xvEPA
United States
Environmental Protection
Agency
Office of Solid Waste and
Emergency Response
(5102G)
EPA 542-R-97-006
June 1997
Vendor Information Form
(VIF) 6.0
To be completed for participation in the
Vendor Information System
for Innovative Treatment
Technologies (VISITT)
Version 6.0
Note: Instead of submitting this form, you may provide information on your
technology(ies) electronically. The electronic VIF can be downloaded
from EPA's Cl.U-IN web site (www.clu-in.com.). Or you may call the
VISITT help line to request a 3.5" IBM-compatible diskette.
Completion of this form is voluntary. If you
have any questions, call the VISITT Help
Line at 800/245-4505 or 703/287-8927
Form Approved
OMB Control No. 2050-0114
Approval expires 7/14/97
Internet Address (URL) http://www.epa:gov
Recycled/Recyclable Printed with Vegetable Oil Based Inks on Recycled Paper (20% Postconsumer)
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TABLE OF CONTENTS
Section
GENERAL INFORMATION i
i. whatis visrrr? i
n. What Innovative Technologies are Eligible for Inclusion? i
III. Should Vendors Submit Confidential Business Information? ii
IV. Submittal of Process Flow Diagram or Schematic ii
V. Electronic Submittal of Vendor Information Form ii
VI. When and Where to File ,....' ii
VII. EPA's Authority for Invitation for Submittal and Burden Statement iii
VIE. Vendor Information Form 1
Part 1: General Information and Technology Overview 1
Part 2: Full-Scale Equipment/Capabilities 14
Part 3: Pilot-Scale Equipment/Capabilities 16
Part 4: Treatability Study Capabilities (Bench Scale) 18
Part 5: Representative Applications, Client References,
and Performance Data 19
Part 6: Literature and Technical References j 29
Appendices
A BUSINESS CLASSIFICATION INFORMATION A-1
B
KEY TO CONTAMINANT GROUPS \ B-l
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What is VISITT?
The Vendor Information System for Innovative Treatment Technologies (VISITT) is a service
offered by the U.S. Environmental Protection Agency's (EPA) Technology Innovation Office (TIO)
to promote the use of certain categories of innovative technologies for the treatment of contaminated
ground water and soil. Version 5.0, which was released in September 1996, contains information
about 346 technologies provided by 210 vendors. The purpose of the database is to foster
communication between technology vendors and users by providing information on the availability,
performance, and cost associated with the application of treatment technologies. VISll'l is intended
to inform federal, state, and private-sector remediation professionals of their cleanup options and the
capabilities of the firms listed in the database to provide innovative remediation services.
II. What Innovative Technologies are Eligible for Inclusion?
Eligible technologies are those that are:
A. Innovative, that is, technologies that lack cost and performance data and currently
are not applied commonly, when their use can provide better, more cost-effective
performance than conventional methods
B. Designed to treat contaminated soil, sludge, sediments, solid-matrix and to treat
ground water or nonaqueous phase liquids (NAPL) in situ.
Technologies that treat ground water ex situ, incineration, and solidification and stabilization are not eligible.
PARTIAL LIST OF INNOVATIVE TREATMENT TECHNOLOGIES OF INTEREST
Acid Extraction
Adsorption - In Situ
Air Sparging - In Situ Ground Water
Bioremediation - In Situ Ground Water
Bioremediation - In Situ Lagoon
Bioremediation - In Situ Soil
Bioremediation - Not Otherwise Specified
Bioremediation - Slurry Phase
Bioremediation - Solid Phase
Bioventing
Chemical Treatment - Dechlorination
Chemical Treatment - In Situ Ground Water
Chemical Treatment - Other
Chemical Treatment - Oxidation/Reduction
Delivery/Extraction Systems
Dual-Phase Extraction
Electrical Separation
Electro-Thermal Gasification - In Situ
Hydraulic Fracturing
Magnetic Separation
Materials Handling/Physical Separation
Off-Gas; Treatment
Plasma
Pneumatic Fracturing
Pyrolysis
Slagging - Off-Gas Treated
Soil Flushing - In Situ
Soil Vapor Extraction
Soil Weishing
Solvent Extraction
Surfactant Enhanced Recovery - In Situ
Thermal Desorption
Thermally Enhanced Recovery - In Situ
Vitrification
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III.
Suppliers of separate components of a treatment technology (such as bacteria for bioremediation)
will not be listed in the database. EPA will determine whether a technology is eligible for listing,
if so requested by the vendor. Questions about the eligibility of a given technology can be directed
to the VISITT help line at 800-245-4505 or 703-287-8927. Some of the technologies included in
VISllT 5.0 are listed on the previous page.
Should Vendors Submit Confidential Business Information?
Submittal of technology information for inclusion in VISITT is voluntary, and submittals should not
include confidential business information. EPA considers information in the database public
information and, if so requested, will release all such information. However, if a vendor wishes to
provide general information about confidential projects to highlight business experience, the vendor
may elect to use generic descriptions (for example, "organic chemical manufacturer").
IV. Submittal of Process Flow Diagram or Schematic
Vendors should provide a flow chart or schematic of the treatment process, showing the equipment
necessary for each step. To ensure that schematics are legible in the final system, EPA recommends
that schematics be submitted in an Encapsulated Postscript (EPS), Bitmap (BMP), Tag Image File
(TIP) or PCX electronic format. If no electronic copy is available, a camera-ready hard copy suitable
for computer scanning is acceptable.
V. Electronic Submittal of Vendor Information Form
Instead of submitting the paper VISITT Vendor Information Form (VIF), a vendor may submit
information on a technology(ies) electronically. To do so, the vendor can (1) download an electronic
version of the VIF from the VISITT Web site (www.ttemi.com/VISITT) or the EPA's Cleanup
Information (CLU-IN) Web site (www.clu-in.com), (2) obtain the VIF by electronic mail (send
requests to VJSITT@ttemi.com) or (3) obtain the electronic version on a 3.5" IBM-compatible
diskette by calling the VISITT help line at 800-245-4505. For electronic submittals, a diskette
containing the completed VIF, along with a printout of the completed form, should be mailed to the
address below.
VI. When and Where to File
The deadline is October 15,1997, for submittal of VIFs for technologies to be included in VISITT
6.0, which is scheduled for release in November 1997. Submittals received after the deadline will
be reviewed as time and resources permit.
Completed VIFs or diskettes should be sent to:
System Operator, VISITT
PRC Environmental Management, Inc.
