United States
Environmental Protection
Agency
Solid Waste and Emergency
Response
(5102W)
EPA 542-R-96-006
June 1996
Vendor FACTS
Vendor Information Form
Version 2.0
To be completed for participation in the:
Vendor Field Analytical and
Characterization Technologies
System (Vendor FACTS)
NOTE: Instead of submitting this form, you may provide information on your
technology(ies) electronically. The electronic VIF can be downloaded
from the Vendor FACTS Pointer page at viww.prcemi.com/VFACTS.
Or you may call the Vendor FACTS help line to request a 3.5" IBM-
compatible diskettes.
Completion of this form is voluntary. Any questions, call Vendor
FACTS Help Line: 800/245-4505 or 703/287-8927.
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TABLE OF CONTENTS
Section page
LETTER TO TECHNOLOGY VENDORS j
GENERAL INFORMATION
I. What is Vendor FACTS? {i
II. What Technologies are Eligible for Inclusion? }j
in. Why Should You Participate? jjj
IV. Should Confidential Business Information (CBI) be Submitted? fii
V. How Much Documentation is Required Regarding Performance and
Other Technology Claims? iv
VL When and Where to File? iv
VII. Electronic Submittal of Vendor Information Form v
Vin. EPA's Authority for Submittal and Burden Statement v
VENDOR INFORMATION FORM
Part 1: General Information i
Part 2: Technology Overview o
Part 3: Technology-Specific Information 12
Part 4: Equipment/Capabilities and Operation 18
Part 5: Technology Performance 22
Part 6: Literature and Technical References 33
Appendices paee
A KEY TO CONTAMINANT GROUPS A-l
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Al^tterlo,Technoi6gy,Vendore
Improved hazardous waste site remediation requires advances in technologies for both waste treatment
and site characterization. By providing information on their status and capabilities to prospective
users and investors we hope to facilitate the development and broader use of these technologies.
The Technology Innovation Office (HO) and the National Exposure Risk Laboratory (NERL) in Las
Vegas have developed a diskette-based database that contains information provided to EPA by
vendors on the applicability, performance, and current use of their products. Called the Vendor Field
Analytical and Characterization Technologies System (Vendor FACTS), this database includes
information on equipment such as field portable analytical, monitoring, and screening devices for the
detection and quantification of priority pollutants in the air, soil, water, and hazardous waste. Version
1.0 of the database which was released in December 1995, contains detailed information on the
availability, performance, and cost of 93 innovative technologies offered by 72 vendors.
This booklet solicits information from vendors about their technologies, equipment, and capabilities
for listing in Version 2.0 of the database. Through our contractor, TIO and NERL will review each
submission to determine if the technologies meet the eligibility criteria for the database. To encourage
participation and use of the database among professionals responsible for the cleanup of hazardous
waste sites, Vendor FACTS will be provided at no charge to the public via downloading from the
Vendor FACTS home page and several on-line services such as America Online, and EPA's CLU-IN
and ATTIC bulletin boards.
We expect that Vendor FACTS will reach a substantial number of users and that it will provide an
effective means for technology developers to communicate with potential users. We invite you to
participate in Vendor FACTS and look forward to your submission of this booklet.
Wayne N. Marchant, Ph.D. Walter W. Kovalick, Jr., Ph D
Director Director
National Exposure Risk Laboratory, Las Vegas Technology Innovation Office
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GENERMilNFORMATION >^ V ,',:';ฃ;,, ':<;. . > . ,5v ..-^
I. What is Vendor FACTS?
The U.S. Environmental Protection Agency (EPA) is developing Version 2.0 of an automated
database called the Vendor Field Analytical and Characterization Technologies System
(Vendor FACTS) for use by professionals responsible for the cleanup of hazardous waste sites.
Vendor FACTS contains information on field portable measurement and monitoring
technologies. The system is updated annually. Version 1.0 was released in December 1995;
Version 2.0 is scheduled for release in December 1996.
II. What Technologies are Eligible for Inclusion?
By this Vendor Information Form, EPA is inviting technology developers and vendors to
submit information on specific categories of technologies for participation in the second
version (Version 2.0) of Vendor FACTS. EPA has chosen these categories because it believes
they are undergoing the greatest innovation at the present time, and they represent the greatest
need for streamlining the site assessment process. Technologies meeting the following criteria
will be included in Vendor FACTS:
1. Fieldable technologies: portable or transportable equipment for on-site monitoring,
screening, and analysis of hazardous substances. Stand alone modeling software used
in the field to facilitate or expedite the site characterization process (i.e., site
characterization modeling software) will also be included in the database.
2. Technologies that fall in one of the categories listed in Table 1 on the following page.
The following technologies are not eligible for inclusion in the database: Technologies for
monitoring or characterizing industrial process waste streams; general purpose software to
manipulate data as part of a site characterization technology listed in Table 1; radioactivity
sensors, fixed-based (off-site) analytical equipment; remote sensors operated from aircraft or
satellite platforms (e.g., multispectral scanners); and technologies that have minor
improvement over established technologies. If you would like EPA to make a determination
as to whether your technology or software fits the inclusion criteria, call the Vendor FACTS
helpline at 1-800-245-4505.
Technologies of interest include those at any stage of development (e.g. mature, or pre-
commercial); however, we prefer information on technologies that can be commercialized,
rather than those used only in academic research. EPA may consider additional types of
technologies in future versions depending on feedback from users. Please send a one page
description of suggested technologies to the address on Section VI.
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Table 1
List of Targeted Monitoring Technologies
Analytical
Acoustic Wave Chemical Sensors
Air Measurement (Weather Measurement
Technologies Excluded)
Analytical Detectors (Stand Alone Only)
Biosensors
Chemical Reaction-Based Indicators
(Colormetric)
Laser Spectroscopy
Fiber Optic Chemical Sensors
Gas Chromatography
Other Chromatography
Immunoassays
Infrared Monitors
Mass Spectroscopy (may include GC/MS)
Soil Gas Analyzer Systems
Ion Mobility Spectroscopy
Other Spectroscopy Techniques
X-Ray Fluorescence Analyzers
Electrochemical-based Detectors
Geophysical
Downhole sensors - Vadose Zone
Downhole sensors - Saturated Zone
Ground Penetrating Radar
Subsurface Electromagnetic
Seismic Reflection/Refraction
Subsurface Resistivity/Conductivity
Subsurface Magnetrometry
Extraction (chemical)
Extraction Technologies (Analytical Traps)
Supercritical Fluid Extraction
Thermal Desorption
Sampling or Sampler Emplacement
Air/Gas Sampling Technologies
Water Sampling Technologies
Soil Sampling Technologies
Product Sampling Technologies
Borehole Technologies
HI. Why Should You Participate?
Vendor FACTS is an excellent opportunity for vendors to promote their capabilities. The
system allows the vendor to provide substantial information on the applicability, cost,
performance, and current use of their technologies. The database will be publicly available
free-of-charge on computer diskette. We anticipate reaching cleanup personnel and investors
throughout the U.S. and abroad by widely advertising Vendor FACTS in trade journals, at
conferences, and through direct mailings to an extensive list of potential users.
IV. Should Confidential Business Information Be Submitted?
Confidential business information (CBI) should not be submitted, because EPA plans to make
all submitted information available to the public. However, applicants may write "available
on a case-by-case basis" as their response to those questions for which they have information,
but would prefer not to make this information generally available.
in
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For confidential projects that otherwise could not be included, applicants are encouraged to
provide "sanitized" or masked information that will allow users to review general information
on a vendor's experience, without revealing confidential information. For instance, in Part 5,
which details project experience, you may provide a generic industry name, such as "organic
chemical manufacturer" instead of the actual site name.
V. How Much Documentation is Required Regarding Performance and Other Technoloev
Claims? sy
Vendor FACTS is a service provided by EPA to showcase vendor's innovative technologies
and capabilities. Therefore, is in the applicant's best interest to fill out each part of VTF as
completely as possible since incomplete information may discourage users from considering
the technology further.
EPA will review each submittal for clarity, completeness, and adherence to instructions and
may contact you to clarify information submitted. If the Agency makes any substantive
changes to the submittal the respondent will be given the opportunity to review and comment,
with one exception: EPA may list publicly-available information or references on Superfund
sites or Federal facilities at which the vendor's technology has been used.
The Agency will not review submitted data for accuracy or quality; to do so would be too
resource intensive and subjective, and would substantially delay dissemination of the database.
