006D008
D005D007D008
D005D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008D011
D006D008
D006D008
D007D008
D007D008
D007D008
D007D008
D004DOOSD006D007D008D009D01 OD
D004D006D007D008D010
D004D006D007D008D010
D004D007D008
D004D008
DOQ5D006D007DOG8DOQ9D01 OD01 1
D005D006D007D008D010
D005D006D0G7DQ08D010
D005D006D007D008D010
D005D006D007D008D01 0
D005D006D008
D005D007
D006D007D008
D006D007D008
D006D007D008
D006D007D008D009
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008D009
D006D008D010
D007D008D01 1
DOOBD009
D008D009
D008D010
D008D011
D004D006D007D008D01 1
D004D007
D004D007
D005D006D007D008D01 1
D006D007D008
D006D008D009
D006D008D009
D009D011
D006D008
System Typ«
M141
M999
M077
M111
M077
M019
M019
U129
M132
M141
M041
M061
M141
M141
MOSS
M137
M141
M061
M029
M141
M021
M111
M029
M039
M129
M061
M141
M061
M141
M099
M141
M023
M061
M077
M061
M041
M131
M141
M14t
M111
M137
M061
M041
M061
M111
M141
MOST
M051
M141
M141
M141
M061
M061
M061
M061
M141
M041
M141
M141
M061
M141
M061
M039
M019
M061
MOSt
M141
M141
M061
M132
M099
M11t
EPA ID
PADQ42Q94938
WAD061 670766
MIT270010598
PAD004498010
MIT270010598
MA721 00251 54
MT8571 924556
MOD000687392
TXDQ51 376143
TX2571 724333
UT921 0020922
TXD006287015
TXD006287015
VA61 70061 463
TX0571 924042
TXOS71 924042
PAD045877628
NYD096297544
PAD9811 04326
VA6170061463
PAD075988071
PAD002375376
PAD002375376
R1D001620210
VA6170061463
PAD987278496
TDC2S71 724333
TX2571 724333
TXD000633982
PAD005031737
PAS21 3820892
PADQ02346674
PRD0901 93277
PAD002273845
VAD0008206S4
TXD056263528
VA1 170024813
VA1 170024813
TXD0081 17186
PAD000766063
PA0890090004
PAD001 127331
PA621 3820503
PA6213820503
PA621 3820503
PAD002334753
PAD065651671
TXD062866637
PAD039437801
VA81 700241 70
VTP000004193
PAD096262522
PAD003031903
TXD048916357
TXD007321904
TXD007321904
PAD060689130
PA521 3820892
VA6170061463
NCD981861438
VA51 70022482
NJD002459485
NJD002452324
WYS571924179
VAD046991097
PR2170027203
PAD005000500
TX2571 724333
UT0571 724350
UTOS71724350
M1D050615996
PAD060682622
Volume (tons]
3.3
7.35
0.135
0.75
0.01
0.03
0.026
0.252
4852.762
20
7.9
. 0.007
1.77
1.41
0.239
0.17
0.16
0.018
21.55
0.617
4.84
0.042
44.5
1.6
0.688
0.44
36.412
1.48
3.51
0.06
160.939
0.152
51.991
10
113.107
0.228
21.21
0.51
0.51
3.3
1.2
3.278
11.168
0.032
84.356
0.628
2.4
30.44
21.45
1.266
1.096
1.901
18.5
0.917
0.2
- 26.92
3.92
£154
0.141
0.002
16.69
0.815
0.591
0.688
0.021
2.064
2.715
4.063
0.47
1.744
1.023
0.229
47.414
SIC Code
3229
3728
8221
3312
8221
9711
9711
4911
2851
9711
9711
3812
3812
9711
.3728
3728
3827
• 2821
4111
9711
3089
3312
3479
3471
9711
3714
9711
9711
8221
3463
3599
3356
3451
3494
4011
2812
3731
3731
4953
3312
8731
3944
9711
9711
9711
2821
3317
3086
3479
9711
5511
3354
3559
3672
3674
3674
3535
3599
9711
4911
9711
3496
3351
3761
2824
9711
3613
9711
9711
9711
3711
3229
Form Code
B119
8119
B119
B119
B119
81 19
B119
8119
B201
B201
B201
B202
B202
B202
8202
B202
B203
B203
B204
8204
8204
B204'
B204
B205
B205
8205
B20S
B205
B205
B20S
8205
8205
8205
B205
B205
8206
8206
B206
B206
B206
B206
B206
B206
B206
8206
8206
B206
8206
8206
8206
B206
B206
B206
B206
8206
B206
8206
B206
8206
8206
B206
B206
B206
8207
8207
B207
B207
8207
B207
B207
B207
B208
Source Code
A22
A94
A21
A94
A49
A99
A99
A04
A01
ASS •
A07
A07
A29 -
A01
A01
A19
A09
A05
A01
A05
A99 '
A19
A29
A54
A06
A03
A29
A19
A40
A53
A92
A51
A49
A21
A54
A54
A54
A54
A57
A51
A40
A54
AS4
A54
A54
A54
A51
A54
A54
A93
A51
ASS
A25
A54
A54
ASS
ASS
A54
AS7
A54
A19
A54
A60
A78
A65
A29
A19
A59
A59
A37
A99
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
2
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
2
1
1
1
1
1
1
Page 4
-------�
1993 BBS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Coda
D006D008
D004DOOSD006D008D009
D004DOQ5DOQ6D008DOQ9 •
D005DOO?DS»8
D005D007D009
D006D007
D006D007
D006D008
D0070008
D007D008
DOQ7DQQ8
DOQ7D008
D006D007
D006D007D008
D006D007D010
DCX)70008
D007D008D011
D004D006D007D009D010 '
D005D007D008
D006D007
D006D007D008
D006D007D008D011
D006D007DQ10D011
D006D008
D006D008
D006D008
D006D0080010
D007D008
D007D008
D007D008
D008D009
D008D009
D008D009
D008D009
D008D009D010
D008D01Q
D008D010
D008D011
D004D007
D006D008
D007D008
D007D008D011
D008D009
D004DOOSD008
D004D005D008
D004D006D008
D004D006D008D010
D004D007
D004D007D008D010
D004D008D009
D005DQQ6D007D008
D005D008
D006D007DQ08 .
D006D007D008
D006D007D008
D006D008
D006D008
D006D008
0006D008
D0070008
D007D008
D007D008
D007D008
D007D008
D007D008D010
D007D008D010
D007D008D011
D008D009
D008D010
D010D011
D004D006D007D008
D004D006D007D008
System Type
M132
M141
M141
M141
M043
M061
M141
M141
M043
M125
M019
M141
M141
M141
M061
M141
M051
M061
M041
M141
M083
M141
M032
M029
M132
M999
M141
M041
M132
M061
M111
M129
M141
M141
M061
M061
M141
M019
M111
M141
M119
M043
M132
M132
M141
M132
M132
M077
M141
M119
M132
M111
M132
M129
M111
M061
M112
M111
M141
M111
M141
M129
M141
M111
M132
M132
M132
M141
M132
M132
M132
M111
EPA ID
PAD060682622
RID001201508
RID001201508
PAD043583848
PA41 70000158
PAD002343630
VA51 700001 8t
PAD003403953
PAD042622787
VAD066003161
WY5571924179
VA1213720815
VA1 17002481 3
TX321 3820738
PAD041731670
VA321 1220931
VA6170061463
PAD086681392
TXD988073698
VA61 7006 1463
PAD000436261
VA6170061463
VA0210002002
PAD004326542
PAD0021 24386
WA7890008967
PA521 3820892
VTD001 086149
VTD001086149
VAD000820654
NJD002175313
MO8571 924549
MO8571 924549
PAD002316305
MID981 194269
ME71 7002201 9
ME71 7002201 9
MA2170022022
VAD005027560
VA1 17002481 3
VAD046979498
PAD981045602
NJD002173946
VAD001807031
VAD001807031
UTD000826446
UTD000826446
PAD987390010
TXD007399637
VA2800005033
PRD980644470
PAD042094938
VAD003175262
SD2571 924644
PAD004344222
VA4690590019
PAD044366003
PAD002279149
UTS210090002
PAD002330116
VA321 1220931
SD2571 924644
TXD007399637
PAD987371440
VAD988213146
VAD9882 18038
PAD097876965
MS6210809871
PAP000006016
TXD087491973
TXD0081 06999
PAD002292068
Volume (tons]
22,73
2.293
0.786
0.225
0.152
0.247
2.18
1.45
1.063
36.551
0.004
0.012
1.342
7.09
2.545
0.507
30.314
3.65
0.8
0.793
7
0.162
1.176
• 0.24
23.8
0.22
0.09
1.826
2.054
1.907
• 2,2
0.52
0.26
0.115
12.25
0.442
0.47
0.125
969.447
2.025
0.67
7.26
4.051
77.54
77.21
65.172
3014.134
222.68
91.3
0.4
18.747
3.622
62.31
262.28
0.128
118
5.7
1080.3
7.725
0.135
148.88
1.868
53.436
0.4
175.6
269.25
20.144
35.25
0.5
4668
330.34
3
5.51
SIC Code
3229
3951
3951
7699
4581
3714
3731
8221
3466
3713
3761
9711
3731
3489
2816
2851
9711
4789
4512
9711
2869
9711
9711
3229
3641
9999
7549
3541
3541
4011
2834
9711
9711
3769
2821
9711
9711
7384
2491
3731
2754
8734
2892
3229
3229
3331
3331
2491
2911
. SDOI
4911
3229
2869
9711
3315
4581
3229
3679
9711
2653
2851
9711
2911
9999
3441
3441
3625
9199
9999
3331
2865
2869
Form Code
B208
B209
B209
B209
B209
B209
B209
B209
8209
B209
B209
B209
B210
B211
B211
B211
B211
B219
B219
B219
B219
B219 ,
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219
B219-'
B262
B301
B301
B301
B301
B301
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B302
B303
B303
Source Code
A99
A57
A58
A58
A21
A21
A21
A21
A29
A38
A21
A21
A29
A21
A09
A21
A21
A19
A01
A19
A57
A19
A37
A04
A92
A54
A09
A09 '
A21
ASS
A89
A89
A99
A57
A57
A57
A09
A92
A29
A69
A94
A69
A09
A09
A59
ASS
A69
ASS
ASS
ASS
A69
A69
A21
A69
A19
A69
A69
ASS
A69
A21
A21
AS3
A69
A69
A69
A69
A94
A61
A53
A09
A19
Origin Code
1
1
' 1
1
1
1
1
1
1
1
.1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1.
1
1
1
1
1
2
1
1
2
2
2
2
2
2
1
1
1
2
1
2
2
2-
1
1
1
2
2
2
2
2
3
2
2
1
'1
PageS
-------�
1993 BBS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D0040006D007D008D01 0
D00SD006D007D008
D005D006D008
D005D007
D006DOQ7D008
D006D007D008
D006D007D008
D006D008
D006D008
D006D008D010
D004D006D008
D0040006D008
D004D007D008
D004D007D010
D004D008
D004D008
DOQ4DQ08D010
D004D008D010
D004D010
D005D007D008
D005D008
D005D008
D006D007D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D0060008
D006DQ08D011
D007D010
D008D009
D008D01 1
D008D011
D006D008
D006D007D008
D006D007D008D010
D006D008D010D011
D007D008
D004D005D006D007D008D009D010D
D004D006D007D008
D004D006D008.
D004D008
D005D006D007D008
DOOSD007
D006D007
D006D007
D006D007
DOOSD007
D006D007
D006D007D008
D006D007D008
D006D008
D006D008
D006D008
D006D008
D0060008
D006D008
D006D008
D006D008D010
D006D009
D006D009
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D008D009
System Type
M111
M043
M141
M111
M043
M011
M019
M137
M141
M132
M132
M132
M132
M043
M111
M132
M013
M111
M141
M141
M141
M111
M111
M011
M011
M011
M011
M111
M039
M111
M111
M112
M111
M132
M111
M111
M013
M013
M141
M132
M111
M132
M119
M141
MU1
M132
M141
M011
M043
M141
M071
M111
M132
M132
M109
M141
M132
M109
M061
M137
M141
M141
M132
M141
M141
M019
M132
M111
M141
M111
M111
M043
M141
EPA ID
WV004587S291
PAD00238792S
UT321 3820894
PAD096844311
PAD077883346
PAD074997677
PAD074997677
TXD096445069
UT321 3820894
PAD087562278
UTD000826446
UTD000826446
TXD007327547
WV0004319935
PAD043891530
PAD043891530
PAD043891530
PAD043891530
VA1 17002481 3
RID051507044
PAD051 129757
PAD042094938
TXD008097487
PAD002517381
VAD000820506 •
VAD000820514
VAD981730930
VAD981 730930
PAD001737899
PAD001737899
PAD021 444153
PAD150726826
PAD002289387
UTD980960702
TXDQ43802826
MIT270010598
MND980996805
MND980996805
PAD003025830
VAD098442148
PAD990752099
UTD980960702
TXD000719377
TX489011052?