1593 Spring Hill Road, Suite 300
Vienna, VA 22182
Electronic submittals should be compressed and sent by electronic mail to VISITT@ttemi.com.
11
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VII. EPA's Authority for Invitation for Submittal and Burden Statement
EPA's authority for conducting this sixth invitation for submittal is set forth under section 311 of the
Superfund Amendments and Reauthorization Act of 1986 (42 United States Code (U.S.C.) 9601 et
seq.). Under section 311, EPA may collect and disseminate information related to the use of
innovative treatment technologies for remediation of hazardous waste sites.
EPA estimates that the burden of reporting on the vendor for this collection of information will
average 25 hours for each original submittal and 13 hours for submittal of an update. These
estimates include the time applicants will require to review and maintain necessary data and to
complete and review the VIF. Comments about this estimate of burden, or any other issue or
concern related to reduction of the burden, should be sent to Chief, Information Policy Branch, PM-
223, U.S. Environmental Protection Agency, 401 M Street, SW, Washington, DC 20460 and to
Paperwork Reduction Project (OMB#2050-0114), Office of Information and Regulatory Affairs,
Office of Management and Budget., Washington, DC 20503.
111
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VIII. VENDOR INFORMATION FORM
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW
1 . Date Submitted _ / _ / __
2. Developer/Vendor Name
3a. Is this an update of a technology listed in VISIT! Version 5.0 ? Yes
No
If yes, specify technology and vendor name that appeared in VISITT 5.0 if different from the
information in this update.
For VISITT Version 5.0 Vendors: Questions 3b and 3c are intended to gather information on the
use of VISITT in the remediation community.
3b. Please provide an estimate of the total number or frequency of inquiries your company has
received through your inclusion in VISITT.
3c. Has your company performed work, such as a
demonstration, as a result of those inquiries.
Please provide details, if possible.
treatability study, pilot-scale study, or field
Q Yes Q No
Please list your primary Standard Industrial Classification (SIC) code and check the
appropriate business classification for each code. Refer to Appendix A for business
classification definitions. :
SIC code_
SIC code
LJ Small Q Other Than Small
O Small [J Other Than Small
Disadvantaged/Minority Q Women-owned
Disadvantaged/Minority Q Women-owned
Street Address
6.
7.
City
Country
State/Province
Zip Code
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Vendor Name
Technology Type
8.
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
a. Contact Name(s)
b. Contact Title(s)
9. Contact Phone ( )
ext.
10. Fax Number ( )
11. Internet E-mail Address
12, Home Page Address
13. Vendor Services. Check all that apply.
Q Equipment manufacturer
O Subcontractor for cleanup services
O Prime contractor for full-service remediation
14. Technology Type. Check one only.
a
a
a
a
a
a
a
a
i r \
Q
i a
Acid Extraction
Adsorption - In Situ
Air Sparging - In
Situ Ground Water
Bioremediation - In
Situ Ground Water
Bioremediation - In
Situ Lagoon
Bioremediation - In
Situ Soil
Bioremediation -
Not Otherwise
Specified
Bioremediation -
Slurry Phase
Bioremediation -
Solid Phase
Bioventing
1 5a. Technology Name Assigned
i
a
a
a
a
a
a
a
a
a
a
a
Fill out a separate form for each additional technology. I
I |
Chemical Treatment -
Dechlorination
Chemical Treatment - In
Situ Ground Water
Chemical Treatment -
Other
Chemical Treatment -
Oxidation/Reduction
Delivery /Extraction
Systems
Dual-Phase Extraction
Electrical Separation
Electro-Thermal
Gasification - In Situ
Fracturing - Pneumatic
Fracturing - Hydraulic
Magnetic Separation
Materials Handling/
riiysiucn oepctiaLiuii
By Vendor (if different than
2
a
a
a
a
a
a
a
Q
a
Q
a
name listed in
Off-Gas Treatment H
Plasma H
Pyrolysis H
Slagging - Off-Gas
Treated 1
Soil Flushing - In Situ
Soil Vapor Extraction 1
Soil Washing I
Solvent Extraction H
Surfactant Enhanced 1
Recovery - In Situ
Thermal Desorption H
Thermally Enhanced 1
Recovery - In Situ
Vitrification - General
Other (specify)
1
Question 14).
I
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
15b. Is this a registered Trademark? D Yes Q No
15c. Does the vendor hold an exclusive license? L1 Yes L] No
16. Patents
a. Is technology patented? LI Yes D No
b. Is patent pending? LI Yes LI No
17. Superfund Innovative Technology Evaluation (SITE) Program.
a. Is this technology being tested, or has this technology been tested, in EPA SITE Emerging
Technology Program? '
LI Yes Q No
b. Is this technology being tested, or has this technology been tested, in EPA SITE
Demonstration Program?
Ql Yes LI No
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
18. Description of Technology. In 300 words or less, describe the treatment process, including
scientific principles on which the technology is based; key treatment steps; unique and
innovative features; whether full-scale system is/will be batch, continuous, or semicontinuous;
and whether the technology is above ground or in situ. Parts 2 and 3 allow more detail for full-
and pilot-scale systems. Provide a flow chart or schematic of the treatment process, showing
the equipment necessary for each step. To ensure the schematics are legible in the final system,
EPA recommends that schematics be submitted in an Encapsulated Postscript (EPS) Bitmap
(BMP), Tag Image File (TIP) or PCX electronic format. If an electronic copy is not available, a
camera-ready hard copy suitable for computer scanning can be submitted as an alternative.
EXAMPLE
Description of Technology
ABC Corporation has developed an innovative solvent extraction technology (SUPER) that uses Super Chemical as
the solvent. Super Chemical is a biodegradable solvent.
The key to success of this process is Super Chemical's property of inverse mfecibility; below 65 degrees F,'Super
Chemical is soluble in water (hydrophilic) and above 65 degrees T, it is insoluble in water (hydrophobic). Therefore,
cold Super Chemical can extract water and water-soluble compounds, and warm Super Chemical can extract organic
contaminants, such as PCBs, pesticides, PAHs, SVQCs, and VOCs,
Within the unit, the soil is washed continuously with Super Chemical in a counter-current process. The contaminants
dissolve in the solution and are removed from the soil by the counter-current flow. The contaminated solvents are
reclaimed in a closed-loop circuit, eliminating the need for large volumes of sblvent. The clean, washed soil is moved
to a closed-loop dryer system, where any excess solvent is removed from the soil. When the soil exits the system,
it is relatively free of organics and dry. The collected contaminant from the solvent washing is concentrated 1,000
to 10,000 times, reducing its volume and its associated disposal costs, and is pumped periodically f rom the system
into labeled 55-gallon drums for conventional off-site disposal.