Vendor FACTS will clearly state that vendors have supplied the information, and that the data
have not been verified by the Agency. Applicants should expect that interested users may
request additional information regarding applicability and performance of a particular
monitoring or measurement technology. The database will contain the following disclaimer:
Inclusion in the U.S. Environmental Protection Agency's Vendor Field Analytical and
Characterization Technologies System (Vendor FACTS) database does not mean that the
Agency approves, recommends, licenses, certifies, or authorizes the use of any of the
technologies. Nor does the Agency certify the accuracy of the data. This listing means only
that the vendor has provided information on a technology that EPA considers to be eligible
for inclusion in this database.
VI. When and Where to File
EPA will review Vendor Information Forms received by August 16,1996, for inclusion in
version 2.0 of Vendor FACTS in 1996. EPA will review responses received after August 16
only as time and resources permit.
Send completed VIFs and diskettes to:
System Operator, Vendor FACTS
PRC Environmental Management, Inc.
1593 Spring Hill Road, Suite 300
Vienna, VA 22182
IV
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If you completed the VIF electronically (on a diskette), please attach a hard copy printout
along with the diskette.
VII. Electronic Submittal of Vendor Information Form
Instead of "submitting this form, you may provide information on your technology(ies)
electronically. To do so, you can download an electronic version of the Vendor Information
Form (VIF) from the Vendor FACTS pointer page at www.prcemi.com/vfacts or from the
EPA's Cleanup Information (CLU-IN) Bulletin Board System at (301) 589-8366. You can
also obtain the VIF by electronic mail (send request to cassidt@prcemi.com). The electronic
VIF can be obtained on a 3.5" IBM-compatible diskette by calling the Vendor FACTS help
line at (800) 245-4505. For electronic submittals, a diskette containing the completed VIF,
along with a hard copy printout of the completed form, should be mailed to the address listed
in Section VI above.
VIII. EPA's Authority for Submittal and Burden Statement
EPA's authority for conducting this First Invitation for Submittals is Section 311 of the
Superfund Amendments and Reauthorization Act of 1986 (42 U.S.C. 9601 et seq.). Under
Section 311, EPA may collect and disseminate information related to the use of innovative
monitoring and measuring technologies for the detection of hazardous substances at hazardous
waste sites.
EPA estimates that the vendor reporting burden for this collection of information will average
25 hours per respondent for one original submittal. This estimate includes the time applicants
will require to review and maintain the data needed, and to complete and review the VIF.
Send comments regarding this burden estimate, or any other aspect of reducing the burden, to
Chief, Information Policy Branch, PM-223, U.S. Environmental Protection Agency, 401 M
Street, S.W., Washington, D.C. 20460; and to Paperwork Reduction Project (OMB #2050-
0114), Office of Information and Regulatory Affairs, Office of Management and Budget,
Washington, D.C. 20503.
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VENDOR FIELD ANALYTICAL
AND CHARACTERIZATION TECHNOLOGIES SYSTEM
(VENDOR FACTS)
VENDOR INFORMATION FORM 2.0
PART 1 : GENERAL INFORMATION
Part 1 contains questions about general information on your company. Part 1 must be completed for a
technology to be included in Vendor FACTS.
1.1 Date Submitted
1.2 Developer/Vendor Name
1.3 Street Address
1-4 CitV __ State/Province Zip Code
1.5 Country
1.6 a. Contact Name(s)
b. Contact Title(s) _
1.9 Internet/e-mail address
1.10 Home Page Address
1.7 Contact Phone ( ) ; ext.
1.8 Fax Number ( ) -
Vendor FACTS 2.0 may include the capability to display the company logo for each vendor's technology. If
possible, please include with your VIFsubmittal an electronic copy of your company logo in a Bitmap
(BMP), Tag Image File (TIF), or PCX format
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW
Part 2 asks questions about the technology type, trade name, patent information, technology description,
highlights, limitations, media monitored, monitoring targets as well as other general questions related to a
vendor's technology. Part 2 must be completed for a technology to be included in Vendor Facts.
2.1 Technology Type. Check one only. Fill out a separate form for each additional technology.
Analytical
O Acoustic Wave Chemical Sensors
O Air Measurement (Weather Measurement
Technologies Excluded)
O Analytical Detectors (Stand Alone Only)
LJ Biosensors
LJ Chemical Reaction-Based Indicators (Colormetric)
LJ Laser Spectroscopy
LJ Fiber Optic Chemical Sensors
LJ Gas Chromatography
LJ Other Chromatography
LJ Immunoassays
LJ Infrared Monitors
O Mass Spectroscopy (may include GC/MS)
LJ Soil Gas Analyzer Systems
LJ Ion Mobility Spectroscopy
LJ Other Spectroscopy Techniques
LJ X-Ray Fluorescence Analyzers
LJ Electrochemical-based Detectors
Geophysical
LJ Downhole sensors - Vadose Zone
LJ Downhole sensors - Saturated Zone
LJ Ground Penetrating Radar
LJ Subsurface Electromagnetic
LJ Seismic Reflection/Refraction
LJ Subsurface Resistivity/Conductivity
LJ Subsurface Magnetrometry
Extraction (chemical)
LJ Extraction Technologies (Analytical Traps)
LJ Supercritical Fluid Extraction
LJ Thermal Desorption
Sampling or Sampler Emplacement
LJ . Air/Gas Sampling Technologies
LJ Water Sampling Technologies
LJ Soil Sampling Technologies
LJ Product Sampling Technologies
LJ . Borehole Technologies
Other:
Vendor Facts 2.0 may include the capability to display a picture of your technology. If possible, please
include with your VlFsubmittal a picture of your technology in a Bitmap (BMP), Tag Image Fife (TIF) or
PCX electronic format.
2.2 Trade Name or Model Number Assigned By Vendor (if different than name listed in Question 2.1).
2.3 Registered trademark?
LL Yes Q No
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW
2.4 Vendor Services. Check all that apply.
LJ Equipment manufacturer
LJ Subcontractor for characterization, monitoring, or measurement
LJ Prime contractor for full-service characterization, monitoring, or measurement
LJ Technology sales
LJ Technology rentals or leases
LJ Other (specify)
2.5 Patents
a. Is technology patented? Q Yes Q No Patent #
b. Is patent pending? [__ Yes Cj No
2.6 Technology Maturity. Check only one. Using the following definitions, indicate the operational
status of the technology.
a. LJ Mature. Available equipment is sized and commerciaily available for actual monitoring or measurement.
b. LJ Pre-commercial. Available equipment is of sufficient size to verify technology feasibility or establish the design
and operating conditions for a commercially available system. However, it is not of the final size or design
which will be marketed, however, the operating procedures and characteristics will not change upon final
design for commercialization.
Expected date of availability of unit (month/year):
2.7 What is the intended use of your technology?
Q Analytical measurement [j Health and Safety Monitoring
LJ Site Mapping Q Physical Characterization
Q Leak/Leachate Detection Q .Sample Collection
Q Other:
2.8 Technology Evaluation, Verification, on Certification Programs. Is this technology being tested,
or has this technology been tested in a technology evaluation, verification, or certification program
such as EPA's SITE Monitoring and Measurement Technologies Program?
EPA SITE Program: Q Yes Cj No
Consortium for Site Characterization Technology's (CSCT) verification Program Q Yes Q No
Other: . Q Yes Q No
Name of project and contact: ^
Name of report and EPA document number:
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
2.9 Description of Technology. In 300 words or less, describe the monitoring/measurement device or
technology, including scientific principles on which the technology is based; whether full-scale system
is continuous, on-demand, or single measurement; and whether the technology is transportable,
portable, or in situ. Part 3 allows more detail for technology-specific information. Part 4 allows more
detail for equipment capabilities and operation.
:&&. '. ' ''" EXAMPLE
'$&:> '; '-:' :>|;' ' ' v> *"*
:ril?:.; . Description of Technology
,?";'' .'.' .
ฐ:'' ABC Cotporafoniias developed an innovative detector for fluorescing analytes in water using fiberoptics. Thlssensor-
which existsas a detector.cn a cona penetrometer or as permanent monitor? uses a fibeppptic bundle to transmit laser
, energyas well as to detect resultant fluorescence analytes such'as pesticides;- The returned spectra is automatically
; compared to a spectral .library resident in a personal computer to distinguish the typeof pesticideretc.?, '";
When used as an fn situ monftor.the fiber optic bundle is left in place in a small diameter screened PVC casing. At
tha surface, the;end;of the fiber optic bundle is protected ,in a small case mounted on the PVC.ror other; casing.
Readings are made by attaching the fiber optic connector to the receptade,on a portable fluon'meter.makfng-aifew
-adjustments to maximize outputstrength. After transduction, the signal is stored and analyzed within the PC.
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
2.10 Technology Highlights. In 200 words or less, describe the key marketable features of the
technology in terms of parameters measured, performance, implementation, or cost. Include
highlights such as monitoring niche and advantages over other technologies.