PAD096837356
PAD004330965
PAD068570936
PAD980918866
VAD00313254S
VA5170000181
TX8571 524091
TX8571524091
TX8571524091
PA621 3820503
TXD008091712
VAS1 700001 81
PAD987332897
PAD003023371
TXD007323371
VA0054039961
PAD003053709
VA5170000181
TT0570090001
RID98747S373
TXD007321904
VA280000S033
VTD001086149
PAD003031903
VA5170000181
PAD001680719
PAD005029582
VAD000731232
MND000685610
Volume (tons]
23
0,125
11,789
0.426
. 5.075
141
.315
0,5
1.126
18.9
4661.71
11497.446
18.88
1,85
107.07
101.1
32.3
268.15
0.305
0.75
0.1
5
28.47
41.676
1725.7
988.7
22.45
11.527
36S.8
602.4
139
23.7
276
5.93
664.4
0.1
44.323
3.187
3.158
8.45
28.87
208.865
32
8.59
0.212
4.525
1.15
2.427
0.2
38.44
3.27
0.17
0.58
1.199
5.72
0.387
388.25
2.503
'2.06
44.822
0.075
0.227
0.166
56.88
0.18
0.033
2.511
68.3
0.21
0.015
50.6
0.626
0.28
SIC Code
2821
2834
9711
3489
2869
3291
3291
3711
9711
8811
3331
3331
3221
3229
3229
3229
3229
3229
3731
3499
3069
3229
2819
3321
3321
3321
3321
3321
3322
3322
3325
3325
3499
3339
3229
8221
3471
3471
3369
3549
3471
. 3339
3471
3489
3721
3511
8221
4111
3625
3731
4581
4581
4581
9711
3334
3731
2816
3315
3411
3714
3724
3731
9511
5093
3674
9661
3541
3554
3731
3769
5047
5171
3089
Form Code
B303
B303
B303
B303
B303
B303
B303
B303
B303
8303
B304
B304
B304
8304
B304
B304
B304
B304
B304
B304
B304
B304
B304
B304
B304
B304
B304
B304
8304
8304
8304
8304
8304
8304
B304
B304
B304
B304
B305
B306
B306
8306
8306
B307
8307
B307
B307
B307
B307
B307
B307
B307
B307
B307
B307
B307
8307
8307
8307
8307
B307
B307
8307
8307
B307
8307
B307
8307
B307
B307
B307
B307
8307
Source Code
A74
A49
A08
A93
A09
A78
A78
A49
ASS
A78
A78
A59
A09
A09
A39
A39
A78
A78
A59
A74
AS9
A59
A49
ATS
A78
A78
A78
A78
A78
A78
A78
A78
A78
A49
A78
A71
A72
A78
A78
A76
A22
A49
A75
A08
A92
ASS
A56
A29
A09
A29
A01
A01
A01
A56
A59
A29
A69
A25
A35
A40
A08
A29
A74
A72
ASS
A94
A38
A29
A29
A99
A40
A08
ASS
Origin Code
3
1
2
2
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
2
3
1
1
1
1
1
1
1
1
1
Page6
-------�
1993 BBS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D008DOQ9
D008D011
D008D011
D008D011
D008D011
D008D011
D008D011
D0090011
D009D011
D009D011
D009D011
D009D011
D006D007
D006D008
D007D008
D007D008
D009D011
DOQ4D008
D005D007
D005D007
D005D007
D005D007
D006D007D008
D006D007D009
D006D008
D0060008
D006D008
D006D008D009D011
D007D008
D007DQ08
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D009D011
DOQ4DOQ5D006DOQ7D008D009
D004D007
D005D006D007DOOB
D005DOQ6D007D008
D005D007D008
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007D008
D006D007D008
D006D007D008
DOOSD007D008
D006D007D008
DOQ6D007D008
D006D007D008
D006D007D008 '
D006D0070008
D006D007D0080010
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008D009D010
D006D008D010O011
D006D010
D006D010
D006D01Q
D006D010
DOQ7D003
System Typ«
M141
M011
M011
M141
M013
M141
M061
M141
M014
M141
M141
M141
M141
M111
M043
MOS3
M141
M132
M132
M141
M141
M111
M141
M141
M011
M041
M019
M141
M039
M141
M019
M132
M141
M132
M141
M141
M012
M141
M043
M111
M043
M043
M111
M141
M132
M141
M043
M061
M111
M132
M141
M043
M053
M041
M111
M141
M141
M141
M141
M141
M061
M132
M141
M043
M043
M141
M111
M141
M111 ,
M132
M043
M132
M141
EPA ID
MND000685628
NJDOQ1 289610
NYD092465509
NHD98220068S
NJD002342434
NJDOQ2342434
PAD98727099S
NY4571924451
ME9570024522
ME81 7002201 8
MI0571 924760
VA6170061463
PA5213820892
PAD060682622
VAD980554539
VAD980S54S39
NM6572124422 •
PAD003026531
UT0571 724350
RI1 170024243
UT321 3820894
UT921 0020922
UT3213820894
PA41 7002241 8
TX8571 524091
TX8571 524091
PA0890090004
UT0009081357
WYD073419517
WYD073419517
MND981 089790
NCD0031 62542
NYD980789218
NYD980592497
NYD000809327
NYD980790083
VTD002065597
TXD007321904
VAD046991097
PRD980759443
PRD980759443
PAD005031281
PAD002360485
VTDOQ1075894
TX71 70022787
VAS170061463
PAS21 3820503
PA621 3820503
PA621 3820503
PA621 3820503
VA6170061463
PAD004336319
PAD004336319
PAD074967639
PAD005028105
PA521 3820892
TXD007365984
TX2S71724333
TX2571724333
VAS170061463
PAD001 127331
PADOQ4372363
PAD003025830
PAD003053709
PAD003053709
PAD003053709
PAD004326542
PA31 700221 04
PAD987393196
PAD987383196
PAD007909427
PAD007909427
VA321 1220931
Volume (tons'
0.26
133
0.854
0.789
0.359
0.343
8.729
0.037
0.001
0.003
0.004
0.002
0.409
40.935
. 2.9
0.8
0.016
1.24
0.099
0.104
0.163
0
1.307
0.448
0.35
0.07
0.22
28.701
4.108
0.97
0.286
0.075
0.2
7.265
2.81
0.32
2.619
4.64
0.459
0.5
0.4
0.237
8.89
0.08
2.52
0.454
0.065
0.12
8.205
115.885
0.353
25.7
4
4.3
6.188
0.396
7.5
5.79
5.78
0.157
0.157
122.4
0.18
0.2
0.083
0.145
6.12
0.086
20.82
20.31
0.781
2.48
0.142
SIC Code
3089
3339
3676
3676
3812
3812
3679
9711
9711
9711
9999
9711
3471
3229
2851
2851
9711
3312
. 9711
9711
9711
9711
9711
3731
4581
4581
8731
3761
1221
1221
2731
• 3334
3695
3861
3861
3861
3692
3674
2824
3399
3399
3069
3713
3724
3728
9711
9711
9711
9711
9711
9711
2851
2851
2851
3321
3449
3721
9711
9711
9711
3944
3339
3369
3724
3724
3724
3229
4225
4911
4911
4911
4911
• 2851
Form Code
B307
B307
B3Q7-
B307
B307
B307
B307
B307
B307
B307
B307
B307
8308
B308 ,
B308
B308
B308
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B309
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
8310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
Source Code
A58
A40
A29
A38
A40
A40
A99
A57
ASS
A99
A94
A94
A59
A56
A59
A59
A49
A59
A55
ASS
ASS
A58
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
ASS
A78
A19
A78
A71
A78
A21
A21
ASS
A32
A21
ASS
ASS
ASS
ASS
ASS
A32
A32
A94
A21
A78
A21
ASS
A71
A71
A92
A32
A78
ASS
A53
ASS
A75
ASS
A71
A71
ATS
ATS
A21
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
Page?
-------�
1993 BBS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008D010
D007D010
D007D011
D008D009
D008D011
D008D011
D008D011
D007D011
D009D010D011
D004D005D006D007D008D009
D004D005D006D007D008D009
D004D005D006D007D008D009
D004D006D007D008
D004D009
D005DOOSD007D008
D005D006D008
D005DOOSD008
D005D006D008
D005D007
D006D007
D006D007D008
D006D007D008
D006D007D008D009D01 0
D006D007D008D01 1
D006D011
D007D008
D007D008
D007D008D009D010
D008D009
D008D009
D008D009
D008D009
D008D009D011
D008D009D011
D008D010
D008D011
D008D011
D008D01 1
D009D011
D009D011
D004D005D006D007D008
D004D005D006D007D008
D004D005D006D007D008D009
D004D005D006D007D008D009D01 OD
D004D005D006D007D008D009D01 1
DOQ4D005D006D007D008D010
D004D005D006D«»7D009
D004D005D007DQ08D009
D004D005D007D008D010
D004D005D008
D004D005D008
D004D006
D004D006D007D008
D004D006D007D008D009
D004D006D007DCX38D009
D004D006D007D008D01 0
D004D006D008
D004D005D008D010
D004D006D008D010
D004D006D008D010
D004D007DOQ8
System Typ«
M041
M141
M132
M043
M061
M141
M061
M141
M141
M141
M111
M141
M061
M141
M043
M132
M043
M141
M141
M043
M141
M111
M132
M141
M043
M111
M043
M014
Mill
M132
M141
M071
M111
M141
M111
M141
M019
M111
M112
M141
M043
M111
M111
M039
M023
M111
M043
M141
M043
M141
M043
M141
M999
M999
M999
M043
M141
M999
M041
M111
M111
M111
M111
M132
M111
M999
M999
M111
M132
M132
M132
M132
M999
EPA ID
PAD000650366
UTD033513631
PADQ03027182
TXD03904S968
TXD039045968
PAD045877628
VA61 70061463
VA6170061463
VA61 70061 463
RID001201508
WVD981740319
WVD981740319
TXDOOOT19948
VA61 70061 463
PR21 70027203
LAD008161234
MND0061 47268
PAD987277308
NCD980845044
PR21 70027203
NV91 700221 73
TXD008079642
TXD008079642
TXD008079642
PRD090490285
WVD004325353
VAD980554539
TXD0672S6172
TXD067256172
TXD0672S6172
PAD003003068
PAD990827610
PAD004336319
VA61 70061463
WVD088911854
TXCJ000821264
PAD987360047
PAD005031281
WVD000797480
VA61 70061463
MIT270013709
MID985568021
MIT270010Si8
NYD982277295
NM0890010515
NM0890010S15
NM0890010S15
MAD007325814
NM0890010515
RID980669253
MS2S70024164
MS2570024164
WA21 7002341 8
WA7890008967
WA2170023418
UTD991301748
VA61 70061 463
WA2170023418
PAD982674863
VAD00130749S
PAD043891530
PAD043891530
PAD044366003
TXD000836486
PAD004336277
WA2170023418
WA2170023418
WVD005004528
UTD000826446
UTD000826446
UTD000826412
UTD000826446
WA21 7002341 8
Volume (tons]
0.4
1.75
6.825
0.71
2.75
1.6
0.129
3.519
0.032
0.08
4.4
0.2
1.95
0.024
0.025
1.87
2.125
1.95
4.75
0.032
0.425
. 0.78
0.78
0.78
0.85
4.86
0.5
191.45
19.75
19.75
18.734
0.5
20.3
0.036
14.421
2.07
2.552
0.43
0.393
0.102
0.032
0.044
0.49
0.078
0.754
0.25
0.011
0.169
0.001
9.975
0.022
0.004
0.72
0.03
281.74
33.72
0.018
0.11
0.109
0.6
38.457
2013.45
120
9.65
69.17
31.89
20.7
2.8
. 13>.52
350.04
93.97
60.64
40.84
SfCCode
2851
3471
3585
3721
3721
3827
9711
9711
9711
3951
4011
4011
3533
' 9711
9711
2819
" 3679
3676
3674
9711
9711
2821
2821
2821
3221
2869
2851
2819
2819
2819
3541
3471
2851
9711
2821
8001
3499
3069
' 3423
9711
2834
4789
8221
9711
9711
9711
9711
5093
9711
3471
8021
8021
9711
9999
9711
9511
9711
9711
4512
3731
3229
3229
3229
2879
3221
9711
9711
3221
3331
3331
3331
3331
9711
Form Code
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
B310
8310
B311
B315
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B316
B319
B319'
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
Source Code
A94
A21
A21
A71
A71
A21
A21
A21
A22
A53
A53
A53
ASS
ASS
A99
A32
A32
A29
ASS
A91
A57
A33
A33
A33
A59
ASS
A78
A32
A32
A32
A25
A22
A78
A22
A57
A59
A72
A02
A22
A58
A94
A94
A94
A99
A94
A94
A94
AS9
A94
A59
A99
A99
A91
A94
A53
A53
A92
A59
A92
A49
A09
A09
A59
A36
A56
ASS
Origin Code
1
1
1
1
1
1
1
1
1
2
2
2
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
2
1
1
1
1
1
1
1
1
1
2
1
2
1
2
1
2
2
1
PageS
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D004D007D008D009D01 1
D004D007D008D009D01 1
D004D007D008D010
D004D008
D004D008
D004D008
D004D008
D004D008
D004D008
D004D008
D004D008
D004D008
D004D009
D004D010
D004D010
D004D010
D004D010
D005D006
D005D006
D005D006
D005D006D007
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008
D005D006D007D008D009
D005D006D007D008D009D01 1
D005D006D007D008D01 1
D005D006D007D008D01 1
D005D006D007D010
D005D006D008
D005D006D008
D005D006D008D011
D005D007
D005D007
D005D007D008
D005D007D008
D005D007D008
D005D007D008
D005D007D008
D005D007D008D009
D005D008.