Emissions of organic vapors to air are controlled and treated by a carbon absorption system.
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
18. Description of Technology (continued).
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
19. Technology Highlights. In 200 words or less, describe the technology in terms of contaminants
treated, performance, implementation, or cost. Include the key marketable features of the
technology, such as treatment niche and advantages over other technologies.
, EXAMPLE
' ' !l J
Technology Highlights
The SUPER solvent extraction process can treat soils, sludges, and sediments contaminated wfth PCBs,
carcinogenic PAHs, pesticides, and VOCs at 20 percent to 40 percent of incineration costs. Treated products
from the SUPER process include: water suitable for discharge, oil for recycle as fuel, and solids that can be
returned to the site as backfill. The process also can reduce the Initial volume of contaminated material by as -
much as 90 percent.
The SUPER solvent extraction process operates at near ambient pressures and temperatures, uses off-the-shelf
process equipment, and controls air emissions, The extraction efficiency (organic removal efficiency) achieved
Is as high as 99 percent.
Solvent recovery is also greater than 99 percent. The process can treat'^up to 300 tons per day of contaminated
soil. This technology is well accepted by communities because air emissions are minimized.
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
20. Technical Limitations. In 200 words or less, describe the technical limitations such as specific
contaminants or contaminant combinations, temperature, moisture content, or chemical
properties of the contaminant, that could adversely affect applicability or performance.
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
21. Other Comments. In 200 words or less, provide additional information about the technology,
such as its history, status, capabilities, and experience and applicable permits obtained (for
example, TSCA or RCRA). Also describe plans for future development of the technology,
including diversification of media and/or contaminants treated.
EXAMPLE , "
Other Comments
The SUPER process has been demonstrated successfully at bench scale, pilot scale, and full scale- A full-scale-'
SUPER unit was used to treat sludges contaminated with PCBs at the BAD Oil Refining Superfund site. ,
Two pilot-scale units have been built. One was operated under the SITE program to treat soils and sludges
contaminated with PCBs. '
Bench-scale treatability studies have been conducted on contaminated soils containing petrochemical compounds,
pharmaceutical compounds, pesticides, PCBs, and wood preserving wastes containing'PAHs,
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
22. Technology Scale. Check only one. Using the following definitions, indicate the operational
status of the technology.
a- LJ Full scale. Available equipment is sized and commercially available for actual site
remediation. (If you select full scale, you must fill out Part 2).
b. Q Pilot scale. Available equipment is of sufficient size to verify technology feasibility or
establish the design and operating conditions for a full-scale system. However, it is
not of the size typically used for a cleanup. (If you select pilot scale, you must fill out
Part3).
c. LJ Bench scale or emerging. Technology has been shown to be feasible through the use
of bench-top equipment in the laboratory. Data from these studies cannot be used to
scale up the technology to full scale. (If you select bench scale, you must fill out
Part 4).
Media treated. Check "actual" for all media that have been treated by your technology. Check
"potential" for all media to which the technology may be applied in the future.
Actual Potential
LJ LJ Soil (in situ)
Q LJ Soil (ex situ)
LJ Q Sludge (does not include municipal sewage sludge)
LJ LJ Solid (for example, slag)
Q LJ Saturated sediment (in situ)
Q LJ Saturated sediment (ex situ)
LJ LJ Ground water (in situ) [Includes treatment of ground water and/or saturated
soil] :
LJ LJ Off-gas generated from a primary innovative treatment technology
I1 Q Dense nonaqueous phase liquids (DNAPL) [in situ]
LJ LJ Light nonaqueous phase liquids (LNAPL) [in situ]
Q LJ Other:
23.
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
24. Contaminants and Contaminant Groups Treated. Check all that may apply. Check "actual"
for all that have been treated by your technology (that is, data exist). Check "potential" for
all that the technology may be applied to in the future. Data for actual contaminants treated
should be included in Part 5 (see Appendix B for key to contaminant groups). If your
technology is materials handling/physical separation, delivery/extraction, or if you are an
equipment vendor, this question may not apply.
Actual Potential
Actual Potential
LJ II Halogenated volatiles
LJ U Halogenated semivolatiles
LJ LJ Nonhalogenated volatiles
LJ >_l Nonhalogenated semivolatiles
LJl LJ Organic pesticides/herbicides
a a
a a
a a
a a
LJ LJ Benzene-toluene-ethylbenzene-
xylene (BTEX)
LJ LJ Acetonitrile (organic cyanide)
LJ LJ Organic acids
Organic pesticides/herbicides
Dioxins/furans
PCBs
Polynuclear aromatics (PNA)
Solvents
a
a
a
a
a
a
a
a
a
a
LJ Heavy metals
LJ Nonmetallic toxic elements
LJ Radioactive metals
LJ Asbestos
LJ Inorganic cyanides
LJ Inorganic corrosives
Miscellaneous
Explosives/propellants
Medical wastes
a
a
LJ Organometallic pesticides/herbicides
LJ Other (specify)
10
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
25. Industrial Waste Sources or Site Types of Sites Treated. Check all that apply. Check "actual"
for all that have been treated by your technology (that is, data exist). Check "potential" for all
that the technology may be applied to in the future. Treatment data should be available for
those sites for which "actual" is checked. See Table A for wastes typically associated with
each industry.