EXAMPLE-'
Technology Highlights ,, '
. '.': '' ",ป ," - I
The SUPER sensor can operate nra wide range of subsurface conditions from 60% saturations
in the;vadose zone, to below the water table, and up to 200 ft. in depth. THe measurable
contaminant range is from under 10 ppb to pure product; while differentiation concentration*
ranges from 50 ppb through pure product;. When used: as a sensor, on a cone penetrometer,
continuous readings can be recorded:,at rates of,1 ftr/min. and:detection limits of 30 ppb. Full
specification-can be accomplished by stopping for no more than 20 seconds.
Tfie SUPEB sensor can identify and-quantify PAH's, pesticides, and BTEX. Once system
.hardware and software are configured, there is virtually no cost for subsequent analyses. Asv
,;>a left-in-piace monitor (which connects to portable instruments) each installation costs from $50
tD $150; Thause of a cone penetrometer eliminates the need for slow and costly conventional >
drilJihg and'weli installation. * .v ! - - S
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
2.11 Technical Limitations. In 200 words or less, describe the technical limitations, such as specific
contaminants, site conditions, and waste preparation that could adversely affect applicability or
performance.
. . , EXAMPLEE ,;. :.'
: Technology Limitations
ThaSUPER sensor, relies on the ability of a target compound to ..fluorescence, which currently
limits detection to those compounds mentioned.; An additional problem can exist where two
compounds have fluorescence spectra which are close to each otherrin this case differentiation
between the two may not be possible. Minor problems,can exist in the presence of humic acids
which cause interferences; however, this can be /alleviated through preliminary chemical
analysis and subsequent calibration. Due to transmission losses, the maximum length of the
fiber bundle is limited to 200 feet when used as an in situ,monitor. When used as a portable
monitoring device -where the fiber bundle is frequently handled, a: more flexible bundle is.
generally used .which has greater transmission lossvlimiting maximumrdepth to 125 feet.
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
2.12 Other Comments. In 200 words or less, provide additional technology information, such as
technology history, status, capabilities, experience, and applicable permits obtained (e g TSCA
RCRA).
EXAMPLE:
Other Comments
n - * t"^ * * v
^ The SUPER sensor has been successfully used in the monitoring mode-on five hazardous
> waste sites and was shown to compare favorably with results of traditional analytical methods.
As there currently exist cone penetrometer systems using fiber optics and sapphire windows
(which are essentially the same as the SOPER system- requirements),:adaptation;'tos a
penetrometer:system is not anticipated to degrade results-Trie SUPER cone penetrometer
^ systenrris anticipated for fielding in May of 19951;
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
2.13 Media monitored or characterized. Check "actual" for all media in which the technology for
monitoring or measurement has been used. Check "potential" for all media to which the
technology may be applied in the future.
Actual Potential
Q Q Soil (in situ)
Q Q Soil (ex situ)
LJ Lj Sludge (Does not include municipal sewage sludge.)
LJ LJ Solid (for example, slag)
LJ LJ Natural sediment (in situ)
LJ LJ Natural sediment (ex situ)
Q Q Soil Gas
LJ LJ Air pamculates and aerosols
LJ LJ Air vapors
LJ LJ Leachate (in situ)
LJ LJ Surface Water (in situ)
Q Q Groundwater (in situ) [Includes measurement of ground water and/or saturated soil.]
LJ O Aqueous Sample (ex situ) (includes ex situ samples of groundwater or surface water,
leachate, or waste water from a hazardous waste site)
LJ LJ Dense nonaqueous phase liquids (DNAPL) [in situ)
Q O Light nonaqueous phase liquids (LNAPL) [in situ]
LJ O Other (specify) .
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2.14
Vendor Name _^^
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
Monitoring Targets. Check all that may apply. Check "actual" for ail that have been monitored
or measured by your technology (i.e., data exist). Check "potential" for all that the technology may
be applied to in the future. Data for actual contaminants monitored or measured should be
included in Part 5, Technology Performance.
Actual Potential
Ul LJ Heavy metals
LJ t_J Nonmetallic toxic elements
LJ LJ Radioactive metals
Q Q Asbestos
LJ LJ Inorganic cyanides
LJ LJ Inorganic corrosives
Chemical
Actual Potential
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
LJ Halogenated volatiles
LJ Halogenated semivolatiles
LJ Nonhalogenated volatiles
LJ Nonhalogenated semivolatiies
LJ Organic pesticides/herbicides
LJ Dioxins/furans
LJ PCBs
LJ Polynuclear aromatic
hydrocarbons iPAHs)
LJ Solvents
LJ Benzene-tofuene-ethylbenzene-
xylene (BTEX)
LJ Acetonitrile (organic cyanide)
LJ. Organic corrosives
LI BOD/COD
LJ Chemical/bioiogical warfare agents
LJ Gases
LJ Total Petroleum Hydrocarbons
(TPH)
Physical
Actual
a
a
a
a
a
Potential
Q Water Table
LJ Soil Types
LJ Bedrock Stratigraphy
LJ Resistivity
LJ Conductivity
Miscellaneous
a
a
LJ Explosives/propellants
LJ Organometallic pesticides/herbicides
a a
Other (specify)
Actual Potential
LJ i_J Buried Ferrous Materials
LJ LJ Buried Non Ferrous Materials
Q LJ Soil Moisture
LJ LJ Temperature
LJ LJ Other (specify)
LJ ij pH/Corrosivity
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
2.15 Applicable Industrial Waste Sources or Site Types. Check all that may apply. Check "actual" for
all waste sources or site types on which your technology has been or is currently capable of being
used. Check "potential" for waste sources or all site types that the technology may be applied to in
the future. See Table A for wastes typically associated with each industry.
Actual Potential
LJ LJ Agriculture
LJ LJ Battery recycling/disposal
LJ LJ Chloro-alkali manufacturing
CD Q Coal gasification
LJ LJ Dry cleaning
LJ LJ Electroplating
LJ LJ Gasoline service station/petroleum
storage facility
LJ LJ Herbicide manufacturing/use
LJ LJ Industrial landfills
LJ LJ Inorganic/organic pigments
LJ LJ Machine shops
LJ LJ Metal ore mining and smelting
LJ LJ Municipal landfill
Actual Potential
LJ LJ Munitions manufacturing
LJ LJ Paint/ink formulation
LJ LJ Pesticide manufacturing/use
LJ LJ Petroleum refining and reuse
LJ LJ Photographic products
LJ LJ Plastics manufacturing
LJ LJ Pulp and paper industry
LJ LJ Other organic chemical manufacturing
LJ LJ Other inorganic chemical manufacturing
LJ LJ Semiconductor manufacturing
LJ LJ Rubber manufacturing
LJ LJ Wood preserving
LJ LJ Uranium mining
a a
Others (specify)
2.16 Waste Management Practice. Check all that may apply. Check "actual" for all waste management
practices which results in a waste on which your technology has been or is currently capable of being
used. Check "potential" for waste practices that the technology may be applied to in the future.
Actual Potential
LJ LJ Above ground storage tank
O LJ Co-disposal landfill
LJ LJ Contaminated aquifer-
contamination source unknown
LJ LJ Discharge to sewer/surface water
LJ LJ Disposal Pit
LJ LJ Dumping-unauthorized
LJ LJ Explosicve/Ordnance disposal
LJ LJ Fire/Crash Training Area
LJ LJ Incineration Residuals Handling
LJ LJ Industrial Landfill
LJ LJ Lake or River Disposal
LJ LJ Landfarm/Land Treatment Facility
LJ LJ Manufacturing Process
Actual Potential
a
a
a.
a
a
a
a
a
a
a
a
a
a
LJ Ocean Disposal
LJ Open Burn/Open Detonation Area
LJ Petroleum, Oil, Lubrication (POL) line
LJ Recycling (other than as primary operation)
LJ Road Oiling
G Spill
LJ Storage-Drums/Containers
Surface Impoundment/Lagoon
Underground Injection
Underground storage tanks
Waste Pile
LJ Waste Treatment Plant
LJ Others (specify)
Q
a
a
a
10
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Vendor Name
Technology Type
PART 2: TECHNOLOGY OVERVIEW (continued)
Table A
Contaminants/Wastes Associated With industrial Waste
Sources or Types of Sites
1. Agriculture
2. Battery recycling/disposal
3. Chloro-alkali manufacturing
4. Coal gasification
5. Dry cleaning
6. Electroplating
7. Herbicide manufacturing/use
8. Industrial landfills
9. Inorganic/organic pigments
10. Machine shops
11. Metal ore mining and smelting
12. Municipal landfills
13. Munitions manufacturing
14. Paint/ink formulation
15. Pesticide manufacturing/use
16. Petroleum refining and reuse
17. Photographic products
18. Plastics manufacturing
19. Pulp and paper industry
20. Other organic chemical manufacturing
21. Other inorganic chemical manufacturing
22. Semiconductor manufacturing
23. Rubber manufacturing
24. Wood preserving
25. Uranium mining
Pesticides
Lead (acid)
Chlorine compounds, mercury
PAHs
Solvents
Chrome, metals
Pesticides
Wastes from Multiple Sources
Solvents, chrome, zinc
Metals, oils
Metals
Wastes from multiple sources
Explosives, lead
Solvents, some metals (chrome, zinc)
Pesticides
Petroleum, hydrocarbons, BTEX
Silver, bromide, solvent
Polymers, phthalates
Chlorinated organics, dioxins
Organics, metals (used as catalyst)
Inorganics, metals
Degreasing agents (solvents), metals
Rubber, plastics, polymers, organics
Creosote, PCP, arsenic, chrome, PAHs
Uranium, radioactive metals
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Vendor Name
Technology Type
PARTS: TECHNOLOGY-SPECIFIC INFORMATION
Part 3 asks questions related to the specific details of a vendor's technology. Part 3 must be completed
for a technology to be included in Vendor Facts.