D005D008
D005D008
D005D008
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
System Type
M132
M132
M111
M011
M141
M011
M111
M141
M013
M111
M132
M141
M141
M061
M141
M132
M125
M111
M119
M061
M129
M132
M011
M043
M111
M111
M111
M043
M043
M061
M132
M141
M111
M011
M043
M043
M111
M999
M141
M999
M041
M043
M109
M141
M999
M132
M111
M019
M111
M141
M077
M111
M141
M132
M132
M132
M132
M999
M141
M141
M999
M999
M111
M111
M111
M111
M132
M053
M043
M141
M132
M141
M119
EPA ID
PAD981 036551
PAD004322913
VAD063424857
RID001 198605
RID001 198605
RID001 198605
PAD004332300
RID001 198605
PAD004332300
PAD004332300
PAD068570936
PAD068570936
PAD003403953
PAD981111735
PAD981111735
VAD050990357
PA321 0090053
PAD003044609
PAD003044609
VAD003062742
SD2571 924644
PRD980759443
PRD980759443
PRD980759443
PRD980759443
PRD980759443
PRD980759443
PRD980759443
PAD096837356
PAD096837356
PAD987360062
PAD002316305
PAD004397881
PRD980759443
WVD980552202
PAD067362327
PAD003044609
WAD009276197
PAD1 205291 77
WA921 4053465
PAD041 399403
PAD004336368
RID051 507044
TXD008089096
WA21 7002341 8
TXD000835157
PAD043891530
PAD980554570
PAD043817444
PAD982364564
TXD1 02585858
TXD102585858
PA5213820892
TXD007365984
TXD01 0472272
VAD058621996
VA4570024477
WA21 7002341 8
UT3213820894
VA6170061463
WAD044589935
WAD009244864
PAD041731670
PAD041731670
PAD041731670
PAD003044609
PAD071 445423
TXD050859503
PAD005031281
PAD002324978
UTD041075896
PA521 3820892
PAD004316832
Volume (tons
0.15
0.2
15.93
13.965
0.5
87.755
3.2
0.25
24.1
32.4
4.99
0.05
14.17
0.25
3.5
47.8
0.014
0.104
0.11
0.4
1.176
2
0.046
0.038
0.119
4.2
10.7
2.6
1
52.7
4.9
0.096
38.868
0.7
4.02
6.79
75.708
0.01
15
0.14
0.329
4.568
0.55
0.5
1.17
724.38
70.744
1.458
278.813
0.37
23.2
6.2
0.471
21.96
0.61
4.737
0.45
1.23
129.598
0.146
325.68
18.37
31.614
13.423
6.51
20.038
0.604
3
9.404
1
8
17.409
0.4
SIC Code
3829
3842
3731
3229
3229
3229
3229
3229
3229
3229
8221
8221
8221
2813
2813
2911
9199
2819
2819
3081
9711
3399
3399
3399
3399
3399
3399
3399
3721
3721
7622
3769
2899
3399
8999
2816
2819
2911
3263
9711
2819
3231
3499
3999
9711
3412
3229
3496
.3624
3671
3354
3354
3471
3721
4512
7699
9199
9711
9711
9711
3221
3471
2816
2816
2816
2819
2851
2851
3069
3316
3441
3449
3471
Form Code
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319 *
8319
8319
B319
8319
8319
B319
B319
8319
8319
B319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
8319
B319
831 9
B319
B319
8319
8319
B319
B319
8319
8319
8319
8319
8319
8319
8319
B319
8319
8319
Source Code
A57
A57
A29
A57
A57
A78
A78
A91
A92
A92
A56
A56
A94
A35
A35
A36
A57
A32
A32
A57
A21
A49
A56
A56
A56
A57
A75
A91
A01
A01
A57
A99
ASS
A94
A02
A91
A78
ASS
A92
A21
A56
A22
A19
A57
A22
A89
A57
A21
A21
A53
A01
A19
A21
A29
A19
A29
A57
A92
A94
A59
A58
A78
A19
A29
A26
A08
A22
Origin Code
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
•1
1
1
1
1
1
1
1
1
1
1
1
2
2
1
Page 9
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Cod*
DQ06D007D008
D006D007D008
D006D007DOOB
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007DCX)8
D006DCX57D008
D006D007D008
D006D007D008
D006D007BQ08
D006D007D008
D006D007D008
D006D007D008DQ09D01 0
D006D007D008D010 '
D006D007D008D010
D006D007D008D010
D006D007D008D011
D006D007D010
D006D007D010
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006DCX58
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006D008
D006DOOS
D006D008
D006D008 ^
D006D008
DD06D008D009
D006D008D0090010
D006D008D009D011
D0060009
D006D009
D006D009
D006D009
D006D009
D006D009 -
System Typ«
M129
M132
M141
M141
M141
M999
M111
M132
M141
M141
M141
M132
M129
M141
M132
M132
M043
M052
M999
M132
M043
M141
M112
M132
M011
M111
M132
M999
M111
M111
M112
M111
M132
M132
M111
M011
M014
M011
M112
M111
M132
M011
M129
M141
M111
M111
M111
M141
M043
M043
M111
M111
M999
M132
M132
M132
M043
M132
M999
M111
M141
M111
M999
M999
M999
M111
M141
M141
M141
MQ12
M141
M132
M999
EPA ID
UT0571724350
UTOS71 724350
PA417Q022418
PA4170022418
PAD069777290
WA21 7002341 8
PA621 3820503
TX2571 724333
PA621 3820503
TX2571 724333
VA6170061463
PAD002334753
PAD002347003
PAD096266499
TT0570090001
WYD000776435
PRD980759443
PAD071 473425
WAD009262171
UTD041 075896
VAD023690183
VA1 170024813
PAD041731670
PAD041731670
PAD981112113
PAD981112113
PAD002334753
WAD027S30526
PA0002347003
PAD004379061
PAD096266499
PAD004372363
PAD004372363
PAD990753089
PAD086733540
PAD00433548S
PAD004335485
PAD004341558
VAD003444379
PRD980759443
PRD980759443
PBD980759443
PAD987271921
VAD988221917
RID059735944
TXD008092306
PAD069600633
PAD003053709
PAD003053709
PAD003053709
VAD990800138
TXD007340797
WADOS3814091
TXD0008373S1
TXD000837393
TXD097311849
PA0890090004
VA4S70G24477
WA2170023418
VAD988228359
UT321 3820894
VA8170024170
WAD053814091
WAD988466942
WA7890008967
PAD060682622
UTD980806236
TXD061555611
TXD088996186
VTO002084705
TXD008073926
RID063900690
WA7890Q08967
Volume (tons)
48.766
200.041
29.536
14.111
1.2
20.81
31.719
12.2
0.964
134.88
0.246
6.93
0.845
1.98
0.092
5.32
0.004
0.254
35.99
7.52
0.094
28.777
13.313
21.854
40.521
16.05
129.84
46.9
7.5
154.76
19.5
264.8
1071.6
140
92.6
10.62
24.365
11 '.337
3.89
1.3
1.5
0.2
2.024
4.602
2.1
47.95
195
23
0.201
0.117
5.425
1.7
0.06
0.75
0.75
68.95
0.1
- 0.025
0.09
0.05
0.28
8.2
0.39
2.8
0.19
192.8
0.275
0.34
0.46
6.64
0.97
2.825
0.01
SIC Code
3479
3479
3731
3731
8731
9711
9711
9711
9711
9711
9711
2821
3253
3322
9511
3341
3399
3714
3721
3441
2824
3731
2816
2816
2819
2819
2821
2879
3253
3312
3322
3339
3339
3341
3351
3366
3366
3366
3366
3399
3399
3399
3429
3449
3471
3491
3714
3724
3724
3724
3731
3827
3999
4911
4911
4911
8731
9199
9711
9711
9711
9711
3999
6552
9999
3229
3764
3573
3573
3674
3674
3731
9999
Form Code
§319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
831 9
B319
B319
B319
831 9
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319 .
B319
B319
B319
B319
8319
B319
B319
B319 '
831 9
831 9
8319
Source Code
A29
A29
A08
A21
A94
A08
A08
A08
A08
A29
A93
A69
A99
A91
A57
A94
A60
A26
A92
A29
A56
ASS
A32
A32
A93
A76
A29
A89
A32
A32
A59
A40
A40
A40
A78
A78
A56
A56 '
A57
A29
A21
A29
A39
A78
A29
A91
A92
A29
AS6
A21
A21
A21
A59
A29
A19
A56
A91
A78
ASS
A99
A99
A99
A99
ASS
Origin Code
1
1
1
1
1
1
1
1
1
1
1
' 2
2
2
2
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
.1
1
1
1
1
1
1
1
1
1
2
2
1
1
1
1
1
1
1
1
1
Page 10
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D006D010
D006D010
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
DOQ7D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008D009
D007D008D010
D007D008D011
D007D009
D007D009
D007D009
D007D010
D007D011
D007D011
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008DOG9
D008D009
DOQ8D009
D008D009
DQQ8D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D0080009
D008CXX)9
System Type
M043
M999
M141
M043
M111
M111
M141
M111
M132
M132
M041
M043
M061
M132
M043
M141
M119
M109
M141
M141
M141
M141
M999
M141
M141
M999
M141
M141
M132
M141
M137
M999
M999
M132
M043
M043
M129
M999
M043
M141
M999
M019
M012
M141
M141
M141
M141
M043
M141
M039
M141
M132
M019
M132
M141
M111
M141
M141
M132
M141
M141
M043
M111
M132
M141
M041
M019
M043
M141
M111
M141
M141
M043
EPA ID
VWD045875291
WAD000618140
TXD008089096
PAD041399403
PAD041399403
PAD014130439
TXD008084618
TXD051161990
TXD051161990
TXD990797714
PAD004338000
PAD098439037
PAD098439037
PAD990824161
VAD003259561
VTD000649780
VA0044736726
PAD001882372
PAD096837356
VTD001075894
VTP000004426
PAD981741150
WA21 7002341 8
VA61 70061 463
TX71 70022787
WA7890008967
VAD990710899"
VTD001075894
PAD002316305
PAD00231630S
PA0890090004
WA921 4053465
WA7890008967
TXD980809909
PAD003038056
PA41 70022418
VA0572890002
WA7890008967
PAD005031281
VA61 70061 463
WA7890008967
MND000823997
MSD008159717
MN0006172902
MND000824029
NJD002520484
NYD002127124
MSDQ541794Q3
MOD057894321
MID980614267
MND056073299
NYD002232304
MND0061 66409
NYD071474639
NYD002206480
NCD079044426
MAD080031180
MN0079723979
MOD054950670
MND006172902
MND980898019
MND078680790
MiOOOS358783
NYD980592497
NYD045606480
NJD052441664
MND006963508
MDD981 115132
MID980682827
MID000809756
ME8170022018
PAD000766170
PAD041399403
Volume (tons]
5.6
0.2
0.5
1.15
3.448
44.62
0.03
9S.6
95.6
29
0.45
1.1
0.2
0.733
4,2
0.075
9.8
0.6
0.1 OS
17.824
4
4
0.3
3.187
0.77
0.037
1
4.073
149.89
15.4
0.034
0.05
0.03
40.35
0.18
0.109
0.178
0.34
3.965
0.083
0.09
2.893
0.976
0.45
7
0.288
0.13
0.71
2.219
0.1
0.447
4.1
0.012
1.654
0.317
1.87
- 9.75
1.774
0.63
0.24
0.688
0.246
0.381
62.949
0.444
0.26
0.867
0.103
46.07
3.75
0.114
0.519
19.551
SIC Code
2821
3679
2819
2819
2819
2869
2899
2911
2911
. 2911
3081
3231
3231
3312
3471
3484
3612
3672
3721
3724
9621
9621
9711
9711
9711
9999
3663
3724
3769
3769
8731
9711
9999
2869
3861
3731
9711
9999
3069
9711
9999
1011
2621
2672
2672
2672
2821
2911
3081
3291
3291
3355
3366
3465
3499
3641
3641
3643
3679
3695
3695
3714
3714
3861
. 3861
4225
4512
4911
8221
8744
9711
2672
281.9
Form Code
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
8319
B319
8319
8319
B319
B319
B319
B319
B319
B319
B319
B319
B319
B319
831 9 ,
B319
B319 '
B319
B319
8319
B319
B319
B319
B319
B319
8319
B319
B319
B319
B319
B319
B319
B319
B319 .
8319
B319
8319
8319
8319
8319
831 9
8319
8319
8319
8319
B319
B319
B319
B319
8319
8319
B319
B319
8319
8319
8319
8319
8319
8319
B319
Source Code
A09
A02
A92
A92
A32
A91
A08
A08
A29
A78
A29
A29
A53
A22
A29
A21
ATS
A59
A59
A08
A29
A22
A99
A56
A59
A69
A69
A08
A29
A57
A99
ASS
ASS
A58
A59
A99
A59
A99
A99
A99
A99
A59
A99
A99
A92
A99
A56
A57
A59
A89
A99
A99
AS9
A92
A99
A99
ASS
A89
A57
A99
A99
A99
A93
ASS
A99
A78
Origin Code
1
1
1
• 1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
'1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 11
-------�
1993 BBS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009
D008D009D011
D008D010
D008D010
D008D010
D008D010 '
D008D010 -
D008D011
D008D011
D008D011
D008D011
D008D011
D008D011
DOOSD011
D008D011
D008D011
D008D011
D008D011
D008D011
D008D011
D009D011
D004D006D007D008
D004D007D008D01 1
D004D007D008D011
D005D006
D005D006DQ07D008
D005D006D007D008
D005DOQ6DQ07D008D01 1
DOOSD006D010
DOOSD007D008
D005D007D008D011
D006D007
D006D007
D006D007D008
D006D007D008
D006D0070008
D0070008
D007D008
D007D011
D007D011
D008D011
DQ04D007
D004D007
D007D01V
D006D007
D006D008
D007D008
D005D007D008
D006D007
D006D007
D0060007D008
D006D007D008
D006D007D008
D004D005D006D007D008D01 0
D004D005D006D007DOOSD01 0
D004D006D007D008DOQ9D010
D004D007D008
D0040007D010
O005D006D007
D005D0060007D008
D005D006D007D008
D005D006D007D008D011
System Type
M111
M141
M032
M043
M012
M141
M012
M999
M132
M043
M137
M141
M111
M119
M141
M141
M111
M019
M013
M141
M141
M141
M043
M141
M043
M011
M111
M013
M011
MQ43
M141
M014
MOSS
M061
M141
M041
M111
M061
M043
M041
M061
M125
M141
M111
M061
M141
M119
M141
M141
M031
M043
M043
M141
M141
M141
M061
M141
M111
M141
M141
M051
M141
M141
M043
M043
M999
M141
M132
M141
M111
M141
M043
EPA ID
TXD008091712
UTD009081357
SDD078668696
WVD003095S36
PAD000797712
PAD000797712
PAD004393138
WA7890008967
MOD043937895
OKD062267448
PA0890090004
NJDOQ07680S1
MID005357504
NCD9808419S1
NHD046312559
NE8571924648
PAD990753089
MOD057894321
MID005357934
MND056073299
MND079723979
MAD000846501
NYD002038586
NYD002038586
NDD08449777S
NCD980843866
PRD980759443
VAD000019448
VAD982573248
OKD062267448
MS621 0809871
TXD981 145766
VA51 70022482
VA6170061463
VA51 70022482
PAD000650366
PAD063752430
VA6170061463
PAD002292068
PAD074967639
VA617006T463
VTD005826821
VA51 70022482
PA000006S193
VAD00130749S
VAD084141902
PAD982S66804
VA6170061463
VAD005007679
PRD090383860
NYD001527829
PAD002327708
PAD002327708
UT3213820894
PAD987322286
PAD041731670
VA321 1220931
PAD001643691
VA5170Q00181
VA5170000181
VA6170061463
VA6170061463
VA6170061463
VAD0634248S7
VAD990800138
WADQ018654SO
PAD002316305
WYD048743009
UT321 3820894
PAD069020691
UT3213820894
TX0170099915
Volume (tons]
1.95
14.528
1.737
0.615
1.255
1.2
2.175
0.03
0.393
0.767
0.026
22.135
0.112
10.669
0.292
0.07
• 76.5
0.12
1.44
0.025
1.15
. 2.375
0.6
0.3
0.109
1.164
0.6
32.333
1.335
0.3S9
0.002
40.3
44567.947
0.34
5.797
0.725
11.2
18.8
5.52
2.025
5
49.37
4.565
0.45
0.35
21.76
5.4
2
7.679
0.2
1.8
0.003
3.825
2.774
3.15
2.9
1.398
2.067
1.7
8.81
0.127
0.024
41.668
. 39.5
1.1
10.2
588.8
0.838
43.3
0.39
. 0.723
5.838
0.68
SIC Code
3334
3761
3842
3861
4911
4911
8731
9999
2891
3695
8731
2676
3369
3548
3672
9711
3341
3081
3231
3291
3643
3674
3679
3679
3695
8734
3399
3675
3675
3695
9199
3672
9711
9711
9711
2851
9999
9711
2821
2851
9711
3697
9711
3713
3731
3949
3441
9711
2823
3613
3663
' 3674
3674
9711
2851
2816
3679
3751
3731
3731
9711
9711
9711
3731
3731
7699
3769
2911
9711
2851
9711
9711
Form Code
B319
B319
B319
B319
B319 .