Actual Potential
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
a
Agriculture
Battery recycling/disposal
Chlor-alkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage facility
Herbicide manufacturing/use
Industrial landfills
Inorganic/organic pigments
Machine shops
Medical wastes
Metal ore mining and smelting
Actual Potential
O LJ Municipal landfill
LJ >_1 Munitions manufacturing
LJ LJ Paint/ink formulation
LJ LJ Pesticide manufacturing/use
IJ U Petroleum refining/reuse
l_l LJ Photographic products
l_l l_l Plastics manufacturing
IJ IJ Pulp and paper industry
LJ LJ Other organic chemical manufacturing
IJ >J Other inorganic chemical manufacturing
IJ IJ Semiconductor manufacturing
LJ LJ Rubber manufacturing
i^J LJ Wood preserving
LJ LJ Uranium mining
LJ LJ Other (specify)
11
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Vendor Name
Technology Type
PART 1: GENERAL INFORMATION AND TECHNOLOGY OVERVIEW (continued)
Table A
Contaminants/Wastes Associated With Industrial Waste
Sources or Types of Sites
1. Agriculture
2. Battery recycling/disposal
3. Chlor-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. Medical wastes
12. Metal ore mining and smelting
13. Municipal landfills
14. Munitions manufacturing
15. Paint/ink formulation
16. Pesticide manufacturing/use
17. Petroleum refining/reuse
18. Photographic products
19. Plastics manufacturing
20. Pulp and paper industry
21. Other organic chemical manufacturing
22. Other inorganic chemical manufacturing
23. Semiconductor manufacturing
24. Rubber manufacturing
25. Wood preserving
26. Uranium mining
Pesticides
Lead (acid)
Chlorine compounds, mercury
PAHs
Solvents
Chrome, metals
Pesticides
Wastes from multiple sources
Solvents, chrome, zinc
Metals, oils
Metals, radioactive wastes
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
12
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Vendor Name
Technology Type
PART 2: FULL-SCALE EQUIPMENT/CAPABILITIES
You must complete this part if you checked Response 22a (that is, technology is at full scale).
You also may complete this part if the technology is at pilot scale.
26. Major Unit Processes. In 300 words or less, describe the steps and operation of the full-scale
system, including list of key components. Also describe any pre- and post-processing required
by your technology. Provide more detail than you did in Question 18.
EXAMPLE
Major Unit Processos
Preprocessing
1. Front-end loader and weight scale ฐ ., , , <
2, Shredder *', " v > ' ""} - - , % '
3. Radial stacker'belt conveyor and surge hopper , rf "'' \ j
.a, > Stockpiled soil is transported to a weigh scalei>y a"Iront-end loader. ,">>
, , s '.*'*", ."* ' _ J' ',< ~ s * *" '
b. Soil is deposited directly on^a pov^er^ shfeddirjg device,' Classified soil with a top'size of less
than 2 itiches passes ^through the shreddet into'tne leed conveyor. ; * > ฐ '-
f .,<,'%
ฐ s r > , -> , , * ^ __ ", , ' >
c. ฐ -The feed conveyor is an enclosed radia! stacker belt conveyor that is 18 inches wide and 60
feet fong. The conveyor discharges into the surge hopper located above the-thermal processor.
The soil is^fed into the IT system at regular intervals to^rxiaintalrf the surgelhoppef seal.
Processing ^ o~ t ฐ * ^ f~# > ฐ
">*.-'' '- - - , " * " ;
' 1. Thermal processor '.">"
2. Induced draff (ID) fan for vapors , , J ' . .
,3. Horizontal screw conveyor and ash conditioner,, , " -
~ ' ' , " s< , 'ซ, s - -> *
a, The thermal processor houses lour intermesheS screw conveyors* The function of each screw
conveyor is to move soil forward through the processor and to thoroughiy-mix the matenaj,
providing indirect contact between the heat transfer fluid and trie soil; The shafts and flighfs
of the screw conveyors and the processor jackets are hoflow to allow, circulation oft a heat
transfer fluid (that is, hot ofl}r" > , ^ J' ' ,
- b. Vapors are driven off the soil and are drawn ^ t '**,'**'
Postprocessing v , , / , - '
"\, Stacker belt conveyor and dump truck , ^ ^ ~ V
^\ < ,
a. The cohditioner'discharges onto an inclined stacker bolt. The stacker belt conveysthe wetted
processed sol from the coridltioner to the 'dump truck. /_ ' " ^
13
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Vendor Name
Technology Type
PART 2: FULL-SCALE EQUIPMENT/CAPABILITIES (continued)
26. Major Unit Processes (continued).
14
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, Vendor Name
Technology Type
PART 2: FULL-SCALE EQUIPMENT/CAPABILITIES (continued)
27a. Full-Scale Facility is (check one only)
IJ Transportable LJ Fixed 1_J In situ
b. City
and State
of fixed facility
28. Number of Full-Scale Systems.
Planned/in design
Projected completion
dates (mo/yr)
Under construction
Projected completion
dates (mo/yr)
Constructed
29. Capacity Range.
to
(units) Q Not applicable
30. Estimated Price Range. Provide a "ballpark" estimate per unit of waste treated. Include waste
preprocessing and exclude excavation, permitting, and disposal of residues.
to $
per
(units)
31. Factors Affecting Unit Price. With "1" the highest, rank any of the following items that will
have a significant effect on the unit price. If the technology is in situ, excavation and waste
handling cannot affect price.
Initial concentration of contaminant
Target concentration of contaminant
Quantity of waste
Depth of contamination
Depth to ground water
Characteristics of residual waste
Moisture content of soil
Site preparation
Waste handling/preprocessing
Amount of debris with waste
Characteristics of soil (classification,
permeability)
Utility/fuel rates
Labor rates
Other (specify)
32. Full-Scale Cleanups.
a. If you are a subcontractor or prime contractor, give the number of full-scale cleanups using
your technology that your firm has initiated or completed. Consider only those applications
of your technology that were applied at petroleum/hazardous waste sites.
b. If you are an equipment manufacturer, give the number of full-scale cleanups by other firms
using your technology of which you are aware. Consider only those applications of your
technology that were applied at: petroleum/hazardous waste sites.
15
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Vendor Name
Technology Type
PART 3: PILOT-SCALE EQUIPMENT/CAPABILITIES
You must complete this part if you checked Response Question 22b. You also may complete this
part if the technology is at full scale or bench scale.
33. Major Unit Processes. In 200 words or less, describe the steps and operation of the pilot-scale
treatment system, including a list of the key components. Also describe any pre- and post-
processing required by your technology. Provide more detail than you did in Question 18.
EXAMPLE
Major Unit Processes
Pilot-scale testing involves processing the soils or bulk soils through various operations of reduced-size equipment
that when set in series, would be similar to a full-scale operation. The equipment consists of:
1. A hopper and screen for feed preparation; removal of tramp'material and sizing, if needed.,,
2, A mixing or attrition tank where the prepared feed is introduced to the liquids. In the most baste system,
extraction of contaminant takes place at this stage.
3. A classification circuit, consisting of a sump, pump, and cyclone for separation of coarse sand, gravel, and
organics from fine clays and silts.
4. If extraction of contaminant so requires, coarse materialls subjected'to a specific gravity (SG) separation through
use of a vessel, cyclone, or hydrasizer. Contaminated smaller size material (low 80) is separated from the clean,
coarse (high SG) material.