Physical Dimensions and Shipping Requirements
3.1 What components are included with your system?
Indicate the dimensions of the apparatus (how much space needed for each component)?
Component: Height: Width: Length: Weight:
Component: Height: Width: Length: Weight:
Component: Height: Width: Length: Weight:
Component: Height: Width: Length: Weight:
3.2 Indicate the shipping requirements of the technology.
Q Standard Freight
Q Dangerous Goods
Q Hazardous Goods
3.3 If dangerous or hazardous goods is checked, please describe any special shipping requirements.
Power Requirements
3.4 Does your field analytical or characterization technology require one or more of the following power
supplies (check all that apply):
Q Batteries - type:.
QACHOV
Q Other (specify) _
Q Natural/LP gas
Q AC 3 phase
Q Power supply is not required
3.5 If your field analytical or characterization technology is battery-powered, how long can it continuously
operate before recharging or new batteries are needed?
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Vendor Name
Technology Type
PART 3: TECHNOLOGY-SPECIFIC INFORMATION (continued)
Operation of the field analytical or characterization technology
3.6 Reagents/Supplies. Does your field analytical or characterization technology require the use of
reagents or supplies?
QYes Q No
3.7 If yes, please describe the reagents or supplies required. ^^
3.8 If yes, are they supplied with the instrument package, or must they be purchased separately?
What is their shelf life?
3.9 Are the reagents or supplies sensitive to environmental conditions (that is, are environmental controls
such as refrigeration required)?
Q Yes Q No
Calibration
3.10 Indicate the type and frequency of calibration required (check all that apply).
TYPE ~ FREQUENCY
Q One-time, initial calibration is set at the factory
LJ Periodic, calibration is set at the factory
Q Theoretical, based on literature
LJ Empirical, based on standards
Gl Site specific
Q Other:
3.11 Does the instrument need to be calibrated for each specific contaminant that is analyzed?
QYes Q No
13
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Vendor Name
Technology Type
PART 3: TECHNOLOGY-SPECIFIC INFORMATION (continued)
Sample Preparation and Preservation
3.12 What sample preparation and preservation is required?
PHYSICAL
Q Homogenation
Q Sieving
O Grinding
Q Cooling
Q Other:
CHEMICAL
Q Sorption (trapping)
Q Chemical addition
Q pH adjustment
Q. Other:
3.13 Is site preparation required?
Q Yes
QNO
3.14 If yes, please describe.
Maintenance
3.15 Is routine maintenance required?
QYes
Describe routine maintenance:
3.16 If yes, who performs routine maintenance?
Q Vendor Q Operator Q Other:
Residual Wastes
3.17 Does your field analytical or characterization technology directly or indirectly produce any residual
wastes (hazardous or nonhazardous)?
QYes
QNO
3.18 If yes, how are residual wastes that are produced by your field analytical or characterization
technology managed?
3.19 Are disposal costs associated with the waste that is produced?
Q Yes QNo Q Varies with local regulations
14
-------�
Vendor Name
Technology Type
PART 3: TECHNOLOGY-SPECIFIC INFORMATION (continued)
Health and Safety
3.20 What protective equipment or health and safety procedures are required to operate the
technology? check all that apply
Q Protective clothing, specify:
Q Personal monitoring
Q Waste storage Q Reagent storage
Other:
3.21 List any health and safety issues associated with the instrument.
Data Tvoe and Interpretation
3.22 What type of data does you technology produce? (check all that apply)
Ul Qualitative (yes/no, absence or presence)
LJ Quantitative (specific number)
Q Semi-quantitative (measurement within range)
3.23 What data manipulation is required and how long does it take to obtain useable results?
LJ None, the technology automatically produces useable data.
LJ Some data manipulation is required to produce a data point.
LJ Data must be entered into a software program that calculates or produces useable data.
Describe the procedure and indicate time requirements:
15
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Vendor Name
Technology Type
PART 3: TECHNOLOGY-SPECIFIC INFORMATION (continued)
Operating conditions (temperature, moisture, etc.)
3.24 Check the matrix and environmental conditions that may affect or interfere with the performance
of your field analytical or characterization technology.
Q Consolidated or not
Q Permafrost
Q Percent Organic Matter
Q Other:
Matrix
Q Soil texture
Q Moisture
Q Saturated
Q Unsaturated (indicate range):
Environmental Conditions
Q Temperature (indicate range needed):
QRain
Q Daylight
Q Humidity
3.25 Can the technology be operated successfully outside (i.e. a controlled environment is not
necessary)?
QYes
Permit Requirements
QNO
3.26 Are users of the technology required to obtain any Federal or State permits, licenses, or
certifications for transportation, operation, or ownership of the technology?
QYes
Type Required:
Q Federal Q State
Please list the type of permit required:
Q Other
16
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Vendor Name
Technology Type
PART 3: TECHNOLOGY-SPECIFIC INFORMATION (continued)
Technical Support
3.27 Is special training required and/or provided?
LJ Yes, Training Required
LJ Yes, Training is Not Required, but is provided upon request
LJ No, Training is not required or provided
3.28 If yes, indicate the duration and cost of the training and whether it is conducted on site or off site.
Q On site Q Off site Q Negotiable
Duration: Duration:
Cost: Cost:
3.29 Quality of technical support. If I am in the field and the instrument breaks down or is not giving
quality results, what kind of response will I get?
Q 24 hour hotline
LJ 24 hour answering service - please indicate average response time:
Q Regular business hours - please list hours:
LJ Service contract
Q Other:
17
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Vendor Name
Technology Type
4.1
PART 4: EQUIPMENT/CAPABILITIES AND OPERATION
Part 4 allows you to describe the specific capabilities and operation of your equipment.
Major Method Processes. In 300 words or less, describe the standard operating procedures of
your system", including a list of operating steps. Provide more detail than you did in Question 15.
.:.,-.. EXAMPLE
Major Unit Processes-
Full-scale equipment consists of a 20 ton truck in which are contained the hydraulics, penetrometer sections, controls,
cwnpuTe^pecttofluorimster, and personnel. Penetrometer sections are standard 3 ft by 1.75tn. d.ameterw.th the head-
toed with a hardened steep tip. The cone section contains sensors for tip res.stance and sliding friction as well as
containing a sapphire window-protected sensor with an insulated fiber optic bundle leading to system equipment. This
system Is advanced hydraulically in three-foot increments to depths up to 300 ft. in unconsol.dated material. The following
are standard steps, involved in using the device in full-scale operation:
1. Prior to use. site-specific soil samples and lab standards of known contaminant values are used to
calibrate the SUPER system.
2.i, System integrity checks are performed;, *
3. ; The apparatus is assembled as the penetrometer is advanced through the bottom of the truck.
-." . . - ฐ> "' * ><
4. - The penetrometer is steadily driven into the soil at a rate, of 1 ft/mm, while data is stored and'
processed by the computer. Data is simultaneously pnnted on a strip log. Tip and sliding resistance
!. aria simultaneously recorded and plotted. j ' ^'
*, ' -'. . ;,- v -./:, ^ * - 4 - i ~~r*'i ซ^ < , , ,
K:-ซ Back filling with grout is performed during a second run usmg-a grouting tip with grout emplaced from
: the bottom. ; " *, >~<
18
-------�
Vendor Name
Technology Type
PART 4: EQUIPMENT/CAPABILITIES AND OPERATION (continued)
4.1 Major Method Processes (continued).
19
-------�
Vendor Name
Technology Type
PART 4: EQUIPMENT/CAPABILITIES AND OPERATION (continued)
4.2 Equipment is (check one only)
LJ Portable Q Transportable
4.3 Sample Throughput/Measurement Frequency. Please indicate the sample throughput (that is,
how long it takes to generate one useable data point). Throughput is measured by the total time
required to obtain the data divided by the total number of data points.