8319
8319
831 9
B319
B319
8319
B319
B319
B319
B319
B319
831 9
B319
6319
B319
B319
B319
8319
8319
B319
B319
B319
B319
B319
8319
8319
8391
B403
B403
8403
8403
8403
B403~
8403
8403
B403
8403
8403
B403
B403
B403
8403
8403
B403
B403
B403
B404
B404
B404
8406
8406
B406
B407
8407
B407
B407
B407
8407
8409
B409
B409
8409
B409
B409
B409
8409
B409
Source Code
A99
A99
A99
A59
A57
A57
A94
A59
A59
A56
A69
A60
A92
A38
A99
A99
A59
A29
A99
A57
A57
A29
A29
A59
A09
A57
A57
A99
ASS
A94
A72
A21
A21
A21
A94
A69
A21
A92
A94
A21
A01
A21
A21
A21
A21
A01
A21
A37
A72
A49
A78
ATS
A58
A59
A49
A41
A93
A21
A29
A08
A08
A21
A21
A21
A99
A49
A55
ASS
ASS
A21
Origin Code
1
1
1
1
1
1
1
1
2
2
2
2
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
2
3
1
1
1
1'
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
Page 12
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D005D006D007D008D01 1
D005D006D007D008D01 1
D005D007D008
D005D007D008
D005D007D009
D006D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008D01 OD01 1
D006D008
0006DOOS
D006D011
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008
D007D008CX)10
D008D009
D008D009
D008D009
D008D009D011
D008D011
D008D011
D008D011
D009D011
D009D011
D004D007D008
D006D008D010
D007D008
D005D006D007D008
D005D006D007D008
D006D007
D006D007
D006D007
D006D007D008
D006D007D008
D007D008
D007D008
D006D007D008
D005D006
D005D006D007
D006D007D008D011
DOQ6D003
D006D008
D007D008
D007D008
0008D009
D008D011
D009D010
D004D006D008D010
D006D007
D006D007
D006D007D008
D007D008
D007D008
D008D011
D004D005D007
D005D007D008
D006D008
D006D008
D007D008
D004D006D007
D006D007D008
0006D008
D004D005
D006D008
D006D008
System Type
M129
M141
M041
M141
M041
M119 •
M141
M111
M043
M141
M111
M043
M014
M119
M141
M137
M141
M141
M042
M061
M061
M119
M111
M141
M141
M141
M013
M141
M043
M021
M141
M141
M043
M061
M129
M141
M111
M019
M043
M141
M141
M109
M109
M141
M119
M042
M141
M109
M112
M042
M141
M141
M141
M141
M077
M141
M071
M141
M119
M141
M141
M141
M129
M124
M141
M079
M141
M111
M111
M141
M011
M132
EPA ID
TX0170099915
TX0170099915
UTD009094012
UTD009094012
PAD075485995
PAD004328886
TXD093511996
PAD002360485
PR21 70027203
RID001 805670
PAD003046794
PAD003053709
PAD987345675
WVD000797480
VTCX)5573i038
VTD001086149
TXD048916357
PAD002316305
UTD988079042
VA61 70061 463
VA6170061463
UT521 0090002
NYD070862701
NC2750890004
PAD002316305
PA821 3820642
MND980996805
MAD001061001
WVD003095536
VTD002065597
VA6170061463
TXD008117186
TXD988073698
TXD047823265
TX01 7009991 5
TX0170099915
TXD988042404
TX3571 924643
TX3571 924643
TX321 3820738
TX321 3820738
PAD098214174
PAD003002581
PAD003037934
VTD039697347
UT0571 724350
VAD046964748
RID000652354
PAD000430686
TXD083558486
VTD055731038
NJD002144517
MAD001 060698
MAD000649707
TXD048772610
PA41 7002241 8
VA6170061463
VA61 70061 463
UTD0471 09269
RID001201508
RID980669253
PAD002515955
PAD981 104326
VAD054039961
UT321 3820894
PAD038966966
VTD001 075894
PAD041731670
PAD063874606
RID001201508
PAD004372363
PAD004372363
Volume (tons'
1.54
1.39
0.002
0.327
2.46
3.869
1.62
4.65
2.921
1.052
19.313
0.082
672.351
3.514
0.25
0.228
0.36
0.978
0.2
0.884
0.244
0.589
0.8
0.52
21
0.304
2.665
0.225
0.028
0.41
0.055
1.37
0.1
5.4
1.26
0.26
9.41
2.41
4.26
301.49
20.02
1993.607
554.406
35.55
0.15
148.574
0.195
0.25
2.975
306.12
21.57
3.382
15.99
0.114
1.261
8.3
0.094
0.1
0.1
0.225
1.628
1.455
28.075
1.043
0.77
8.825
1.125
1.925
54.804
239.09
0.241
1916.7
1090.6
SIC Code!
9711
9711
8221
8221
2821
2816
3231
3713
9711
2865
3229
3724
3341
3423
3423
3541
3571
3769
4225
9711
9711
9711
3082
9199
3769
4225
3471
3679
3861
3692
9711
4953
4512
2819
9711
9711
4512
4581
4581
3444
3449
3463
3479
3592
3999
9711
3585
3961
4953
2833
3423
2851
3679
3812
3432
3731
9711
9711
3471
3951
3471
3324
4111
3714
9711
3532
3724
2816
3321
3951
3339
3339
Form Code
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
B409
8409
B409
B409
B409
B409
B409
B409
B409
B489
B489
B489
B490
B490
B490
B490
B490
B490
B490
B502
B502
B503
B504
B504
B504
B504
B504
B504
B504
B504
B504
B504
B505
B505
B505
B505
B505
B505
BS05
B509
B510
B510
B510
B510
B511
B511
B511
B513
B513
B513
Source Code
A21
A21
A94
A94
A94
A57
A99
A21
A09
A57
A21
A92
A89
A21
A21
A08
A91
A99
A69
A21
A58
A21
A58
A94
A99
AS9
A92
A49
A59
A53
ASS
A54
A21
A38
A29
A29
A29
A01
A01
A29
A29
A26
A38
A59
A29
A76
A75
A76
A74
A75
A21
A75
A29
A04
A22
A22
A64
A38
A22
A92
A59
A03
A19
A60
A38
A21
A60
A78
A78
A59
A76
A76
Origin Code
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
3
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
2
2
2
Page 13
-------�
1993 BBS Data (GM Form) - TC Metai Wastes (Mixtures) Managed Off-site
Waste Code
D008D009
D004DQ06D008DQ10
D005D006
D005D006D007D008
D006D007
D006D007
D006D007
D006D007D008
D006D008
D006D008
D0060008D009D010
D006D010
£30070008
D007D008
D007D008D009
D008D010
D008D011
D007D008
D007D008
D004D005D006D008D01 0
D005D006D008
D006D007
D006D007D008
D006D007D008
D006D007D008
D006D008
D007D008
D007D008
D008D009D011
D006D007
D006D007D008
D006D008
D007D008
D007D008
D007D008
D007DOC58
D008D009
D006D007D008
D006D007D008
D008D009
D004D005D006D007D008
D004D005D006D007D008
D004D005D006D007D008D009
D004D005D006D007D008D009
DOQ4D005DQ06D007DOOSD010
OOQ4D005D006D007D008D01 1
D004D005D007D008D01 0
D004D006D007D008D009
D004D006D007D008D009
D004DOQ60007D008D010
D004D007D008
DOOSD006D007
D005D006D007D008
D005D006D007D008
D005D006D007D008D01 1
D005D007
D005D007D008D010
D005D008D010
DQ06D007D008
D006D007D008
D006D007D008
D006D007D008
D006D007D008D009D01 0
D006D007D008D011
D00600080010
D006D010
D007D008
D007D008
D007D008
D007D008
D007D008
System Type
M042
M141
M061
M111
M042
M081
Ml 29
WI141
M111
M999
M141
M077
M109
M119
M043
M132
M141
M061
M061
M061
M141
M061
M141
M109
M141
M061
M061
M141
M141
M061
M132
M111
M111
M141
M042
M061
MOS1
Ml 11
M141
M111
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
EPA ID
MD3210021355
TXD006287015
PAD000504746
PRD980759443
VAD003259561
RI00000017SO
SD2571 924644
VAD046964748
RID072216583
WA91 70023361
VA8170024170
PAD980917§75
VAD003132438
VAD08S125466
PAD049672389
OR0000048413
MAD001061001
TXD988053591
TXD9880S3591
PAD001 127331
PAD000504746
TXD007505233
PA41 7002241 8
VA51 70022938
VA51 70022938
PAD004372363
PAD074999863
VTD002068856
NJD000768051
VA61 70061 463
TXD007365984
PAD004336350
PA0043889740
VA1 17002481 3
UTD035348325
VA61 70061 463
NYD096297544
TX7170022787
PA521 3820892
ORD093481646
WA2170023418
WA921 4053465
WA21 7002341 8
WA2170023418
WA2170023418
WA2170023418
WA21 7002341 8
WAD009253246
WA2170023418
WA5170027291
WA2170023418
WA21 7002341 8
WA21 7002341 8
WA5170027291
WAD009256819
WAD009250820
WAD009249392
WAD009249392
WA1891406349
WAD027470111
WA2170023418
WA921 4053465
WAD008958548
WA2170023418
WA2170Q23418
WA7890008967
WAD009249392
WA2170023418
WA5170027291
WA7890008967
WAD988476115
Volume (tons;
3.125
3.18
0.225
• 8.5
0.15
1.491
0.379
0.4
0.482
0.42
0.001
1.16
0.468
5.8
0.543
60.137
0.029
4532.127
4.89
0.1
2.405
1.658
3.02
7.269
1.141
0.135
11.7
5.888
1.485
75.246
0.072
1.25
7.4
12
2.79
1.371
0.043
1.029
10.46
0.091
0.401
151.844
2.32
0.39
1.37
10.54
0.15
0.16
0.04
82.19
951.78
4.48
0.05
0.07
1.63
1.09
0.56
0.002
0.05
0.17
1.17
0.92
2.72
0.24
15
1.27
0.23
0.6
0.05
3.19
0.01
0.13
0.23
SIC Code
9711
3812
3081
3399
3728
3829
9711
3585
3471
9711
9711
3674
•3577
5169
4922
8221
3679
5015
5015
3944
3081
3714
3731
9711
9711
3339
2992
3491
2676
9711
3721
3231
3449
3731
7699
9711
2821
4952
3537
5171
9711
9711
9711
9711
9711
9711
9711
2812
9711
9711
9711
9711
9711
9711
3721
2611
3812
3812
4911
5085
9711
9711
2879
9711
9711
9999
3812
9711
9711
9999
1629
Form Code
8513
B519
BS19
8519
BS19
8519
8519
8519
B519
8519
8519
B519
B519
8519
B519
B519
B519
B602
B602
B603
B603
B603
8603
8603 •
8603
B603
8603
8603
B603
B604
B604
8604
8604
B604
B604
8604
B606
B607
8609
B609
Source Code
A01
A29
A38
A60
A38
A60
A73
A06
A29
A38
A27
A29
A38
A60
A69
A49
A06
A55-
A40
A60
A19
ASS
A60
A60
A99
AS6
A54
A60
A21
A60
A21
A21
A60
A21
A21
A09
A75
A06
A60
Origin Code
2
1
1
1
1
1
3
3
1
2
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
1
2
1
1
1
2
1
1
1
2
2
1
1
1
1
1
1
2
1
1
. 1
1
1
1
2
1
1
1
1
1
1
1
2
Page 14
-------�
1993 BRS Data (GM Form) - TC Metal Wastes (Mixtures) Managed Off-site
Waste Code
D0070008
D007D008
D007D008D009
D007D008D009D010
D007D009
D007D009
D007D010
D007D01 1
D008D009
D008D011
System Type
M999
M999
M999
M999
M999
M999
M999
M999
M999
M999
EPA ID
WAD988466942
WAD98S519070
WAD048440424
WAD988466942
WAD988476115
WA0008957961
WAD009249392
WA2170023418
WAD988466942
WA7890008967
Volume (tons]
0.38
27.4
0.008
0.38
0.58
0.005
0.03
0.38
0.2
0.003
SIC Code
6552
'
3679
6552
1629
5169
3812
9711
6552
9999
Form Code
Source Code
Origin Code
2
2
2
2
2
2
1
1
2
1
Page 15
-------�
APPENDIX E
-------�
MERCURY RECOVERY SERVICES, INC.
700 Fifth Ave., New Brighton, PA 15066 Phone: 412-843-5000 Fax: 412-843-5353
April 19, 1996
Mr. Paul Borst (5307)
USEPA
Office of Solid Waste
401 M Street SW
Washington, DC 20460
Dear Mr. Borst:
With reference to our telephone conversation of this date, this will confirm that:
1. Mercury Recovery Services (MRS) has a cost-effective, commercially-proven mobile
process for the removal and recovery of mercury from mercury-contaminated soil and
industrial wastes.