5. Clean, coarse material is dewatered with a screen, although in full-scale operation, additional dryers (centrifuges)
may be employed. -
6. Low SG organics containing contaminant are dewatered with a screen and collected, for disposal or secondary
treatment.
7. Clays and silts are flocculated in a reaction tank and gravity-concentrated in a thickener or clarifier.
8. Thickened clays and silts containing contaminant are dewatered in a belt press and sent for disposal or secondary
processing.
9. Recycled liquid from the thickening and dewatering process is collected and, in some cases, treated before it Is
returned to the mixing/attrition tank.
16
-------�
Vendor Name
Technology Type
PART 3: PILOT-SCALE EQUIPMENT/CAPABILITIES (continued)
33. Major Unit Processes (continued).
34a. Pilot-Scale Facility is (Check only one)
LJ Transportable LJ Fixed
b. City and State
In Situ
of fixed facility.
35. Number of Pilot-Scale Systems
Planned/in design
Projected completion
date (mo/yr)
Under construction
Projected completion
date (mo/yr)
Constructed
36. How many times have you used this technology at your facility or at other locations to conduct
pilot-scale studies on actual wastes? Count only once multiple studies pertaining to the same
site, regardless of the number of different wastes or tests. Do not count tests on surrogate
wastes.
37. Can you conduct pilot-scale treatability studies on some types of waste at your location?
LJ Yes LJ No At a contaminated site? LJ Yes LJ No
38. Capacity Range. Prorate capacity of batch processes. This range should be consistent with
your answer to Question 39 (the waste requirement for the pilot-scale treatability study).
to
(units)
Not applicable
39. Quantity of Waste Needed for Pilot-Scale Treatability Study. Give the estimated range of
quantity of waste needed to test, at the pilot scale, the feasibility of this technology on a
specific waste.
to
(units)
17
-------�
Vendor Name
Technology Type
PART 4: TREATABILITY STUDY CAPABILITIES (BENCH SCALE)
You must complete this part if you checked Response Question 22c. You also may complete this
part if the technology is at full scale or pilot scale.
40. Can you conduct bench-scale treatability studies on some types of waste at your location?
Q Yes Q No
41. Number of Bench-Scale Studies Conducted. Estimate total number of bench-scale studies
conducted on actual waste from different sources or sites. Count only once multiple studies
pertaining to the same site, regardless of the number of different wastes or tests. Do not
count tests on surrogate wastes.
42. Description of Bench-Scale Testing Procedures. In 200 words or less, describe the type of
test that would be performed to determine feasibility of this technology for treating a specific
waste.
EXAMPLE
, > " < < '
Description of Bench-Scale Testing Procedures
In our feasibility assessment tests, we usually start with a sample of the soil to be treated and a knowledge of the
nature and concentration of each contaminant as weil as the effluent goals to be met. The following steps are then
taken:
1. The optimal conditions for soil washing are studied, such as pH, time, and chelating agent and concentration.
2. Various likely adsorbents are studied on a batch basis to determine which are most effective at removing the
metals of interest from the chelating agent in the washing water.
3. One or more selected media then are studied on columns to determine their ability to retain metals in a
continuous-flow situation.
4. For the surviving adsorbent(s), the ion elution performance then js-determined; after this step, one resin wi!l have
been selected as optimal for the particular task under study.
5. The selected adsorbent then is subjected to a number of charge and regeneration cycles to establish its
ruggedness.
18
-------�
, Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
43a. 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. Full- and pilot-scale
projects are of most importance. EPA reserves the right to add information on projects conducted for the
federal government of which EPA is aware.
Sifp^^ifig^
Agriculture Machine shops
Battery recycling/disposal Medical wastes
Chlor-alkali manufacturing Metal ore mining and smelting
Coal gasification Municipal landfill
Dry cleaning Munitions manufacturing
Electroplating Paint/ink formulation
Gasoline service Pesticide manufacturinq/use
station/petroleum storage
facility
Herbicide
Industrial landfills
Inrtr-nQI-lt^/J-n-rt^r-i"^ r*' +
Petroleum refining/reuse
Photographic products
Plastics manufacturinq
Pulp and paper industry
Other organic chemical
inorganic/organic pigments manufacturing
Location
City
State/Province:
Country
^Regulafion/Sjkatute/Organlzatiori'
- {Check afloat apply) , * "
RCRA corrective action
CERCLA
TSCA
Safe Drinking Water Act
UST corrective action
State (specify)
DoD
DOE
Other (Specify)
Not Applicable
Volume/Quantity Treated
(Units)
Area treated (for in situ projects)
(Units)
Depth treated (for in situ projects)
(Units)
Project took place at site named?
Yes
No
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturinq
Wood preservinq
Uranium mininq
Other (specify)
At another site (that is, a Test facility)?
Yes
No
** Application or Project fy|>& (Check a// that apply!
Full-scale cleanup
Field demonstration
Pilot-scale treatabilitv study
Bench-scale treatabilitv study
RCRA Research, Development,
and Demonstration
TSCA National Demonstration
TSCA Research and Development
EPA SITE Demonstration Program
EPA SITE Emerging Technology
Program
Research
Other (specify)
\^^^t, > ^ Media treated (Check, altihai yppiy} " t
Soil (in situ)
Soil (ex situ)
Sludge
Solid (for example, slaa)
Saturated sediment (in situ)
Saturated sediment (ex situ)
Ground water (in situ)
' - tqutjirr^^^f^i;^^:
Bench
Pilot i
Full
Off-gas from a primary
treatment technology
Dense nonaqueous phase
liquids (DNAPL) [in situ]
Light nonaqueous phase liquids
(LNAPL) [in situ]
Other:
^'?^^^firo^ctlง^;^?^' '&$
Contracted
Month Year
Ongoing Yes No
Completed
Month Year
19
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43a. (continued)
Note: (1)
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.
(2) and (3) Indicate the appropriate units; for concentrations that were non-detect write N.D.; treated
concentration should be lower than untreated concentration unless the technology is dewatering or
some other volume reduction method. If a concentration range cannot be given, provide an average
and note it as such.
(4) Specify the cleanup standard or goal, if known, for the individual contaminant for this project. For
example, if the project was part of a Superfund remedial action, the cleanup goal is specified in the
record of decision (ROD) for that site.