Units
per hour per day per ft2 per linear foot per acre feet per day
continuous readout
Q Other (specify)
Cost Information
4.4 a. Can your field analytical or characterization technology be purchased, leased, or rented?
Q Purchased Q Leased Q Rented Other:
b. If your field analytical or characterization technology can be purchased for individual use please
indicate cost below.
Total unit cost $ unit
c. If your field analytical or characterization technology can be rented or leased directly please
indicate the rental or lease fee below.
S hr $ day $ week S month $ analysis
S linear ft
Other costs:
If you do not lease the equipment directly, can you provide information on third party sources?
QYes QNO
d. Does the vendor supply everything necessary to use and obtain data with the rental or purchase
of the technology?
Q Yes Q No
20
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Vendor Name
Technology Type
PART 4: EQUIPMENT/CAPABILITIES AND OPERATION (continued)
e. Please indicate other costs associated with your field analytical or characterization technology
(for example, indicate the cost of reagents if they are required and were not included in the price
above). Also indicate the cost of refills or routinely required replacement parts.
4.5 Factors Affecting Unit Price. With "1" the highest, rank any of the following items that will have a
significant effect on the unit price.
. Initial contaminant concentration Site preparation
. Sample handling/preprocessing pH, Eh, moisture
. Turbidity, airborne particuiates Grain size, soil type
. Depth to contamination Access to power
. Depth to ground water Labor rates
. Interfering analytes. volatility Detection limit/resolution needed
Other Factors (specify)
Developmental or Bench-Scale Studies
4.6 Can you conduct developmental or bench-scale studies on some types of waste at your location?
Q Yes Q No At a contaminated site? Q Yes Q No
4.7 Give the estimated range of quantity or size of target material needed to test the feasibility of this
technology on a specific target material.
.to
. (units)
4.8 Estimate total number of bench-scale studies conducted on actual target materials from different
sources or sites. Count studies pertaining to the same site once, regardless of the number of
different target materials.
21
-------�
Vendor Name
Technology Type
PARTS: TECHNOLOGY PERFORMANCE
Part 5 asks questions about the performance of a vendor's technology. Part 5 is optional; however, EPA
encourages vendors to complete as much of the questionnaire as possible.
Precision and Accuracy
5.1 Specify the maximum measurement precision of the instrument.
Specify the maximum measurement of accuracy of the instrument.
If the performance of your technology is site-specific (that is, the quality of the results (data) it
produces can vary from site to site) please complete question 5.3
If the performance of your technology is the same from site to site (that is, it can always achieve
the same method detection limit on a contamination) please complete question 5.2.
COCs, MDL and operational range
5.2 Please indicate the method detection limits (MDL) and range of detection for contaminants of
concern (COG) in each matrix analyzed?
Contaminants of concern Matrix Method detection limit Concentration Range
Vendors should submit data on either contaminant groups or specific contaminants. Please provide
a hard copy of this data that can be photocopied and included in the VIF. Please do not spend time
typing or developing a contaminant data list.
22,
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
Complete question 5.3 if the performance of your technology can vary from site to site (that is, it is site-
specific).
5.3 List as many as five representative projects that also can serve as references. List information for
only one project per sheet. For projects that have more than one application, fill out a separate sheet
for each application. Provide only the performance data that is specific to each project listed.
Commercial projects are of most importance. EPA reserves the right to add information on projects
conducted for the federal government of which EPA is aware.
a.
Site Name or Industry Type if Client
Identity is Confidential;?, ^ ;
Site-Type orWaste Source (Check all that apply)
Agriculture
Battery recycling/disposal
Chloro-atkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Machine shops
Metal ore mining and smelting
Municipal Landfill
Munitions Manufacturing
Paint/ink formulation
Pesticide manufacturing/use
Petroleum refining and reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Others (specify)
Waste Management Practice (Check all that apply) v
Above ground storage tank
Co-disposal landfill
Contaminated aquifer-
contamination source
unknown
Discharge to sewer/surface
water
Disposal Pit
Dumping-unauthorized
Explosicve/Ordnance
disposal
Fire/Crash Training Area
Incineration Residuals Handling
Industrial Landfill
Lake or River Disposal
Landfarm/Land Treatment Facility
Manufacturing Process
Ocean Disposal
Open Burn/Open Detonation Area
Petroleum, Oil, Lubrication (POL)
line
Recycling (other than as primary
operation)
Road Oiling
Spill
Storage-Drums/Containers
Surface Impoundment/Lagoon
Underground Injection
Underground storage tanks
Waste Pile
Waste Treatment Plant
Others (specify)
Location
City
Application or Project Typ&?(ChecksitUiatappty)}?~
State/Province:
Country
Full-Scale
Field Demonstration
Bench-Scale Study
TSCA National Demonstration
TSCA Research and Development
CSCT Verification Program
EPA SITE Characterization and
Monitoring Program
Research
Other (specify):
Ragulation/Statirte/Organization
fCKeckall that apply) *
~% Media YC/tecfr all that apply) i >
RCRA Corrective Action
CERCLA
TSCA
Safe Drinking Water Act
UST Corrective Action
State (specify)
DOD
DOE
Other (Specify)
Not Applicable
. Soil (in situ)
Soil (ex situ)
Sludge
Solid
Natural sediment (in situ)
Natural sediment (ex situ)
Air particulates and aerosols
Leachate (in situ)
Other
Aqueous sample (ex situ)
Ground water (in situ)
Soil gas
Air vapors
Dense nonaqueous phase liquids
(DNAPL) [in situ]
Light nonaqueous phase liquids
(LNAPL) pn situ]
Surface water (in situ)
Equipment Scale (Check-one only)
No. of Measurements per day.
Total No. of Measurements
Mature
Pre-commercial
Ongoing
Month
Completed
Year
23
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
a. (continued)
Note: (1)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH,
which can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13. ranwaru
indicate the method detection limit, ndicate a range if the MDL can vary. ... ... t
The w?cenSn range is the range of concentrations over which the technology was capable of operating for
Include alfrelated costs necessary to set up, read, record, and compute measurement.
.,,'.--, 9 J
: ' Performance Data/
."cor;",;....
ContamlnantorPollutant
Parameter.
(Example) Benzene
(2)
Matrix
Soil
Conditions or interference adversely affecting perform
(3)
Method - -..
Detection Limits,
(Mm. to Max.)
" 25^50
Units
ppm
~ * -s v
(4)*
ซf
Concentration
Range
10-100
*> ^
' >
Units
ppm-
Cost Information'^)" -
Estimated or actual total cost of using this
technology for this project
S (total)
What items or activities are included in these cost(s) (e.g., mobilization,
demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Nanu, Comoanv
Is Literature Available on this Project?
(You may wish to include these citations
in Part 7)
Yes No
Additional project information site conditions, mode of operation, derivation of accuracy and precision, and other pertinent informal
an).
24
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
b.
Note: (1)
(2)
(3)
(4)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents TPH which
can be analyzed using a specific test method, can be listed as an individual contaminant
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operating for this
pro] 6ct<
Include all related costs necessary to set up, read, record, and compute measurement.
Site Name or Industry Type if Client -
Identity Is Confidential: ; :yปy
Site Typew^Wastg.Sburoe -(Check all that apply)
Agriculture
Battery recycling/disposal
Chloro-alkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Machine shops
Metal ore mining and smelting
Municipal Landfill
Munitions Manufacturing
Paint/ink formulation
Pesticide manufacturing/use
Petroleum refining and reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Others (specify)
Waste Management Practice (Check all that apply)
Above ground storage tank
Co-disposal landfill
Contaminated aquifer-
contamination source
unknown
Discharge to sewer/surface
water
Disposal Pit
Dumping-unauthorized
Explosicve/Ordnance
disposal
Fire/Crash Training Area
Incineration Residuals Handling
Industrial Landfill
Lake or River Disposal
Landfarm/Land Treatment Facility
Manufacturing Process
Ocean Disposal
Open Burn/Open Detonation Area
Petroleum, Oil, Lubrication (POL)
line
Recycling (other than as primary
operation)
Road Oiling
Spill
Storage-Drums/Containers
Surface Impoundment/Lagoon
Underground Injection
Underground storage tanks
Waste Pile
Waste Treatment Plant
Others (specify)
Location
City
Application or Project Type (Check all tfiatapply)
State/Province:
Country
Full-Scale
Field Demonstration
Bench-Scale Study
TSCA National Demonstration
TSCA Research and Development
CSCT Verification Program
EPA SITE Characterization and
Monitoring Program
Research
Other (specify):
,; Reguiation/Statute/Organization
(Ctmekaltthatapptyf!