2. The MRS Process has been successfully used to remove and recover mercury from
more than 6,000 tons of mercury-contaminated soil excavated from over 5,000
metering sites along the natural gas pipeline system in New Mexico. During this
project, (a) the total mercury content of the incoming soil was 500-2,000 ppm, (b)
the total mercury content of the soil after processing was 1 ppm, or less, (c) all TCLP
readings on the processed material were below detection limits, (d) approximately
4,200 pounds of 99% pure mercury were recovered and sold to mercury refiners, (e)
all processed soil was utilized as fill with the approval of the New Mexico regulators,
and (f) MRS' nominal 12-ton/day mobile unit, which is mounted upon two over-the-
road trailers, operated 24-hours/day, seven days/week, for 18 months with downtime
of less than 0.5% and no lost-time accidents.
3. Due to lack of demand from natural gas pipeline companies, the above 12-ton/day
mobile unit has been moved to a metals smelter where it will treat intermediate process
streams beginning in May, 1996.
4. MRS is currently building a smaller 4-ton/day mobile processing unit (mounted on a
single over-the-road trailer) which is scheduled to begin commercial operation in the
United Kingdom in June, 1996.
5. MRS has recently entered into an agreement whereby a modular fixed-she processing
unit will be installed at a TSD facility in the Midwest sometime during the Fall of 1996.
This unit is intended to take in volumes of soil and waste that are too small to justify
SPECIALIZING IN RECOVERY & RECYCLING OF MERCURY
-------�
Mr. PauIBorst -2- April 19, 1996
6 MRS' modular equipment design provides a cost-effective method of handling jobs of
any size .... i.e., from the 4-ton/day operation referred to above, to a 76-ton/day
operation recently quoted by MRS for clean-up of a large mercury-contaminated site.
Facilities having capacities greater than 76 tons/day are economically and operationally
viable. ,
7. In addition to the above commercial operations, the efficacy of the MRS Process to
treat chlor-alkali, fluorescent bulb, battery, industrial carbons, mercury catalysts, and
low-level mixed radioactive wastes has been proven in numerous pilot-scale treatability
studies.
Based upon the above experience and proven commercial capability of the MRS Process,
MRS is willing to prudently expand its commercial mobile and fixed-site mercury
removal/recovery capacity in response to market demand and, based upon past experience,
is anxious to process natural gas pipeline metering site soils.
Additional details regarding the MRS Mercury Removal/Recovery Process are contained
in the enclosed brochure, newsletter, technical paper, and month-by-month summary of
results obtained when treating natural gas metering site pipeline soils, As^you will note, the
MRS Process:
• consistently reduces the mercury content of the treated material to less than one part
per million (<1 ppm) regardless of the level of mercury in the contaminated waste,
• produces a 99% pure metallic mercury suitable for direct refining to high purity metal,
• recovers mercury from compounds such as mercury oxide, mercury chloride, mercury
sulfide, and mercury sulfate,
• prevents the sulfur and/or chlorine from entering the process exhaust,
• operates without generating any secondary gaseous, liquid, or solid waste,
* produces a gaseous effluent that meets all clean air and OSHA standards,
* efficiently processes materials having high moisture contents, and
• effectively utilizes "double-containment" for added worker and environmental safety.
The MRS Mercury Removal/Recovery Process (a) has been designated as Best Demonstrated
Available Technology (BDAT) for the treatment of mercury-contaminated materials by the
U.S.Environmental Protection Agency; (b) has been classified as "Recycling" by the EPA and
-------�
MrPaulBorst -3- April 19, 1996
regulatory agencies in several states, thereby simplifying permitting; and (c) based upon its low
emission rate and absence of secondary wastes, MRS' commercial unit was exempt from air and
solid waste permitting requirements by the State of New Mexico.
The MRS Mercury Removal/Recovery Process was accorded an R&D 100 Award and named by
R&D magazine as one of the most technologically significant new products in 1994. The company
and the technology were also featured in a special supplement to Forbes Maga^in? listing the 25 top
new environmental companies to watch.
I trust that the information presented above and in the attachments is responsive to your request.
If you have any questions or require additional information, please call or fax.
Sincerely,
William F. Sutton
President
WFS/bjd
Enclosures
-------�
APPENDIX F
-------�
PRIOR TREATMENT(PT) BASELINE AND OPTIONS
PT Baseline
Option 1 (PT)
Option 2 (PT)
Option 3 (PT)
Option 4 (PT)
Commodity
Lead
Magnesium and
Maanesla from Brines
dercury
Molybdenum,
:erromo!ybdenuni, and
Ammonium Molytodate
Platinum Group Metals
pyrobitomens. Mineral
Waxes, and Natural
Asofc^lfl
Rare Earths
Rhenium
Scandium
Waste Stream
Cftlortnalor wet air pollution control
sludoe
Hydrolysis filtrate
.each residues
Spent actd/leachate
Waste dill liquor
Add plant sludge
Bagnouss Incinerator ash
Started APC Dust
Solid residues
Spent lumaca brick
Stockpiled miscellaneous plant waste
WWTP liquid effluent
WWTP sludges/solids
Cast house dust
Smut
Dust
Quench water
:umace residue
Hue dwVgasas
Jo,uld residues
Slag
Spent adds
Spent solvents
S»! bottoms
Waste catalysts
Spent ammonium mlrate processing
solution
Electrolytic cell caustic wet APC sludge
Process wastewater
Spent scrubber liquor
Solvent extraction cnjd
Jvastewater horn caustic wet APC
Spent barren scrubber liquor
Spent rhenium ratlinata
Spent adds
Spent solvents from solvent extraction
Treatment and Disposal
Total Sector
Mln.
.
.
.
-
-
300
-
340
.
2«,000
.
.
-
,
-
-
n.ooo
.
5,950
.
-
-
.
.
-
Expect.
85"
- 106
5
935
106
1,058
3,000
.
29
74,800
87
26,000
4
9,625
39
126,500
500
3
855
855
23,000
1,250
14,000
5,950
200,000
1.150
200,000
a
44,000
1,960
490
Max.
320
400
10
3,400
400
2,115
30,000
.
59
.
153,000
-
-
1,140
26,000
7
105,000
77
495,000
1,000
68
3.000
3,000
80,000
5,000
14;000
-
8,950
800,000
4,500
800,000
30
88,000
7,000
1,750
Treatment and Dliposal
Total Sector
Mln.
300
6,900
900
400
•
380,000
26,000
.
-
,
-
14,000
7,000
.
-
.
Expect.
106
106
5
1,100
106
7,050
3.000
6,900
. 195
990
88,000
1,780,000
360,000
247
26,000
4
38.500
39
126,500
500
15
855
855
83,000
3,250
14,000
105
7,000
250,000
1,150
280,000
50
44,000
1.960
1,274
Max.
400
400
10
4,000
400
14,100
30,000
6,900
390
990
180.000
3,520,000
380.000
4,940
26,000
7
420,000
77
495,000
1,000
293
3,000
3,000
90,000
13,000
14,000
8,100
7.000
1,000,000
4,500
1,000,000
200
88,000
7,000
4,550
Treatment and Diiposal
Total Sector
Min.
.
-
.
-
300
6,900
-
890
400
-
380,000
28,000
.
.
-
-
,
-
-
14,000
7,000
.
Expect
SO
106
S
935
106
7,050
3,000
8,900
195
890
88.000
1,760,000
380,000
35
28,000
4
38,500
39
126,500
SOO
6
855
ess
23,000
1,250
14,000
-
7,000
250,000
1,150
280,000
50
44,000
1,960
490
Mas.
340
400
10
3,400
400
14,100
30,000
6,900
390
990
180,000
3,520,000
360,000
1,900
26,000
7
420,000
77
495,000
1.000
113
3,000
3,000
90,000
5,000
14,000
7,000
1,000,000
, 4.600
1,000,000
200
88,000
7.000
1,750
Treatment and Dlipoul
Total Sector
Mln.
-
-
300
340
-
26,000
.
.
.
-
- -
14,000
5,950
.
-
.
Expect
90
106
5
935
106
1,763
3,000
49
.
74,800
95
28,000
4
9,825
39
128,500
500
6
855
855
23,000
1,250
14,000
5,950
212,500
1.150
212,500
13
44,000
1,960
490
Max.
340
400
10
3,400
400
3,625
30,000
98
153.000
-
1,900
26,000
7
105,000
77
495,000
1,000
113
3,000
3,000
90,000
5,000
14,000
5.950
850,000
4,500
850,000
50
88,000
7,000
1,750
Treatment and Disposal
Total Sector
Min.
,
300
.
.
.
320
26,000
,
-
-
14.000
5.600
Expect.
85
106
5
880
108
1,058
3.000
.
29
.
70,400
-
57
26,000
4
5,775
39
126.500
500
3
855
855
23.000
750
14.000
.
5,600
200,000
1.150
200.000
8
44,000
1,960
294
Max.
320
400
10
3,200
400
2,115
30.000
59
144,000
1,140
26.000
7
«3,000
77
495,000
1,000
«8
3,000
3,000
90,000
3,000
14.000
5.600
800,000
4,500
800,000
30
88,000
7,000
1,050
-------�
PRIOR TREATMENT(PT) BASELINE AND OPTIONS
PT Baseline
Option 1 (PT)
Option 2 (PT)
Option 3 (PT)
Option 4 (PT)
Commodity
Alumina and Aluminum
Antimony
Beryllium
Bismuth
Cadmium
Calcium
Coal Gas
Copper
Elemental Phosphorus
Fluorspar and
Hvdraftuorie Add
Germanium
Wast* Strum
Cast house dust
Electrolysis waste
Autoclave nitrate
Stripped anolyle solids
Slag and furnace residue
Chip treatment wajtewaler
Filtration discard
Alloy residues
Spent caustic soda
Electrolytic slimes
Lead and zinc chlorides
Metal chloride residues
Slag
Spent electrolyte
Spent coda solution
Waste add solutions
Waste adds
Caustic washwaler
Copper and lead sulfale niter cakes
Copper removal titter cake
ron containing impurities
Spent leach solution
Lead sullata waste
Post-leach filler cake
Spent purification solution
Scrubter waslewaler
Spent electrolyte
Zinc precipitates
Dust with quicklime
Multiple effects evaporator concentrate
Add plant blowdown
WWTP sludge
Andersen Filter Media
AFM rlnsate
Furnace scrubber Slowdown
Furnace Building Washdown
ON-spacfluostlclcadd
Waste ecld wash and rinse water
Treatment and DlipoMl
Total Sector
Mln,
2.864
-
.
.
-
-
-
,
.
.
.
.
.
-
.
-
.
• .
.
.
-
.
.
•
-
1,325,000
480
-
•
Expect,
2,864
4,313
11.475
.
10,500
42,500
23,000
1,500
763
2
1,600
1,500
500
3,050
763
3,050
43
238
143
143
950
238
143
950
950
143
950
143
-
-
1,325,000
750
460
1,875
935
Mm, .
2,884
0,625
45,900
21,000
1,700,000
90,000
6,000
3,000
30
6,000
3.000
10.000
12,000
3,000
12.000
170
4,750
2,850
2,850
10,000
4,750
2,880
19,000
19,000
2,050
19,000
• 2,850
16,850
1,328,000
1,600
480
-
11,250
3.400
Treatment and OiipOMl
Total Sector
Mln.
12,409
.
-
.
.
.
.
.
.
5,300,000
4SQ
4,000
420.000
700,000
.
Expect,
12,409
18,688
13.500
29
10,500
50,000
23.000
1,500
1,883
7
1,500
1,500
500
3,050
1,983
3,050
50
616
618
618
950
950
818
950
950
9SO
950
616
20
-
8,300,000
3,000
460
4,000
420,000
700,000
7,500
1.100
Max.
18,409
37,375
54,000
57
2t,000
2,000.000
90,000
8,000
7,800
130
0,000
3,000
10,000
12,000
7,800
12,000
200
12.350
12,350
12,350
18,000
19,000
12,350
18,000
19,000
19,000
19,000
12,350
40
es.ooo
5,300,000
6,000
460
4,000
420,000
700.000
45,000
4,000
Treatment tnd Disposal
Tout Sector
Mln.
4.773
'-
.
.
.
.
•
.
.
.
-
.
.
.
,
-
-
.
.
-
,
-
.
.
.
.
.
•
-
5,300.000
-
460
4,000
420,000
700,000
Expect,
4,773
7,188
11,475
10,500
42,500
23,000
1,500
763
3
1,500
1,500
500
3,050
763
3,050
43
238
238
238
950
950
238
950
950
950
950
238
20
5,300,000
1.050
460
4,000
420,000
700.000
2,628
935
Max,
4,773
14,375
45,900
21,000
1,700,000
90,000
8,000
3,000
50
6,000
3,000
10,000
12,000
3,000
12,000
170
4,750
4,750
4,750
19,000
19,000
4,750
19,000
19.000
19,000
19,000
• 4,750
40
65,000
5,300,000
2.100
460
4,000
420,000
700.000
15,750
3,400
Treatment and Disposal
Total Sector
Mln.
4,773
-
.
-
.
-
.
.
.
.
.
.
-
-
-
-
-
.
-
-
.
-
1,855.000
460
-
Expect.
4,773
7,188
11,475
10,500
42,500
23,000
1,500
763
3
1,500
1,500
600
3,050
763
3,050
43
238
238
238
950
238
238
950
950
238
950
238
-
•
1,855,000
1,050
460
-
2,625
935
Max.
4,773
14,375
45,900
21,000
1.700.000
' 90,000
6,000
3.000
50
8,000
3,000
10,000
12.000
3.000
12,000
170
4.750
4,750
4,750
19.000
4,750
4.750
19,000
19.000
4.750
19,000
4,750
22,750
1,858,000
2,100
480
15,750
3,400
Treatment and Disposal
Total Sector
Mln,
2,064
.
• -
.
.
.
-
-
.
,
.
,
-
-
-
1.325,000
-
460
-
.
-
.
-
Expect
2,884
4,313
10,800
10,500
40,000
23,000
1,500
458
2
1,500
1,500
500
3.050
458
- 3,050
40
143
143
143
950
143
. 143
950
950
143
910
143
' -
1,325,000
750
460
-
-
-
i;875
eao
Max.