Performance Data ' ''',' > - , ,
H)
Contaminant or Pollutant
Parameter
(Example) Benzene
{2}
Untreated
Concentration Range
(Min to Max)
SO- 150
m
Units
mg/kg
(Z) -
Treated,
Concentration Range
(Wiirt to Ma*) '
,25 - ฃ0 ' , .,
(3}
Units
tuff/fat'
14), * '
< Cleanup Standard "
' or Goaf
' . ' SO - - ,,
t- , ^
., 13T '
>9 * ,
tinted
mg/ftt$ '
Conditions or interference adversely affecting performance
; '. . Cost Information s , , v ,'_ _^' \'-.',^_ '" f> ', '"" 'f
Estimated or actual total and/or unit cost for this
project
$ per (unit)
$ (total)
What items or activities are included or not included in these cost(s) (for example,
mobilization, demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Name Company
Address
Phono
Is Literature Available on this Project? (You
may wish to include these citations in Part 6)
Yes No
Additional project information such as site conditions, mode of operation, and other pertinent info
rmation.
20
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43b.
;sii^:i^4^^ "^^S^.^^'^r^S^'
'f^ -'Xi' -'v^ -v*?> ~ซ? \ ,-' i: ,*,; ?/, -^ ฐ ^/'^^ \ v,v^j, j > v. ,\r\f,v* ,-,> ป J.'Ay.;^'; ,<./,' ^ *,v ,\ .'o^*;*/^
Agriculture Machine shops
Battery recycling/disposal Medical wastes
Chlor-alkali manufacturing Metal ore mining and smelting
Coal gasification Municipal landfill
Dry cleaning Munitions manufacturing
Electroplating Paint/ink formulation
Gasoline service Pesticide manufacturing/use
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Location
City
State/Province:
Country
RCRA corrective action
CERCLA
TSCA
Safe Drinking Water Act
UST corrective action
State (specify)
DoD
DOE
Other (Specify)
Not Applicable
Volume/Quantity Treated
(Units)
Area treated (for in situ projects)
(Units)
Depth treated (for in situ projects)
(Units)
Petroleum refining/reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
Project took place at site named?
Yes
No
^^^^^^'^f^Sl^^^"^,^^^^^
Full-scale cleanup
Field demonstration
Pilot-scale treatability study
Bench-scale treatability study
RCRA Research, Development,
and Demonstration
TSCA National Demonstration
TSCA Research and Development
EPA SITE Demonstration Program
Soil (in situ)
Soil (ex situ)
Sludge
Solid (for example, slag)
Saturated sediment (in situ)
Saturated sediment (ex situ)
Ground water (in situ)
^'W^^EqutpiTT^n^oc.ate^i^&c^ on& Qftfyj *^-
Bench
Pilot
Full
A';5:^CI^-^5;^lfS$:v: T
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Other (specify)
At another site (that is, a Test facility)?
Yes
No
|^g;^^||:||g^|T;
EPA SITE Emerging Technology
Program
Research
Other (specify)
Off-gas from a primary
treatment technology
Dense nonaqueous phase
liquids (DNAPL) lin situ]
Light nonaqueous phase liquids
(LNAPL) [in situ]
Other:
s - - Project Status^ ' - ' ซ ^ *
Contracted
Month Year
Ongoing Yes No
Completed
Month Year
21
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43b. (continued)
Nats: (1)
List one specific contaminant per line. Do not list such entire contaminant groups as VOCs or solvents.
TPH, which can be analyzed using a specific test method, can be listed as an individual contaminant.
(2) and (3) Indicate the appropriate units; for concentrations that were non-detect write N.D.; treated
concentration should be lower than untreated concentration unless the technology is dewatering or
some other volume reduction method. If a concentration range cannot be given, provide an average
and note it as such.
(4) Specify the cleanup standard or goal, if known, for the individual contaminant for this project. For
example, if the project was part of a Superfund remedial action, the cleanup goal is specified in the
record of decision (ROD) for that site.
Performance Data , ; > /, \N , , ' -> .
i > * c j j s; ^ ^J.
(1)
Contaminant or Pollutant
Parameter
(Example) Benzene
{2}
Untreated
Concentration Range
(Min to Max)
SO - 150
m
Units
mg/kg
(2)
Treated
Concentration Range
(Min to Max)
, 2$ - SO
($)
Units
jmg/kg
(4)
Cleanup Standard' '
or "Goaf- ' ' t, ,
' so ,: -
' - (3)'
Units- >
mttfip*
Conditions or interference adversely affecting performance
Cost information ^ . \ " , ., ' ,
Estimated or actual total and/or unit cost for this
project
$ per (unit)
$ (total)
What items or activities are included or not included in these cost(s) (for example,
mobilization, demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Name Company
Address
Phone
Is Literature Available on this Project? (You
may wish to include these citations in Part 6)
Yes No
Additional project information such as site conditions, mode of operation, and other pertinent info
rmation.
22
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43c.
jSftelNa'mK to jnci^tty'%'pe'jifT6ilerit; : i y
V^CsJ '?^x 'V^iซr ^ป* "i -i"''"**-.'-',,, A '&* f* ' ^i^i'iv.' & '-,.
JdentityhsUBorof ideiitJal) j- -Sv r' 5-. -,v w AW.:*
^" rs,'-S- ? .1^'y>;^'^'''vi'rx,,,<-.'-
^t^XVP^ %WSงt^0urs>'|d|^e^li^
Agriculture
Battery recycling/disposal
Chlor-alkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Location
City
State/Province:
Country
^*i^$&^$8^i*?^
^^f^&w&tf&K-. B>> :
RCRA corrective action
CERCLA
TSCA
Safe Drinking Water Act
UST corrective action
State (specify)
DoD
DOE
Other (Specify)
Not Applicable
Volume/Quantity Treated
(Units)
Area treated (for in situ projects)
(Units)
(Units)
^^M^'^^^<'^9^^?ซ?^-:^^^*Fi
^W^.Vr^s^^::?r^i^s;^^L:^^#^lf>^,%
Machine shops
Medical wastes
Metal ore mining and smelting
Municipal landfill
Munitions manufacturing
Paint/ink formulation
Pesticide manufacturing/use
Petroleum refining/reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Project took place at site named?
Yes !