RCRA Corrective Action
CERCLA
TSCA
Safe Drinking Water Act
UST Corrective Action
State (specify)
DOD
DOE
Other (Specify)
Not Applicable
Soil (in situ)
Soil (ex situ)
Sludge
Solid
Natural sediment (in situ)
Natural sediment (ex situ)
Air particulates and aerosols
Leachate (in situ)
Other
Aqueous sample (ex situ)
Ground water (in situ)
Soil gas
Air vapors
Dense nonaqueous phase liquids
(DNAPL) pn situ]
Light nonaqueous phase liquids
(LNAPL) [in situ]
Surface water (in situ)
Equipment Scale (Check one only)
No. of Measurements per day.
Total No. of Measurements
Mature
Pre-commercial
Ongoing
Month
Completed
Year
25
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
b. (continued)
Wore: (1)
(2'
il
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH,
which can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operating for
this project.
Include all related costs necessary to set up, read, record, and compute measurement.
,-.,.... .:.-.'-...-. _ *ป v ; " ,?%^Sf
.--..- -' Performance Data i A-
f)T '':';'?...
Contaminant or Pollutant
Parameter."
(Example) Benzene-
:&--. <ฎ"
Matrix
Soil
Conditions or interference adversely affecting perform!
car
Method
Detection Limits'
(Mm; to Max.)
25-50
Units
ppnv
ป (4)
Concentration * *
Range
10-100
S
v
V
/ ,
Units
.ppm
ince
: Cost Information (5)
Estimated or actual total cost of using this
technology for this project
S (total)
What items or activities are included in these cost(s) (e.g., mobilization,
demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Name Company
Address
Is Literature Available on this Project?
(You may wish to include these citations
in Part 7)
Yes No
Additional project Information site conditions, mode of operation, derivation of accuracy and precision, and other pertinent informatio
n).
26
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
c.
Note:
(1)
(2)
(3)
(4)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH, which
can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operatinq for this
project.
Include all related costs necessary to set up, read, record, and compute measurement.
Site Name or industry Type if Client
Identity is Confidential: ปtSW ;
$lte Type -be Waste Source; (Check all that apply}
Agriculture
Battery recycling/disposal
Chloro-alkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Machine shops
Metal ore mining and smelting
Municipal Landfill
Munitions Manufacturing
Paint/ink formulation
Pesticide manufacturing/use
Petroleum refining and reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Others (specify)
Waste Management Practice (Check all that apply)
Above ground storage tank
Co-disposal landfill
Contaminated aquifer-
contamination source
unknown
Discharge to sewer/surface
water
Disposal Pit
Dumping-unauthorized
Explosicve/Ordnance
disposal
Rre/Crash Training Area
Incineration Residuals Handling
Industrial Landfill
Lake or River Disposal
Landfarm/Land Treatment Facility
Manufacturing Process
Ocean Disposal
Open Burn/Open Detonation Area
Petroleum, Oil, Lubrication (POL)
line
Recycling (other than as primary
operation)
Road Oiling
Spill
Storage-Drums/Containers
Surface Impoundment/Lagoon
Underground Injection
Underground storage tanks
Waste Pile
Waste Treatment Plant
Others (specify)
Location
City
State/Province:
Country
Application or ProjectType (Check all that apply)
Full-Scale
Field Demonstration
Bench-Scale Study
TSCA National Demonstration
TSCA Research and Development
CSCT Verification Program
EPA SITE Characterization and
Monitoring Program
Research
Other (specify):
Regulation/Statute/Organization
(Check all that apply)
Media (Check all that apply}
RCRA Corrective Action
CERCLA
TSCA
Safe Drinking Water Act
UST Corrective Action
State (specify)
DOD
DOE
Other (Specify)
Soil (in situ)
Soil (ex situ)
Sludge
Solid
Natural sediment (in situ)
Natural sediment (ex situ)
Air particulates and aerosols
Leachate (in situ)
Other
Not Applicable
Aqueous sample (ex situ)
Ground water (in situ)
Soil gas
Air vapors
Dense nonaqueous phase liquids
(DNAPL) fin situ]
Light nonaqueous phase liquids
(LNAPL) On situ]
Surface water (in situ)
Equipment Scale (Check one only}
Project Status
No. of Measurements per day.
Total No. of Measurements
Mature
Pre-commercial
Ongoing
Month
. Completed
Year
27
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
c. (continued)
Note: (1)
I?
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH,
which can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operating for
this project.
Include all related costs necessary to set up, read, record, and compute measurement.
- ' ' "' Performance Data ซi " '
. ,>(ฃV
Contaminant onPoIlutant^
Parameter"
(Example) Benzene
.';::' ess1'..: r:;
Matrix ;
Soil '
Conditions or Interference adversely affecting perform-
v : " (3)8?
Method.;
Detection Limits ;
(Mfn.-to Max.)
25~5
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
d.
Note:
(1)
(2)
(3)
(4)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH, which
can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operating for this
project.
Include all related costs necessary to set up, read, record, and compute measurement.
Site Name or Industry Type if Client
identity is Confidential:
Site Type or Waste Source (Check all thatapply) *
Aqriculture
Battery recycling/disposal
Chloro-alkali manufacturinq
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Machine shops
Metal ore mining and smelting
Municipal Landfill
Munitions Manufacturing
Paint/ink formulation
Pesticide manufacturing/use
Petroleum refining and reuse
Photoqraphic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
^
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Others (specify)
ฃซ .
Waste Management Practice (Check all that apply) :W: , 5 - ,-* " * ' " ^Jt-it
Above ground storage tank
Co-disposal landfill
Contaminated aquifer-
contamination source
unknown
Discharge to sewer/surface
water
Disposal Pit
Dumping-unauthorized
Explosicve/Ordnance
disposal
Location
City
State/Province:
Country
. ; Regulation/Statute/Organization
(Check alt that apply)
RCRA Corrective Action '.
CERCLA
TSCA
Safe Drinking Water Act
UST Corrective Action '
State (specify)
DOD
DOE ;
Other (Specify)
Not Applicable >
!
No. of Measurements per dav
Total No. of Measurements '
Fire/Crash Training Area
Incineration Residuals Handling
Industrial Landfill
Lake or River Disposal
Landfarm/Land Treatment Facility
Manufacturing Process
Ocean Disposal
Open Burn/Open Detonation Area
Petroleum, Oil, Lubrication (POL)
line
Recycling (other than as primary
operation)
Road Oilinq
Spill
Storaqe-Drums/Containers
Surface Impoundment/Laqoon
Underground Injection
Underground storaqe tanks
Waste Pile
Waste Treatment Plant
Others (specify)
Application or Project-Type (Check all that apply)
Full-Scale
Field Demonstration
TSCA National Demonstration
CSCT Verification Program
EPA SITE Characterization and
Monitoring Program
f :>'';". ' "''''.'.'< .~;:j&i?:' M&\a~(Ciiei
Aqueous sample (ex situ)
Ground water (in situ)
Soil oas
Air vapors
_ Dense nonaqueous phase liqu
(DNAPL) [in situ]
Light nonaqueous phase liquid
(LNAPL) [in situ]
Surface water (in situ)
ds
s
; V '':K Pro|ectStatus.s&;.: ''' '
Ongoing Completed
Month Year
29
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
d. (continued)
Note: (1)
(3)
(4)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH,
which can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary. ,_,,.,
The concentration range is the range of concentrations over which the technology was capable of operating for
Include all related costs necessary to set up, read, record, and compute measurement.
Performance- Data*
- ',.' m ;-
Contaminant or Pollutant:"
Parameter-*
(Example) Benzene
(2) :
Matrix
Soil
Conditions or Interference adversely affecting perform
(3)
Method
Detection Limits:
(Min. to Max.)
25-50
Units
ppm
r
(4) . ,^
Concentration
Range
10-100' " <
"***c
' V
v"
Units
ppm
ance
1 ' ' > ' '. :.,':",. - , ' , -^
Cost Information (5)
Estimated or actual total cost of using this
technology for this project
S (total)
What items or activities are included in these cost(s) (e.g., mobilization,
demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Name Companv
Is Literature Available on this Project?
(You may wish to Include these citations
in Part 7)
Yes No
Additional project information site conditions, mode of operation, derivation of accuracy and precision, and other pertinent information).
30
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
e.
Note:
(1)
(2)
(3)
(4)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents TPH which
can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operating for this
Include all related costs necessary to set up, read, record, and compute measurement.