2,864
8,625
43.200
21,000
1,600,000
90,000
6,000
1,800
30
6,000
3,000
10,000
12,000
1,800
12,000
160
2,650
2,850
2,850
19,000
2,850
2.B50
19,000
19,000
2,850
19,000
2,850
-
16,250
1,325,000
1.500
460
11,250
3,aoo
-------�
PRIOR TREATMENT(PT) BASELINE AND OPTIONS
PT Baseline
Option 1 (PT)
Option 2 (PT)
Option 3 (PT)
Option 4 (PT)
Commodity
Zirconium and Hafnium
Waste Strwm
Spent synthetic gypsum
TGA tower btowdown
Waatewater treatment plant IquM
Spent add leaohate lion Zr alloy prod.
Spent add loachate from Zr metal prod.
Leaching itnse water from Zr aHoy prod.
Leaching rims water from 2s metal prod.
Treatment and Dtapoul
Toul Sector
Mln.
15.900
.
.
„
Expect.
1S.900
44
1,109,250
.
,.
17.850
•525,000
Max.
15,900
ea
2,218,500
860,000
1,600,000
44,200
1,700,000
Treatment and Dltpoul
Total Sector
Mln,
18,900.
.
.
.
.
-
Expect
1S.900
126
1,308,000
21,000
600,000
Mas,
18,600
260
Z.610,000
660.000
1,600,000
52,000
2,000,000
Treatment end Diapotal
Total Sector
Mln, .
15,900
-
.
.
.
-
Expect
1S.900
44
1,109,250
17,850
425,000
Max.
15,900
08
2,218,500
860,000
1.600.000
44,200
- 1,700,000
Treatment and Oiapoaal
Total Sector
Mln.
15,900
-
.
Expect
15,900
44
1,109,260
.
17,860
425,000
Max,
15,900
aa
2,218,500
860,000
1,600,000
44.200
1,700,000
Treatment and Dlapoaal
Total Sector
Mln,
15,900
.
.
Expect
15,800
31
1,044.000
.
-
16,800
400,000
Max
15.900
63
2.088,000
860.000
1,600.000
41.600
1,600,000
Note: EPA tfoes not haw enough Wonnatkxi to determine
whether Bromine, Gemslones. Iodine, Uttilum and UlNum
Carbon ale, Soda Ash, Sodium Sulfale, end Strontium produce
mineral processlfHI waatea
-------�
PRIOR TREATMENT(PT) BASELINE AND OPTIONS
PT Baseline
Option 1 (PT)
Option 2 (PT)
Option 3 (PT)
Option 4 (PT)
Commodity
Salenlum
Synlhette Rutile
Tantalum, Colurnblum,
and FerrocelurnWum
Te>urium
fitanium and Titanium
Dioxide
Tungsten
Uranium
Zinc
Waste Stream
Spent filter cake
Plan! process waslewatsr
Slag
Tellurium slime wastes
Waste solids
Spent Iron oxide slurry
APC dust/sludges
Spent acid solution
Digester sludge
3rocess wasiewater
Spent raffinate solids
Slag
Solid waste residues
ftaste electrolyte
Wasiewater
Pickle liquor and wash water
Scrap milling scrubber water
Smut from Mg recovery
.each liquor and sponge wash water
Spent surface Impoundment liquids
Spent surface Impoundments solids
Waste adds (Sutlate process)
WWTP sludge/solids
Spent add and rinse water
Process wastewater
Waste nitric acid from UO2 production
Vaporizer condensale
Superheater condensate
Stag
Uranium chips from Ingot production
Add plant blowdown
Waste ierrosllscon
Process wastewater
Discarded refractoiy brick
Spent cloths, bags, and filters
Spent goeMe and leach cake residues
Spent surface Impoundment liquids
WWTP Solids
Treatment and Disposal
tola Sector
Mln,
56,100
.
-
•
.
-
3T.SOO
.
,
.
.
-
15
323.000
200
.
.
.
.
-
.
.
1,276,000
.
,
1,806,800
Expect.
38
68,100
204
38
255
18,000
"
•
600
37,500
1,000
800
1,000
1,000
-
1.148
2,000
3,300
408,000
429
17,850
40,000
210,000
.
1,882
1,084
4,675
4,675
-
191
1,275
1,275,000
500
1,806,500
94
MM,
765
66,100
4,080
765
5.100
36,000
.
-
1,000
37.500
2,000
7,200
9,000
20,000
-
2,805
4,800
6,900
493,000
1,680
35,700
78,000
420,000
17,850
7,650
2,890
17,000
17,000
510
.
2,550
1,275,000
1,000
1,«06,500
188
Treatment and Disposal
Total Sector *
Mln.
.
66,000
.
.
.
-
87,500
-
-
-
65
380,000
200
.
.
.
.
39,000
.
3,315,000
.
.
4,500
1,890.000
Expect.
166
66,000
255
166
255
22,500
4,500
4,500
500
97,600
1,000
• 1,000
1,000
1,000
3,000
1,350
2.500
14.300
480,000
1.115
17,850
40,000
210,000
2,190
1,275
4.675
4,675
1.275
B2B
39,000
5,525
3,318,000
500
23
4,500
1,890,000
375
Max.
3,315
66,000
5,100
3.315
5.100
45,000
9,000
9,000
1,000
97,500
2,000
9,000
9,000
20,000
12.000
3,300
6,000
29,900
580.000
4,368
35,700
7*,000
420,000
21,000
S.OOO
3,400
17,000
17,000
8.100
2,210
39.000
11,050
3,316,000
1,000
45
4,500
1,880,000
760
Treatment wtd Olspoial
Total Sector
Min,
68,000
.
-
37,500
- -
-
'
.
-
-
. 25
323,000
200
1,275,000
1,606,500
-
ixpect.
64
,88,000
217
64
255
19.125
.
-
500
37,500
1,000
850
1.000
1,000
1,148
2,125
5,600
408,000
429
17,850
40,000
210,000
•2,190
1,084
4,675
4,676
319
2,125
1,275,000
500
1,606,500
375
Max.
1.275
86.000
4,335
1.275
5.100
38.250
1.000
37,500
2,000
7,650
9,000
• 20,000
2,805
5,100
11,500
493,000
1,680
35,700
78,000
420,000
21,000
8.000
2,890
17.000
. 17,000
.
850
.
4,250
1,275,000
1,000
-
1,606,500
750
Treatment and Disposal
Total Sector
Min,
66,100
-
37,500
-
-
.
.
25
323,000
-
200
.
-
.
.
-
-
.
-
1,275,000
.
-
.
1,806,600
Expect,
64
56,100
217
64
255
19,125
.
500
37.500
1,000
850
1,000
1,000
1,148
2,125
5,500
408,000
429
17,850
40,000
210,000
-
1,662
1,084
4,675
4,675
-
319
.
2,125
1,275,000
600
1,606,600
131
Max.
1,278
56,100
4,335
1,275
5,100
38,260
.
-
1,000
37,500
2,000
7,650
9,000
20,000
-
2,805
5,100
11,500
493,000
1,680
35,700
78,000
420,000
17,850
7,650
2,890
17,000
17.000
-
850
.
4,250
1,278,000
1.000
-
.
1,606,600
263
Treatment and Disposal
Total Sector
Min,
52,800
.
-
22,500
-
-
,
-
,
.
15
304,000
200
'
-
.
.
.
-
,
.
766,000
,
.
-
1,512,000
' '-
Expect
30
52,800
204
38
255
18.000
.
500
22.500
1,000
800
1.000
1,000
1,080
2,000
3,300
384,000
257
17,850
40,000
210,000
1,752
1,020
4,675
4.675
191
.
1,275
765,000
500
1,512,000
94
Max.
785
52,800
4,080
765
5,100
38,000
1,000
22,500
2,000
7.200
9,000
20,000
.
2,640
4,800
6,900
464,000
1.008
35,700
78,000
420,000
16.800
7,200
2,720
17,000
17,000
510
2,550
785,000
1,000
1,512,000
188
-------�
NO PRIOR TREATMENT(NPT) BASELINE AND OPTIONS
NPT Baseline
Option 1 (NPT)
Option 2 (NPT)
Option 3 (NPT)
Option 4 (NPT)
:ommodlly
Lead
Magnesium and
Magnesia lrorr| §ff^es
Mercury
Molybdenum,
rerromoiybdenum, am
Ammonium MolytxJate
natlnum Group Metals
PyfODItumens, Mineral
Waxes, and Natural
Ajohatts
Rare Earths
Rhenium
Scandium
Waal* Stream
Chlorinalor wet air poHutlan oonirol
sludqe
tydrolysls liltrale
Leach residues
Spent ackl/teachate
Waste sll!l Uquor
Acid plant sludge
laghouse Incinerator ash
Stunted APC Dusl
Solid residues
Spent furnace brick
Stockpiled miscellaneous plant waste
WWTPlquld effluent
WWTP sludges/solids
Cast houM dusl
Smut
Dusl
Quench water
Furnace residue
Flue dust/gases
Jquld residues
Slag
Spent acMs
Spent solvenla
SUIt bottoms
Waste catalysts
Spent ammonium nitrate processing
solution
Electrolytic cell caustic wsl APC sludge
Process waslewaler
Spent scrubber liquor
Solvent extraction cnid
Wastewaler (torn causllc wet APC
Spent barren scrubber liquor
Spent rhenium raHinate
Spent acids
Spent solvents trom solvent extraction
Treatment and Dlt poaal
Total Sector
Hln.
.
.
.
-
.
300
.
.
.
400
-
-
26,000
-
-
-
-
-
14,000
7,000
.
.
-
.
-
Expect
. 106
106
5
1,100
106
7,050
3,000
195
.
88,000
.
380
28,000
4
38,500
39
126,500
600
23
855
855
23,000
5.000
14,000
.
7.000
250,000
1,180
250,000
50
44,000
1,980
1,860
Mm.
«00
400
10
4,000
400
14,100
30,000
.
390
,
180,000
.
7,600
20,000
7
420.000
77
495,000
1,000
450
3,000
3,000
90,000
20,000
14,000
-
7,000
1,000,000
4,500
1,000,000
200
68,000
7,000
7,000
Treatment and Dlaposal
Total Sector
Mln,
300
1,380
198
400
78,000
„
28,000
-
-
,
-
-.
14,000
7,000
.
-
Expect.
106
106
5
1,100
106
7,050
3,000
1,380
195
198
88,000
352.000
76,000
380
28,000
4
38,500
39
128,500
500
Z3
855
ess
23,000
5,000
14,000
70
7,000
250,000
1,150
250,000
50
44,000
1,980
1,960
Max.
400
400
10
4,000
400
14,100
30,000
1,380
390
198
180,000
704,000
78,000
7,800
28,000
7
420,000
77
495,000
1.000
450
3,000
. 3,000
90.000
20,000
14,000
1.400
7,000
1.000,000
4,500
1.000,000
200
88,000
7,000
7,000
Treatment and Dlipoaal
Total Sector
Mln.
-
-
300
8,900
990
400
-
330,000
.
26,000
.
-
-
,
.
14,000
7,000
.
-
txpeet
95
106
8
990
108
7,050
3,000
6,900
195
090
08.000
1,780,000
380,000
114
26,000
4
38,500
39
126,500
SOO
7
655
B55
23,000
1,500
14,000
.
7,000
250,000
1,180
250,000
50
44,000
1,960
588
Max.
360
400
10
3,600
400
14,100
30,000
6,900
390
990
180,000
3,520,000
380,000
2,280
28,000
7
420.000
77.
495,000
1,000
135
3,000
3,000
90,000
6,000
14,000
7,000
1,000,000
4,800
1,000.000
200
88,000
7,000
2.100
Treatment and Disposal
Total Sector
Mln.
.
.
300
.
-
360
26.000
-
-
-
-
:
«
14,000
8.300
Bxpeet
95
106
S
990
106
2,115
3,000
.
59
-
79,200
-
114
26,000
4
11,550
39
128.500
SOO
7
855
855
23,000
1,500
14,000
-
6.300
225.000
1.150
425,000
15
44,000
1,960
568
Max.
360
400
10
3,600
400
4,230
30,000
.
117
.
162,000
-
2,280
26,000
7
128.000
77
495,000
1,000
135
3.000
3,000
90,000
6,000
14,000
-
8,300
800,000
4,800
900,000
60
88,000
7,000
2,100
Treatment and Disposal •
Total Sector
Mtn.
.
.
300
.
-
-
320
28,000
-
-
-
-
14,000
5,600
-
.
-
-
Expsct.
85
106
5
880
106
1,058
3,000
.
29
-
70,400
' -
-
67
26,000
4
5,775
39
126.500
600
3
855
855
23.000
750
14,000
.
5.600
200,000
1.180
200,000
8
44,000
1,i60
294
Max,
320
400
10
3,200
400
2,115
30,000
59
144,000
-
-
1,140
26.000
7
63,000
77
495.000
1,000
68
3.000
3,000
90,000
3,000
14,000
5.600
800,000
4,800
800,000
30
88,000
7,000
1,080
-------�
NO PRIOR TREATMENT(NPT) BASELINE AND OPTIONS
NPT Baseline
Option 1 (NPT)
Option 2 (NPT)
Option 3 (NPT)
Option 4 (NPT)
Commodity
Alumina and Aluminum
Antimony
Beryllium
Bismuth
Cadmium
Calcium
Coal Gas
Copper
Elemental Phosphorus
Fluorspar and
Hydrofluoric Add
Germanium
Waste Stream
Cast house dust
Electrolysis waste
Autoclave filtrate
Stripped anolyle solids
Slag and furnace residue
Chip treatment wastewaler
FHIratlon discard
Alloy residues
Spent caustic soda
Electrolytic slimes
Lead and zinc chlorides
Metal chloride residues
Slag
Spent electrolyte
Spent soda solution
Waste add solutions
Waste adds
Caustic washwater
Copper and lead sullate tiller cakes
Copper removal filter cake
Iron containing impurities
Spent leach solution
Lead sulfate waste
Post-leach filter cake
Spent purification solution
Scrubber wastewaler
Spent electrolyte
Zinc precipitates
Dust with quicklime
Multiple effects evaporator concentrate
Add plant blowdown
WWTP sludge
Andersen Filler Media
AFM rinsale
Furnace scrubber blowdown
Furnace Building Washdown
Off-spec fluoslllclc add
Waste acid wash and rinse water
Treatment and DltpoMl
ToUl Sector
Mln.