No
-'i- *j5*,('?ifrtl- fV;>,"'*,;ซwssjisAV,iw, '"/ i'-??;,-:?^f- t
<>>; >;-^S< ,< > *'-* ->.' ,5 ^^^^Vv ^^?v^^*;;)fv V ' " /:A ? 'J
*'* ^'-' t^'< -?c''-^"^-t^ < ^^s>>^^o-Voซ^;ซ;:**ซ^i- %^,&^^v^*'vv
Full-scale cleanup
Field demonstration ;
Pilot-scale treatability study
Bench-scale treatability study
RCRA Research, Development,
TSCA National Demonstration
TSCA Research and Development
EPA SITE Demonstration Program
^^ssi^^iii^isiiss^
Soil (in situ)
Soil (ex situ)
Solid (for example, slag)
Saturated sediment (in situ)
Saturated sediment (ex situ)
Ground water (in situ)
^^tn^-^'jx j^;,^v o; > ^ ^,ajs<=f ^j^v.j \ '- ? v,A \ y vj vv,'*
:^4^M^^^^(9Sn^^^ฅ^!^'
Bench
Pilot
Full
V -* ',5t-*' "'ป* 5^-:^4'>X
Off-gas from a primary
treatment technology
r\e\nr>e* nnnoj-ii tnn n t->
liquids (DNAPL) [in situ]
Light nonagueous phase liquids
(LNAPL) [in situ]
Other:
'(%'?%. *-*ซ :' f; ' ;,s?.>'.'V^ซ' * *",-x -A--, -; '-'ป' s'. -' /- iปsv:ซ %sWrป'
ffe;~ป^S^;^^:kC^^:-
Contracted
Month Year
Ongoing Yes No
Completed
Month Year
23
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43c. (continued)
Note: (1) 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.
(2) and (3) Indicate the appropriate units; for concentrations that were non-detect write N.D.; treated
concentration should be lower than untreated concentration unless the technology is dewatering or
some other volume reduction method. If a concentration range cannot be given, provide an average
and note it as such.
(4) Specify the cleanup standard or goal, if known, for the individual contaminant for this project. For
example, if the project was part of a Superfund remedial action, the cleanup goal is specified in the
record of decision (ROD) for that site.
Performance Data ' \ "^ ,
(1)
Contaminant or Pollutant
Parameter
(Example} Benzene
(2)
Untreated
Concentration Range
(Min to Max}
SO - ISO
Conditions or interference adversely affecting perfor
m
Units
mg/kg
{2}
' Treated
Concentration Range
{NiinioWlax} '
2$ 'SO; '
1 J.^
,
f ^ J 5 5
Units
mg/kg
,^v' '/':.' / -, ,', " " \ -,
,.' (4K
Cleanup Standard
' H" or Goal ' '-' --"
' " , - Sป ' .' 'v
^ i c ^
ฐP. '
;' Units "
.' **ป%?
mance
Cost'lnformafion ' ' ", v - , '' '
Estimated or actual total and/or unit cost for this
project
$ per (unit)
$ (total)
What items or activities are included or not included in these cost(s) (for example,
mobilization, demobilization, excavation, waste handling)?
Person outslda of company familiar with project (optional)
Name Company
Address
Phone
Is Literature Available on this Project? (You
may wish to include these citations in Part 6) ;
Yes No
Additional project information such as site conditions, mode of operation, and other pertinent infc
rmation.
24
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43d.
r^|^r^^M^^^i'io^ป;r4;4t<
ป s!UฃฃV; ฃf*y* j cl^jPiV:' , tiv"tM, V.^'% -K <,'W;'-> '
^*^fr^3^S^^^i^fe%tf^
"? V *"^ "\, ''"ft, &'*ฃ -V<'< -- ฅ Jx 'V. VS *f >*
Agriculture
Battery recycling/disposal
Chlor-alkali manufacturing
Coal gasification
Dry cleaning
Electroplating
Gasoline service
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Location
City
State/Province:
Country
it ',ฃ y'd 4^^'^i^if^M^ ys. $ '
RCRA corrective action
CERCLA
TSCA
Safe Drinking Water Act
UST corrective action
State (specify)
DoD
DOE
Other (Specify)
Not Applicable
Volume/Quantity Treated
(Units)
Area treated (for in situ projects)
(Units)
(Units)
> ป' ,< AtKi'- ~}\- ">, fX'fyfrx ';ซ,<* KV, ^^^srrcn.VA.w? *"
^^^^^f^^^%^^^^/^^
Machine shops
Medical wastes
Metal ore mining and smelting :
Municipal landfill
Munitions manufacturing
Paint/ink formulation
Pesticide manufacturing/use \
Petroleum refining /reuse
Photographic products
Plastics manufacturing
Pulp and paper industry
Other organic chemical
Project took place at site named?
Yes :
No
^^"f&pl/vbvtgVf^JrJ? ', * ",s, ,\\; " '^^?**i-ซ^ ซ *' ?/v' \V ~ff,'<'/crs!j": ^'&!'.'>jฃfvf.itif>$iฃfX
x^^^^m^f^^^j^0^
Soil (in situ)
Soil (ex situ)
Sludge :
Solid (for example, slag)
Saturated sediment (in situ)
Saturated sediment (ex situ)
r*rn.,nfi ,n+nr I'n i*'+. ,\
^|^Q|fgip^^f^;^
Bench
Pilot
Full
sfa'ป a.-v,,-:,V,^v J-^^-.^fi-v-cft**. -.-'.", VA * ซ^ v*ซ - H ', i : > v^&', ^-v vv> ' J' v'v ' $ฃ* ;^ > o w *> ' < "<: fe v 'j
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Other (specify)
At another site (that is, a Test facility)?
Yes
No
|^S^^^:;KA2::V^;
> ^ ^ - *~^;A , "!' ; x' m<* ^" ^ ;s?)*'^-'-V^'>- '^/'^v i <*i> *-v" v ,-* r^**> *
*H^^.;^>^,Si:if^^S^;^
fPXl SITE Emerging Technology
Program
Research
Other (specify)
ฃ~S3^f*! i>* ^ ^ <- 3ป% ,V V^Vv>'^?,h '^' ,,C- \^sV ' **^^i"' J< '^ ?0
Off-gas from a primary
treatment technology
Dense nonaqueous phase
liquids (DNAPL) [in situ]
Light nonaqueous phase liquids
(LNAPL) [in situ]
Other:
Sil&S^^^^^-S^S^
Contracted
Month Year
Ongoing Yes No
Completed
Month Year
25
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43d. (continued)
Note: (1) 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.
(2) and (3) Indicate the appropriate units; for concentrations that were non-detect write N.D.; treated
concentration should be lower than untreated concentration unless the technology is dewatering or
some other volume reduction method. If a concentration range cannot be given, provide an average
and note it as such.