Site Name or Industry Type if Client a
Identity Is Confidential:
ste Sotircs (Cheek all that apply)
Agriculture
Battery recycling/disposal
Chloro-alkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Machine shops
Metal ore mining and smelting
Municipal Landfill
Munitions Manufacturing
Paint/ink formulation
Pesticide manufacturing/use
Petroleum refining and reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Others (specify)
Waste Management Practice (Check alt that apply)
Above ground storage tank
Co-disposal landfill
Contaminated aquifer-
contamination source
unknown
Discharge to sewer/surface
water
Disposal Pit
Dumping-unauthorized
Explosicve/Ordnance
disposal
Fire/Crash Training Area
Incineration Residuals Handling
Industrial Landfill
Lake or River Disposal
Landfarm/Land Treatment Facility
Manufacturing Process
Ocean Disposal
Open Burn/Open Detonation Area
Petroleum, Oil, Lubrication (POL)
line
Recycling (other than as primary
operation)
Road Oiling
Spill
Storage-Drums/Containers
Surface Impoundment/Lagoon
Underground Injection
Underground storage tanks
Waste Pile
Waste Treatment Plant
Others (specify)
Location
City
Application or ProjectTypeป|Cfeee/catffftafcapp/y^
State/Province:
Country
Full-Scale
Field Demonstration
Bench-Scale Study
TSCA National Demonstration
TSCA Research and Development
CSCT Verification Program
EPA SITE Characterization and
Monitoring Program
Research
Other (specify):
Regulation/Statute/Organization
:-:; Media (Check all that apply}'
RCRA Corrective Action
CERCLA
TSCA
Safe Drinking Water Act
UST Corrective Action
State (specify)
DOD
DOE
Other (Specify)
Not Applicable
Soil (in situ)
Soil (ex situ)
Sludge
Solid
Natural sediment (in situ)
Natural sediment (ex situ)
Air particulates and aerosols
Leachate (in situ)
Other
Aqueous sample (ex situ)
Ground water (in situ)
Soil gas
Air vapors
Dense nonaqueous phase liquids
(DNAPL) [in situ]
Light nonaqueous phase liquids
(LNAPL) [in situ]
Surface water (in situ)
Equipment Scale (Check oneonly^
No. of Measurements per day.
Total No. of Measurements
Mature
Pre-commercial
Ongoing
Month
Completed
Year
31
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
e. (continued)
Note: (1)
(2)
(5)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents. TPH,
which can be analyzed using a specific test method, can be listed as an individual contaminant.
Indicate the sample matrix. Refer to question 2.13.
Indicate the method detection limit. Indicate a range if the MDL can vary.
The concentration range is the range of concentrations over which the technology was capable of operating for
this project.
Include all related costs necessary to set up, read, record, and compute measurement.
., . . ' " rฐ t - s * -
- .-. ---, ' Performance Data
CO
Contaminant or Pollutant
Parameters-
(Example) Benzene--
'--. <2}:; /,-;
Matrix
Soil ' '
Conditions or interference adversely affecting perform
' (3)
Method
Detection Limits::
(Win. to Max.)
25-50
Units
ppm
(4)
Concentration
> Range
10-100
"#i~
!ซ 2,
%> V *" & i
ซ' A
Unite-
'ppnr^
Cost Information (5) ''-''' '-" v '*'
Estimated or actual total cost of using this
technology for this project
S (total)
What items or activities are included in these cost(s) (e.g., mobilization,
demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Nama Companv
Phone
Is Literature Available on this Project?
(You may wish to include these citations
in Part 7)
Yes No
Additional project information site conditions, mode of operation, derivation of accuracy and precision, and other pertinent informat on).
32
-------�
Vendor Name
Technology Type
PART 6: LITERATURE AND TECHNICAL REFERENCES
6.1. List and attach available documentation (for example, journal articles, conference papers, patents) that best describes
technology and vendor capabilities. References that contain performance and cost data are of particular interest Do not
include personal references. EPA reserves the right to add to the list other publicly available references.
Author(s)
Title
Journal/Conference
Date
NTIS/EPA Document Number(s)
Author(s)
Title
Journal/Conference
Date
NTIS/EPA Document Number(s)
Author(s)
Title
Journal/Conference
Date
NTIS/EPA Document Number(s)
Author(s)
Title
Journal/Conference
Date
Author(s)
NTIS/EPA Document Number(s)
33
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APPENDIX A
KEY TO CONTAMINANT GROUPS
ซซ
-------�
-------�
CONTAMINANT GROUP CODES FOR HAZARDOUS SUBSTANCES LIST
Organic
[A~| Halogenated volatiles
|B| Halogenated semivoiatiles
|c") Nonhalogenated volatiles
[p"j Nonhalogenated semivoiatiles
|"i"| Organic pesticides/herbicides
Hplj Dioxins/furans
[H"| Polynuclear aromatics (PNAs)
I 1 1 Solvents
[~j"j Benzene-toluene-ethylbenzene-xylene (BTEX)
Organic cyanide
Inorganic
|M| Heavy metals
[N"| Nonmetallic toxic elements (As, F)
Ip | Radioactive metals
jp | Asbestos
|Q | Inorganic cyanides
I
I
I
Miscellaneous
S~l Explosives/propellants
Organometallic pesticides/herbicides
A-l
-------�
<,.-ป-
Organic Contaminant Group
CAS No.
208968 Acenaphthylene D,H
83329 Accnaphthene D,H
75070 Acetaldehyde C
67641 Acetone C,I
75058 Acetonitrile C,K
98862 Acetophenone D
591082 Acetyl-2-thiourea, 1 D
107028 Acrolein C
79061 Aciylamide D
79107 Acrylic acid CL
107131 Acrylonitrile C
124049 Adipic acid L
116063 Aldicarb E
309002 Aldrin E
107186 Allyl alcohol E
62533 Aniline D,I,L
120127 Anthracene D,H
1912249 Atrazine E
2642719 Azinphos-ethyl E
86500 Azinphos-methyl E
151564 Aziridine C
71432 Benzene C,I,J
98884 Benzene carbonyl chloride B
92875 Benzidine D
205992 Benzofluoranthene,3,4- H
65850 Benzoic acid D,L
100470 Benzonitrile QI
95169 Benzothiazole,l,2- D,I
50328 Benzo (a) pyrene D,H
206440 Benzo (j,k) fluorene H
207089 Benzo (k) fluoranthene D,H
100447 Benzyl chloride A
56553 Benz (a) anthracene D,H
117817 Bis (2-ethyl hexyl) phthalate D
111911 Bis (2-chloroethoxy) methane B
111444 Bis (2-chloroethyl) ether B
542881 Bis (chloromethyl) ether B
75274 Bromodichloromethane A
74964 Bromomethane A
1689845 Bromoxynil E
106990 Butadiene, 1,3- C
71363 Butanol C
85687 Butlbenzyl phthalate D
94826 Butyric acid, 4-2(2,4-dichlorop) C,L
CAS No.
133062
63252
1563662
75150
56235
78196
75876
57749
106478
108907
67663
74873
107302
106898
91587
95578
59507
2921882
218019
56724
8021394
108394
106445
98828
21725462
110827
108941
72548
72559
50293
78488
333415
132649
53703
124481
106934
96128
1918009
95501
541731
106467
91941
75718
75343
Captan
Carbaryl
Carbofuran
Carbon disulfide
Carbon tetrachloride
Carbophenothion
Chloral
Chlordane
Chloroaniline, p-
Chlorobenzene
Chloroform
Chloromethane
Chloromethyl methyl ether
Chloromethyloxirane, 2-
Chloronaphthalene, 2-
Chlorophenol, 2-
Chloro-3-methylphenol. 4-
Chlorpyrifos
Chrysene
Coumaphos
Creosote
Cresol, m-
Cresol, p-
Cumene
Cyanazine
Cyclohexane
Cyclohexanone
ODD
DDE
DDT
DBF
Diazinon
Dibenzofuran
Dibenz (a,h) anthracene
Dibromachloromethane
Dibromoethane, 1,2-
Dibromo-3-chioropropane, 1,2-
Dicamba
Dichlorobenzene, 1,2-
Dichlorobenzene, 1,3-
Dichlorobenzene, 1,4-
Dichlorobenzidine, 3,3-
Dichlorodifluoromethane
Dichloroethane, 1,1-
B
E
E,F
C
A
E
A
E
B
A
A
A
A
E
B
B
B
E
D,H
E
H
D
D
QI
E
C,I
C
E
E
E
C,E
E
D
D,H
A
A
A
E
B
B
B
B
A
A
A-2
-------�
Organic Contaminant Group (continued)
CAS No.