19,090
.
.
-
.
-
.
.
.
.
.
-
-
-
.
.
-
-
-
-
-
3,180,000
460
.
.
Expect.
19,090
28,750
13,600
.
10,600
50,000
23.000
1,500
3.050
10
1,500
1,500
500
3,050
3,050
3,050
50
950
950
950
950
950
950
950
950
950
950
950
-
-
3,180,000
1.800
460
4.500
1,100
Mai.
19,090
57;SOO
54,000
21,000
2.000,000
90,000
6,000
12,000
200
6,000
3,000
10,000
12,000
12,000
12,000
200
19,000
19,000
19.000
19.000
19,000
19,000
19.000
19,000
19,000
19,000
19,000
-
39,000
3,180,000
3,600
460
.
27,000
4,000
Treatment end Disposal
Total Sector
Mln.
19,090
-
.
.
-
.
-
.
.
.
-
-
--
-
-
-
.
-
.
-
.
.
.
-
-
-
-
-
-
4,770,000
460
800
84,000
140,000
.
Expect.
19,090
28,750
13,500
19
10.500
50,000
23.000
1,500
3,050
10
1,500
1,500
500
3,050
3,050
3,050
50
950
950
950
950
950
950
950
950
950
950
950
4
4,770,000
2,700
460
800
84.000
140.000
6,750
1,100
Max.
19.090
57,500
54,000
38
21,000
2,000,000
90,000
6,000
12,000
200
6,000
3,000
10,000
12,000
12,000
12,000
200
19,000
19.000
19,000
19.000
19,000
19,000
19,000
19.000
19.000
19,000
19,000
8
58,500
4,770.000
5,400
460
800
84,000
140.000
40,500
4.000
Treatment and Disposal
ToUl Sector
Mln.
5,727
.
.
-
.
.
.
.
-
.
.
.. -
.
.
.
-
-
.
5,300,000
-
460
4,000
420,000
700.000
-
-
Expect.
5,727
8,625
12,150
10,500
45,000
23,000
1,500
915
3
1,500
1.500
500
3,050
915
3,050
45
285
285
285
950
950
285
950
950
950
950
285
20
5,300,000
1.200
460
4,000
420,000
700.000
3,000
990
Max.
5.727
17,250
48,800
.
21,000
1,800,000
90,000
6,000
3,600
60
6.000
3,000
10,000
12,000
3,600
12,000
180
5.700
5,700
5,700
19.000
19,000
5,700
19,000
19,000
19.000
19.000
5.700
40
65,000
5.300,000
2.400
460
4.000
420,000
700.000
18.000
3.600
Treatment and Oltpoial
Total Sector
Mln.
5,727
-
.
.
.
-
-
.
.
-
.
-
.
.
.
.
.
.
.
.
-
2,120,000
460
-
-
Expect
5,727
8,625
12,160
.
10,500
45,000
23.000
1,500
915
3
1,500
1,500
500
3,050
915
3,050
45
285
285
285
950
285
285
950
950
285
950
285
-
2,120,000
1,200
460
-
-
3,000
990
Max.
5,727
17,250
48,800
.
21,000
1,800,000
90,000
6,000
3.600
60
6,000
3,000
10,000
12,000
3.600
12.000
180
5.700
5.700
5.700
19.000
5.700
5,700
19.000
19,000
5.700
19,000
5.700
26,000
2,120,000
2,400
460
.
18.000
3,600
Treatment and Disposal
Total Sector
Mln.
2,664
.
.
-
.»
.
. ' .
-
-
.
.
.
.
'
1,325,000
460
•
-
Expect.
. 2,864
4,313
10,800
10,500
40,000
23,000
1,500
458
2
1,500
1,500
500
3,050
458
3,050
40
143
143
143
950
143
143
950
950
143
950
143
-
1,325.000
750
460
-
.
1,875
880
Max.
2,864
8,625
43,200
21,000
1,600,000
90,000
6,000
1.800
30
6,000
3,000
10,000
12,000
1,800
12,000
160
2,850
2,850
2,850
19.000
2,850
2,850
19,000
19,000
2,850
19.000
2.850
16,250
1,325,000
1.600
460
.
11,250
3,200
-------�
NO PRIOR TREATMENT(NPT) BASELINE AND OPTIONS
NPT Baseline
Option 1 (NPT)
Option 2 (NPT)
Option 3 (NPT)
Option 4 (NPT)
Commodity
Zirconium and Hafnium
Waste Stream
Spent synthetic gypsum
TCA tower btowdown
Waslewater treatment plant liquid
nfflunnt
Spent add leachate from Zr alloy prod.
Spent add leachate from Zr metal prod.
Leaching rinse water from Zr aloy prod.
Leaching rinse water from Zr metal prod.
Treatment and Dlspo*al
Total Sector
Mln.
15,900
.
.
.
.
-
Expect
15.900
75
1.305,000
_
.
21.000
500,000
Max.
15,900
150
2,610,000
660,000
1,600,000
52,000
2,000,000
Treatment and Disposal
Total Sector
Mln.
15.900
.
.
.
.
- -
Expect.
15,900
.113
1,305,000
.
21.000
500,000
Max.
15,900
225
2,610,000
880.000
1,600.000
52,000
2,000,000
Treatment and Disposal
Total Sector
Mln.
15,900
.
-
.
-
Expect
15,900
50
1,174,500
.
.
18,900
450,000
Max.
15,900
100
2,349.000
860.000
1.600.000
48,800
1,800,000
Treatment and Disposal
Total Sector
Mln.
15,900
-
.
.
-
Expect
15,900
50
1,174,500
_
.
18,900
450,000
Max.
15,900
100
2,349.000
860,000
1,600,000
46.600
1.800,000
Treatment and Disposal
Total Sector
Min.
15.900
.
_
-
Expect
15,900
31
1,044,000
.
.
16,800
400,000
Max.
15.900
63
2,088,000
860.000
1.600,000
41.600
1,600,000
Note: EPA does not have enough Information to determine
whether Bromine, Gemstones, Iodine, UIMum and Ulhkim
Carbonate, Soda Ash, Sodium Sulfate, and Strontium produce
mineral processing wastes
-------�
NO PRIOR TREATMENT(NPT) BASELINE AND OPTIONS
NPT Baseline
Option 1 (NPT)
Option 2 (NPT)
Option 3 (NPT)
Option 4 (NPT)
Commodity
Selenium
Synthetic Rutile
Tantalum, Columblum,
and FeirocoIumWum
Teiiurium
Titanium and Titanium
Dioxide
Tungsten
Uranium
Zinc
Wast* Strum
SpenHlltercake
Plan! process wastewalar
Slag
Tellurium slime wastes
Waste solids
Spent iron oxide slurry
APC dust/sludges
Spent add solution
Digester sludge
Process waslewater
Spent raffinate solids
Slag
Solid watte residue 3
Waste electrolyte
Waslewater
PicKle liquor and wash water
Scrap milling scrubber water
Smut Iron Mg recovery
Leach liquor and sponge wash water
Spent surface Impoundment liquids
Spent surface Impoundments solids
Waste adds (Sutfate process)
WWP sludge/solids
Spent add end rinse weter
Process waslewater
waste nitric add from UO2 production
Vaporizer condensate
Superheater condensate
Slag
Uranium chips from Ingot production
Acid plant blowdown
WaMa ferrosllleon
Process wsslewafer
Discarded refractory brick
Spent ctolhs, bags, and filters
Spent goetnlte and leach cake residue*
Spent surface Impoundment liquids
WWTP Solids
Treabrwnt and Dlapotat
Total S*ctor
Mln.
66,000
.
.
.
.
150,000
.
.
.
.
-
.
100
360.000
.
200
.
.
.
.
•
.
.
5,100,000
.
.
1,890,000
Expect.
25S
66,000
255
255
255
22,600
.
-
500
150,000
1,000
1,000
1,000
1,000
.
1,360
2,500
22,000
480,000
1,715
17,850
40,000
210,000
.
2,190
1,275
4,675
4,675
1,278
.
0,600
5,100,000
500
.
.
1,890,000
225
Mm.
5,100
66,000
5,100
5,100
5,100
45,000
.
• -
1.000
150,000
2,000
9,000
9,000
20,000
3,300
6,000
46,000
580,000
6,720
35,700
78,000
420,000
21,000
9,000
3,400
17,000
17.000
.
3,400
.
17,000
5,100,000
1,000
.
1,690,000
450
Treatment end Disposal
Total Sector
Mln,
88,000
.
-
.
-
' 150,000
-
.
.
100
380,000
.
.
200
-
.
-
. '
-
-
.
'
26.000
,
8,100,000
3,000
1,690,000
Expect.
255
66,000
255
255
255
22,600
3,000
3,000
500
150,000
1,000
1.000
1,000
1,000
2,000
1,350
2,500
22,000
480,000
1,715
17,850
40,000
210,000
2,190
1,275
4,675
4,675
650
1,275
26,000
8,500
5,100,000
500
15
3,000
1,890,000
338
Max.
5,100
66,000
5,100
5,100
5,100
45,000
6,000
6,000
1,000
150,000
2,000
9,000
9,000
20,000
8,000
3,300
6,000
46,000
580,000
6.720
35,700
78,000
420,000
21,000,
9,000
3,400
17,000
17,000
3,400
3.400
28,000
17,000
5,100,000
1,000
30
. 3.000
1,890.000
675
Treatment and Disposal
Total Sector
Mln,
66,000
-
.
-
48,000
-
.
,
30
342.000
.
.
_200
-
.
-
-
.
.
-
-
.
.
1,530,000
.
-
.
1,701,000
-
Expect.
77
66,000
230
77
• 255
20,250
.
500
45,000
1,000
900
1,000
1,000
1,215
2,250
6,600
432,000
815
17,850
40,000
210,000
2,190
1,146
4,875
4,675
383
2,550
1,530,000
500
1,701,000
375
MM.
1,530
• 88,000
4,590
1.530
5,100
40,500
.
• -
1,000
45,000
2,000
8,100
8,000
20.000
-
2,970
5,400
13.800
522,000
2,018
36,700
78,000
420,000
21,000
9.000
3,060
17,000
17.000
.
1,020
.
5,100
1,530,000
1,000
1,701,000
750
TnMment and Olipotal
Total Sector
Mln.
59,400
-
-
.
-
45,000
,
.
30
342,000
,
-
200
-
-
.
.
-
.
.
1,530,000
-
-
1,701.000
-
Expect.
77
59,400
230
77
255
20,250
-
500
45,000
1,000
900
1,000
1,000
-
1,215
2,250
6,600
432,000
515
17,850
40,000
210,000
1,971
1,148
4,675
4,675
-
383
2,550
1,530,000
500
1,701,000
150
Max.
1,530
69,400
4,590
1,530
5.100
40,500
1,000
45,000
2,000
8,100
9,000
20,000
-
2,970
5,400
13,600
522,000
2,018
35,700
78,000
420,000
18,900
. 8.100
3,060
17.000
17,000
-
1,020
.
5,100
1,530,000
1,000
-
1.701.000
300
Treatment and Disposal
Total Sector
Min,
52,800
.
.
-
-
22,600
-
.
-
-
.
.
15
304,000
.200
.
.
-
•
•
.
765,000
.
.
-
1,512,000
-
Expect
38
52,800
204
38
255
18,000
- •
500
22,500
1,000
800
1,000
f.OOO
1,080
2,000
3,300
384,000
257
17,850
40,000
210,000
1.752
1,020
4,675
4,675
191
1.275
766,000
500
.
1,512,000
94
Mix.
765
62,800
' ' 4.080
785
5.100
36,000
.
-
1,000
22,500
2,000
7,200
9,000
20,000
-
2,640
4,600
6,900
464,000
1,008
35.700
78,000
420,000
16,800
7,200
2,720
17,000
17.000
510
,
2,550
765,000
1,000
-
1,512,000
188
-------�
APPENDIX G
-------�
CO.NSL'LTING GROL'P
ICF Incorporated
9300 Lee Highway
Fairfax. VA 22031-1207
703/934-3000 Fax 703/934-97-10
June 5. 1996
MEMORANDUM
To: Bill Kline, EPA
From: Raghu Raghavan, Mario Kerby. and Jim Laurenson
Subject: Completeness of FMC Corporation's Request for Two-Year National'Capacity
Variance from the Phase IV Land Disposal Restrictions
This memorandum summarizes our preliminary assessment of the completeness of the
request made by FMC Corporation (FMC) for a two-year national capacity variance (NCV) from
the Phase IV LDRs for the company's elemental phosphorus mineral processing wastes. FMC
made this request as pan of its comments on the Supplemental Proposal to Phase IV LDRs
(Comment # 70. submitted on April 24, 1996). Briefly, we still have the following questions
concerning the FMC request for NCV:
(1) Will planned onsite treatment and waste minimization allow less than a two-year
NCV?
(2) Will capacity shortfalls affect only FMC — thus, perhaps only a case-by-case
extension is needed -or will other facilities (e.g., Monsanto) be affected?
(3) Will exemptions from the definition of solid waste reduce the required capacity?
»
If a case-by-case extension is desired, we believe other questions may need to be answered. The
following provides additional details concerning our review of the FMC data.
FMC submitted a 106-page document commenting on the proposed rule and four
additional volumes of information (Appendices 1-15) to support its comments. The first and
largest section of the main document with FMC's comments is the request for a two-year NCV.
Also, most of the appendices provide information supporting the NCV application. The
supporting information includes copies of completed phone surveys and survey confirmation
letters for 168 commercial treatment facilities that were contacted by a consultant of FMC to
determine the availability of capacity for off-site treatment of four wastestreams generated during
elemental phosphorus mineral processing operations at FMC. Any follow-up of the NCV survey
conducted by FMC's technical staff is also documented.
Because FMC's request for an NCV (including attachments) is approximately. 1,000 pages,
we could perform only a preliminary examination of their contents. In brief, however, it seems
that the proposed Phase IV LDR rule will uniquely affect the current operations of FMC for
manufacture of elemental phosphorus in Pocatello, Idaho. Suitable alternative treatment capacity
may not be readily available for at least three large-volume hazardous wastewater streams that are
now being generated at this facility and land disposed (probably in Subtitle D surface
-------�
Memorandum to Bill Kline
June 5,1996
Page 2 of 3
impoundments) on site. These three wastewater streams - Medussa scrubber blowdown,
Andersen filter media rinsate, and fiirnace building washdown - are generated at a rate of 148
million gallons per year. Alternative treatment of these wastewaters will require-pH adjustment
for removal of cadmium, lead, and/or selenium from the wastewater streams, followed by
dewatering and stabilization of the metal-containing treatment sludges. Also, the wastewaters are
contaminated with normally occurring radioactive materials (NORM) that must also be removed
during treatment. The pH adjustment step must take into consideration the generation of
phosphine gas due to the presence of elemental phosphorus in the wastewaters. Transportation
of wastewaters is estimated to require 30 rail tanks per day, and a special loading station would
have to be constructed. Special safety requirements are associated with the transportation and
other handling of elemental-phosphorus containing wastes. FMC has proposed management plans
for these wastestreams that will include on-site waste minimization efforts, treatment technology
development, and installation of treatment capacity by June 1998.
We believe that FMC's plans to build onsite treatment capacity and conduct waste
minimization may mean less than a two-year NCV can be possible. The onsite treatment capacity
will include a wastewater treatment plant and stabilization facility that appears to have been
planned already. FMC's plans for alternative treatment of wastewaters on site, however, are
based on an assumption that Andersen filter media rinsate will be eliminated by the end of the
year 1996. This wastewater stream contains selenium, and FMC's past experience in technology
development shows that stabilization of its wastewater treatment residuals cannot treat selenium
below UTS. Therefore, if the plans to eliminate Andersen filter media rinsate fails, FMC will
have to pursue a case-by-case extension to the NCV or alternate treatment standards after the
end of an NCV.
Our review of the background document — "Identification and Description of Mineral
Processing- Sectors and Waste Streams" — developed to support the proposed Phase IV LDR rule
indicates that there are two domestic producers of elemental phosphorus: FMC's facility in
Pocatello, Idaho and Monsanto's facility in Soda Springs, Idaho. Monsanto did not submit
comments on the proposed Supplemental Phase IV LDR rule. As FMC Corporation is the
world's largest producer of elemental phosphorus, EPA's identification and description of this
mineral processing sector and these wastestreams was based mainly on the FMC process.
However, we believe that EPA may need to obtain and review information on waste generation
and management at the Monsanto facility before granting an NCV — rather than a case-by-case
variance — for mineral processing wastewater streams that contain elemental phosphorus. In
particular, it may be necessary to confirm that the proposed Phase IV LDR rule will uniquely
affect the current manufacturing operations of both FMC and Monsanto.
We also reviewed our capacity analysis for the newly-identified mineral processing wastes
to determine if the information provided with FMC's request for an NCV would change either
the methodology or assumptions used. Exhibit 3-1 of the background document identifies and
characterizes the hazardous mineral processing wastes by commodity sector. In this exhibit, we
identify two facilities (FMC and Monsanto) with processes to manufacture elemental phosphorus
generate three wastewater streams with an estimated maximum quantity of 782,000 metric tons
(206 million gallons) per year. This estimate is comparable with FMC's report that it generates
-------�
Memorandum to Bill Kline
June 5,1996
Page 3 of 3
148 million gallons of hazardous wastewater. We also noted that the capacity analysis had
assumed that two out of the three wastewater streams (over 99% of total quantity) may be
recycled or decharacterized. This assumption also seems to be consistent with the report of FMC
that a waste minimization effort is in progress at the facility. Thus, before granting a NCV for
mineral processing wastewaters containing elemental phosphorus, we believe that EPA,may need
to rule out the possibility of these wastewater streams being exempt from classification as RCRA
solid waste, and therefore exempt from LDR requirements.
In addition to assessing whether FMC's comments were sufficient for making a
determination regarding an NCV, we conducted a preliminary evaluation whether FMC could
meet ,the requirements for a case-by-case extension to the rule (40 CFR 268.5). However, a
complete request for a capacity variance on a case-by-case basis must include an additional
demonstration of the commitment of the applicant to construct or otherwise provide alternative
treatment, recovery, or disposal capacity that meets with LDR standards. The request for a
capacity variance must also describe in greater detail the technical and. practical difficulties in
providing the alternative capacity. In addition, the application for a capacity variance must
confirm that the planned alternative capacity would be adequate for all the wastes affected by the
proposed rule. Finally, the applicant must demonstrate that hazardous wastewater management
units that will be in use at the facility until the development of alternative treatment capacity
would be in full compliance with other regulations under RCRA Subtitle C. Although we have
not been able to evaluate whether the information provided by FMC meets with all the
requirements of 40 CFR 268.5, we believe that if FMC were requesting a case-by-case extension,
they should be required at least to provide more information on the design and operation of
surface impoundments or other units being used at present to manage the wastewater streams
affected by the proposed rale. In addition, EPA would need to follow other procedures normally
followed in applications for a capacity variance on a case-by-case basis (e.g., consulting with
appropriate State agencies).
Please feel tree to call Raghu Raghavan at (703)934-3417 or Jim Laurenson at (703)934-
3648 if you have any questions or comment concerning this memorandum.
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CONSULTING GROUP
1CF Incorporated
9300 Lee Highway
Fairfax, VA 22031-1201
703/934-3000 Fax 703/934-9T40
June 26, 1996
MEMORANDUM
To: Bill Kline, EPA
From: Raghu Raghavan and Jim Laurenson
Subject: Follow-up on FMC Corporation's Request for Two-year National Capacity Variance
(NCV) from the Phase IV Land Disposal Restrictions (LDRs)
This memorandum is a follow-up to our June 5, 1996 memo assessing the request made by
FMC Corporation (FMC) for a two-year NCV from Phase IV LDRs on the company's elemental
phosphorus mineral processing wastewaters. This memo provides additional information that we
obtained from FMC, and it updates our previous assessment of the subject request made by FMC.
FMC conducted a national survey of commercial treatment, storage, and disposal (TSD)
facilities to argue that required capacity is not available off site if their "large volume" mineral
processing wastewaters will be affected by the Phase IV LDRs. Alternatively, FMC plans to conduct
waste minimization and build onsite treatment capacity by June 1998. The waste management plans
were submitted by FMC with its request for an NCV provided with their comments to the
supplemental Phase IV LDR rale. EPA invited comments on a potential capacity variance for FMC in
the May 10, 19% Notice of Data Availability (NODA). to response to the NODA, FMC commented
that the construction of onsite treatment facilities would be one of the options that FMC will evaluate
during the NCV period. FMC plans to continue to explore the possibility of providing offsite
treatment of die process waters affected by Phase IV LDRs at its elemental phosphorus manufacturing
plant in Pocatello, Idaho. A second commenter on the NODA, Environmental Defense Fund (EOF),
represented by the law office of David J. Lennett, believes that FMC's request for a capacity variance
is more properly a request for a case-by-case capacity variance subject to the procedures given in 40
CFR 268 S, and that the information provided is insufficient for a case-by-case variance.
To determine if two yean are required to implement FMC's waste management plans, as well
as to assess the readiness of these plans for implementation, it was necessary to start obtaining the
following types of additional information:
• How are the wastewater streams that will be affected by the Phase IV LDRs currently
managed by FMC? Is any treatment of wastewaters performed now? Which land-
based units receive these wastewaters now?
• As FMC continues to explore die possibility of providing offsite treatment of these
wastewaters, is the company planning to set up the infrastructure necessary for
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Memorandum to Bill Kline
June 24, 1996
Page 2 of 4
shipping the wastewaters off site (e.g., building a special loading dock and
purchasing/leasing rail cars)?
* Because of the difficulties in stabilizing wastewater treatment residuals containing
selenium, is FMC planning to construct a separate facility for onsite treatment of
Andersen filter media rinsate (which is reported to be the only stream containing
selenium)?
• Is FMC aware of other facilities that are manufacturing elemental phosphorus and
generating hazardous wastes that are affected by Phase IV LDRs?
We contacted Mr. Arnold Feldman, Regulatory Compliance Manager, Environmental Services
Department, FMC Corporation to discuss these topics. The information obtained by us during a phone
conversation with Mr. Feldman is given below,
Current wastewater management practices. Mr. Feldman told us that the three wastewater streams
affected by the Phase IV LDRs are currently received by a large surface impoundment (capacity over
100 acre-feet) onsite and then recycled to the process. This surface impoundment was RCRA
permitted two or three years ago and meets with minimum technology requirements (MTR) as given in
40 CFR 264/265. The surface impoundment is located approximately 3/4 mile from the plant
generating the wastewaters. A small tank (5,000 to 6,000 gallons capacity) receives the wastewaters
near the plant before they are pumped to the surface impoundment. In-addition to the three
wastewater streams, some "contaminated solids" are currently disposed of in the surface impoundment.
The disposal of solids will be terminated after the Phase IV LDRs become effective, however. The
wastewater overflows from the surface impoundment to a series of ponds before it is recycled (after
some clarification of the effluent) to the plant. Although there appears to be no other treatment of the
wastewater taking place before it is recycled, it seems that the main role of the surface impoundment
is to separate elemental phosphorus from the wastewater generated in the plant (Analytical data on
the three wastewater streams that will be affected by the Phase IV LDRs were submitted by FMC with
its request for an NCV.) In order to nraintam a minimum level of water at all tunes in the surface
impoundment, water from the ponds is sometimes returned back to the surface impoundment. The
retention period of the wastewater in the surface impoundment therefore varies with the level of
production and die tune of year. There is only a minimal release of phospnine gas taking place in the
surface impoundment (mainly because the elemental phosphorus is always stored under water). It
seems that the surface impoundment and ponds will continue to be used even in the future after
installing wastewater treatment capacity on site. However, it is not known at present if the surface
impoundment will be receiving wastewaters before or after treatment to precipitate toxic metals. (The
main benefit of using the surface impoundment to receive wastewater before treatment is that the
current practice of separating out elemental phosphorus before recycling the wastewater may continue
without any change. However, it is not clear whether the final Phase IV LDR rule will permit the use
of the surface impoundment in its current role despite the fact that the surface impoundment is
permitted under RCRA Subtitle C and meets the MTR.) It seems that the final concept design for
integrating the new wastewater treatment facility with other land-based units on site can be completed
only after reviewing the final LDR rule.
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Memorandum to Bill Kline
June 24, 1996
Page 3 of 4
Preparing for commercial treatment as an alternative. Based on the results of the national survey of
commercial TSD facilities conducted by FMC, Mr. Feldman felt that offsite treatment of wastewaters
cannot probably replace the need for building treatment capacity on site. Even the projected schedule
for purchasing the rail cars by January 1998 (as mentioned in FMC's request for a two-year NCV)
cannot really be achieved. It is necessary to first locate commercial facilities willing to consider
treating FMC's wastewaters. Then, according to Mr. Feldman, these commercial facilities must agree
to install special loading docks (at their expense) to receive the wastewaters for treatment. These
investigations and negotiations cannot be completed within the next several months. Therefore, Mr.
Feldman said, it is not possible to develop an alternative to onsite treatment of wastewaters within a
period of two years.
Designing wastewater treatment onsite. As noted earlier, Mr. Feldman believes that the concept design
of the onsite treatment facility can be completed only after knowing what the final Phase IV LDR
standards are. (In particular, the final LDR standards will affect the selection of treatment methods for
Andersen filter media rinsate. This wastewater stream has been generated only since 1991 when it
became necessary to wash the filter media due to the presence of naturally occurring radioactive
materials. Currently, FMC is hoping to eliminate this wastewater stream as an alternative to onsite
treatment.) Even after the finalization of LDR standards and if it becomes necessary to treat Andersen
filter media rinsate, it may be more cost-effective to treat all the wastewater streams at the same new
facility. (The construction of two or more smaller wastewater treatment facilities instead of one
combined facility might reduce the time required for designing and constructing each facility.) Mr.
Feldman also noted that construction of a treatment facility cannot progress during five months
(December through April) every year because of weather. The schedule provided by FMC in its
request for a two-year NCV also did not take into consideration the time required for obtaining any
permits for installing and operating the treatment facility. Mr. Feldman indicated that a complete
schedule for building onsite treatment capacity is possible only after reviewing the final LDR rule and
finalizing the concept for treating the wastewaters on site.
Other facilities manufacturing elemental phosphorus. Mr. Feldman stated that one other company
manufactures elemental phosphorus using another proprietary process that does not generate hazardous
wastes affected by the Phase IV LDRs.
Based on the additional information described above, it appears that FMC does not have a
final concept design of the onsite treatment facility for the wastewater streams generated at its plant in
Pocatello, Idaho. First, the need for treatment of wastewaters prior to discharging them to the existing
permitted surface impoundment will depend on the applicability of the new definition of solid waste to
these recycled materials and the treatment standards given in the final LDR rule. (Universal treatment
standards (UTS) may apply to one or more of the following metal constituents found in the
wastewaters: cadmium, lead, selenium, thallium, zinc and/or vanadium.) Second, the final concept
design for treating wastewaters will depend on the results of FMC's current efforts to eliminate
Andersen filter media rinsate. (It appears that the wastewater treatment needs may be reduced
substantially if the Andersen filter media rinsate is eliminated or managed otherwise.) In addition, the
weather conditions in Idaho will make it difficult to consider an accelerated construction of the
wastewater. treatment facilities after making progress in the engineering design of the facilities. Under
these circumstances, it would be difficult to prepare a more detailed and complete schedule for
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Memorandum to Bill Kline
June 24, 1996
Page 4 of 4
building onsite treatment capacity. Thus, based on the information provided by FMC, there seems to
be little chance for finding offsite treatment capacity in the next two years and less than a two-year
NCV does not appear to be sufficient for providing the alternative treatment capacity required by the
wastewater streams affected by the Phase IV LDRs at FMC's plant in Pocatello, Idaho.
Please feel free to call Raghu Raghavan at (703)934-3417 or Jim Laurenson at (703)934-3648
if you have any questions or comment concerning this memorandum.
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