107062 Dichloroethane, 1,2- A
75354 Dichloroethene, 1,1- A
156592 Dichloroethylene, cis-1,2- A
156605 Dichloroethylene, trans-1,2- A
120832 Dichlorophenol, 2,4- B
94757 Dichlorophenoxyacetic acid, 2- L
78875 Dichloropropane, 1,2- A
542756 Dichloropropene, 1,3- A
62737 Dichlorvos E
115322 Dicofol E
60571 Dieldrin E
84662 Diethyl phthalate D
111466 Diethylene glycol D,I
1660942 Diisopropylmethylphosphonate D
60515 Dimethoate E
119904 Dimethoxybenzidine, 3,3- D
105679 Dimethyl phenol, 2,4- D
13113 Dimethyl phthalate D
77781 Dimethyl sulfate C
99650 Dinitrobenzene, 1,3- D
51285 Dinitrophenol, 2,4- D
121142 Dinitrotoluene, 2,4- D
606202 Dinitrotoluene, 2,6- D
88857 Dinoseb E
123911 Dioxane, 1,4 C
78342 Dioxathion E
122667 Diphenylhydrazine, 1,2- D,H
85007 Diquat E
298044 Disulfoton C,E
330541 Diuron E
84742 Di-n-butyl phthalate D
117840 Di-n-octyl phthalate D
115297 Endosulfan E
959988 Endosulfan I
33212659 Endosulfan II E
1031078 Endolsulfan sulfate E
145733 Endothall E
72208 Endrin E
7421934 Endrin aldehyde E
563122 Ethion E
141786 Ethyl acetate C
100414 Ethyl benzene C,J
75003 Ethyl chloride A,I
60297 Ethyl ether C
107211 Ethylene glycol I
110805 Ethylene glycol monoethyl
ether .' C,I
759944 Ethylpropylthio carbomate, S- E
CAS No.
122145 Fenitrothion
86737 Fluorene
50000 Formaldehyde
64186 Formic acid
110009 Furan
98011 Furfural
765344 Glycidyaldehyde
76448 Heptachlor
1024573 Heptachlor epoxide
118741 Hexachlorobenzene
87683 Hexachlorobutadieene ....
60873 Hexachlorocyclohexane, alpha- .
60873 Hexachlorocyclohexane, beta- . .
60873 Hexachlorocyclohexane, delta-
77474 Hexachlorocyclopentadiene .
67721 Hexachloroethane
70304 Hexachlorophene
110543 Hexane
1689834 loxynil '...
78831 Isobutanol
78591 Isophorone
143500 Kepone
58899 Lindane
121755 Malathion
108316 Maleic anhydride
123331 Maleric hydrazide
126987 Methacrylonitrile
67561 Methanol
16752775 Methomyl
72435 Methoxychlor
79221 Methyl chlorocarbonate
78933 Methyl ethyl ketone
108101 Methyl isobutyl ketone
80626 Methyl methacrylate
101144 Methylene bis
(2-chloroaniline)
75092 Methylene chloride
23855 Mirex
91203 Naphthalene
100016 Nitroaniline, p-
98953 Nitrobenzene
100027 Nitrophenol, 4-
.... E
. . . . D,H
C
.... L
.... F
. . . . I,C
.... G
.... E
... E
... B
... B
... E
... E
... E
... B
... B
... B
. . . C,I
... E
... C
... D
... E
... E
. . . C,E
... E
... E
... C
... C
... E
... E
... L
... C
CI
.. C
.. B
.. A
.. E
.. D,H
.. D
.. D
D
A-3
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Organic Contaminant Group (continued)
CAS No.
1116547
55185
62759
86306
930552
924163
615532
99990
56382
298000
1336363
608935
76017
82688
87865
85018
108952
139662
62384
298022
75445
13171216
7803512
85449
23950585
129000
110861
Nitrosodiethanolamine. n- D
Nitrosodiethylamine, n- D
Nitrosodimethylamine. n- D
Nitrosodiphenylamine. n- D
Nitrosopyrrolidine, n- D
Nitroso-di-n-butylamine. n- D
Nitroso-di-n-methylurethane, n- D
Nitrotoluene, 4- D
Parathion, ethyl- E
Parathion, methyl- E
PCBs G
Pentachlorobenzene B
Pentachloroethane B
Pentachloronitrobenzene B
Pentachlorophenol B
Phenanthrene D,H
Phenol D
Phenyl sulfide D
Phenylmercurie acetate E
Phorate C,E
Phosgene E
Phosphamidon E
Phosphine E
Phthalic anhydride D,E
Pronamide D
Pyrene D,H
Pyridine C,I
91225 Quinoline D,H
108463 Resorcinol D
299843 Ronnel E
57249 Strychnine E,H
100425 Styrene C
CAS No.
746016 TCDD F
95943 Tetrachlorobenzene, 1,2,4,5- B
630206 Tetrachloroethane, 1,1,1,2- A,E,I
79345 Tetrachloroethane, 1,1,2,2- A
127184 Tetrachloroethene A
58902 Tetrachlorophenoi, 2,3,4,6 ...B
3689245 Tetraethyldithiopyrophosphate E
109999 Tetrahydrofuran F,I
137268 Thiram E
108883 Toluene C,J
584849 Toluene diisocyanate D
8001352 Toxaphene E
93721 TP, 2,4,5- E
75252 Tribromomethane A
120821 Trichlorobenzene, 1,2,4- B
71556 Trichloroethane, 1,1,1- A
79005 Trichloroethane, 1,1,2- A
79016 Trichloroethylene A
75694 Trichlorofluoromethane A
933788 Trichlorophenol, 2,3,5- B
95954 Trichlorophenol, 2,4,5- B
88062 Trichlorophenol, 2,4,6- B
609198 Trichlorophenol, 3,4,5- B
93765 Trichlorophenoxyacetic acid, 2- L
933788 Trichloro-l,2,2-trifluoroethane A,I
27323417 Triethanolamine E
126727 Tris (2,3-dibromopropyl) phosphate .. B
108054 Vinyl acetate C
75014 Vinyl chloride A
81812 Warfarin ... E
108383 Xylene, m- C,J
95476 Xylene, o- C,J
106423 Xylene, p- C,J
A-4
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Inorganic Contaminant Grouo
CAS No.
7429905
20859738
7440360
7440382
1327533
1303339
7440393
542621
7440417
7440439
13765190
7778543
1333820
7440473
7440484
7440508
544923
7720787
7439896
7439921
7439965
7439976
7440020
7718549
10102440
7789006
151508
506616
7783008
7782492
7440224
506649
7440235
26628228
7681494
7775113
Aluminum
Aluminum phosphide
Antimony
Arsenic
Arsenic trioxide
Arsenic trisulfide
Barium
Barium cyanide
Beryllium
Cadmium
Calcium chromate
Calcium hypochlorite
Chromic acid
Chromium
Chromium (III)
Chromium (VI)
Cobalt
Copper
Copper cyanide
Ferrous sulfate
Iron
Lead
Manganese
Mercury
Nickel
Nickel chloride
Nitrogen dioxide
Potassium chromate
Potassium cyanide ,
Potassium silver cyanide
Selenious acid
Selenium
Silver
Silver cyanide
Sodium
Sodium azide
Sodium fluoride
Sodium chromate
M
M
M
M
M
M
M
M,Q
M
M
M
M
M,R
M
M
M
M
M
M,Q
M
M
M
M
M
M
M
R
M
M,Q
M,Q
M,R
M
M
M,Q
M
M
M
M
CAS No.
143339 Sodium cyanide .................. M?Q
1310732 Sodium hydroxide ................ M,R
7440280 Thallium
1314325 Thallic oxide
563688 Thallium acetate
6533739 Thallium carbonate
7791120 Thallium chloride
10102451 Thallium nitrate
12039520 Thallium selenide
7446186 Thallium (I) sulfate
7440291 Thorium
1314621 Vanadium pentoxide .............. M
7440666 Zinc ........................... M
557211 Zinc cyanide .................... M,Q
1314847 Zinc phosphide .................. M
7733020 Zinc sulfate ..................... M
Explosive/Propellants
CAS No.
7664417 Ammonia ....................... s
131748 Ammonium picrate ............... S
7773060 Ammonium sulfamate ............. S
460195 Cyanogen ...................... S
2691410 Cyclotetramethylenetetranitramine . . . S
302012 Hydrazine ...................... S
55630 Nitroglycerine ................... S
99990 Nitrotoluene, 4- .................. S
26628228 Sodium azide .................... M,S
99354 Trinitrobenzene, 1,3,5 ............. S
118967 Trinitrotoluene .................. S
Organometallic Compound
CAS No.
630104 Selenourea ...................... U
78002 Tetraethyl lead ................... U
A-5
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