(4) Specify the cleanup standard or goal, if known, for the individual contaminant for this project. For
example, if the project was part of a Superfund remedial action, the cleanup goal is specified in the
record of decision (ROD) for that site.
Performance Data / ' ,
(1)
Contaminant or Pollutant
Parameter
(ExampfeJ Benzene
(2)
Untreated
Concentration Range
(Min to Max}
SO - 16O
Conditions or interference adversely affecting perfor
(3)
Units
mg/kg
m
Treated
Concentration Range
(Min to Max)
- 25 -60 \,
, m
Units
mg/kg
-' -' " ' {43 ' ,'
Cfeanup' Standard
or Goal '
SO
" (3)
Unfts
; mgf/kg '
mance
Cost Information - , ' ' , .''< ^
Estimated or actual total and/or unit cost for this
project
$ per (unit)
$ (total)
What items or activities are included or not included in these cost(s) (for example,
mobilization, demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Nnmo Company
Address
Phons
Is Literature Available on this Project? (You
may wish to include these citations in Part 6)
Yes No
Additional project information such as site conditions, mode of operation, and other pertinent infc
rmation.
26
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43e.
Site Name (or Industry Type if Client -
Identity is Confidential}: - ' > *
Site Type or Waste Source (Cheok all that apply) - ''-'.' , \ '-,/ ฐ
Agriculture Machine shops
Battery recycling/disposal Medical wastes
Chlor-alkali manufacturing Metal ore mining and smelting :
Coal gasification Municipal landfill
Dry cleaning Munitions manufacturing
Electroplating Paint/ink formulation :
Gasoline service Pesticide manufacturing/use '
station/petroleum storage
facility
Herbicide
manufacturing/use
Industrial landfills
Inorganic/organic pigments
Location
City
State/Province:
Country
fiegulatfon/Statute/Organfeatlon
* (Check all that apply)
RCRA corrective action
CERCLA
TSCA
Safe Drinking Water Act
UST corrective action
State (specify)
DoD
DOE
Other (Specify)
Not Applicable
Volume/Quantity Treated
(Units)
Area treated (for in situ projects)
(Units)
Depth treated (for in situ projects)
(Units)
Petroleum refining/reuse
Photographic products '
Plastics manufacturing
Pulp and paper industry
Other organic chemical
manufacturing
Project took place at site named?
Yes :
No
Other inorganic chemical
manufacturing
Semiconductor manufacturing
Rubber manufacturing
Wood preserving
Uranium mining
Other (specify)
At another site (that is, a Test facility)?
Yes
No
Application or Project Type (Check all that apply} = '
Full-scale cleanup
Field demonstration
Pilot-scale treatability study
Bench-scale treatability study
RCRA Research, Development,
and Demonstration
TSCA National Demonstration
TSCA Research and Development
EPA SITE Demonstration Program
EPA SITE Emerging Technology
Program
Research
Other (specify)
jSJ|^||^|:^
Soil (in situ)
Soil (ex situ)
Sludge
Solid (for example, slag)
Saturated sediment (in situ)
Saturated sediment (ex situ)
Ground water (in situ)
' Equipment Scale (Check one only!
Bench
Pilot
Full
Off-gas from a primary
treatment technology
Dense nonaqueous phase
liquids (DNAPL) [in situ]
Light nonaqueous phase liquids
(LNAPL) [in situ]
Other:
<- * Project Status ,
Contracted
Month Year
Ongoing Yes No
Completed
Month Year
27
-------�
Vendor Name
Technology Type
PART 5: REPRESENTATIVE APPLICATIONS, CLIENT REFERENCES, AND PERFORMANCE DATA
(continued)
43e. (continued)
Note: (1) 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.
(2) and (3) Indicate the appropriate units; for concentrations that were non-detect write N.D.; treated
concentration should be lower than untreated concentration unless the technology is dewatering or
some other volume reduction method. If a concentration range cannot be given, provide an average
and note it as such.
(4) Specify the cleanup standard or goal, if known, for the individual contaminant for this project. For
example, if the project was part of a Superfund remedial action, the cleanup goal is specified in the
record of decision (ROD) for that site.
Performance' Data '' ' _\ ,",>"' ""'.. v ', ^ <"
<1)
Contaminant or Pollutant
Parameter
(Example) Benzene
m
Untreated
Concentration Range
(Win to Max)
SO - ISO
m
Units
mg/kg
' " (2-K - "V
, Treated,
Concentration Range ' *
(Win to Max) , ,
2$ --BO ' ,'
(3}
Un|&
'mg/kg
,> ::PHW ;: > ,-
Cleanup Standard v
^ _ or Goal'* ' -
. >'"' ซ0 ' - "
taa ."s ;
J P %.>= i >
, Unit? , ,
" mg/kg'
Conditions or interference adversely affecting performance
Cost information ฐ -> _ 5S ,,'_''
Estimated or actual total and/or unit cost for this
project
$ per (unit)
$ (total)
What items or activities are included or not included in these cost(s) (for example,
mobilization, demobilization, excavation, waste handling)?
Person outside of company familiar with project (optional)
Natna Company
Address
Phona
Is Literature Available on this Project? (You
may wish to include these citations in Part 6)
Yes No
Additional project information such as site conditions, mode of operation, and other pertinent information.
28
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Vendor Name
Technology Type
PART 6: LITERATURE AND TECHNICAL REFERENCES
44. 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
NTIS/EPA Document Number(s)
Author(s)
Title
Journal/Conference
Date
NTIS/EPA Document Number(s)
29
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APPENDIX A
BUSINESS CLASSIFICATION INFORMATION
The following information is intended to be used as a reference to answer question 2e. SIC code
information and definitions are given below. To determine if your company is a small and/or
disadvantaged business, first identify the Standard Industrial Classification (SIC) code for your company
and secondly identify whether your company qualifies as a small business under that SIC code. Small
and disadvantaged businesses are defined below.
Definition of SIC Code
Standard Industrial Classification (SIC) Code - refers to the four-digit number assigned by the
government to classify establishments by the type of activity in which they are engaged. The codes are
published by the Government in the Standard Industrial Classification Manual. The Manual is intended
to cover the entire field of economic activities. It classifies and defines activities by industry categories
and is the source used by the Small Business Administration (SBA) as a guide in defining industries for
size standards. The number of employees or annual receipts indicates the maximum allowed for a
concern, including its affiliates, to be considered small (Federal Acquisition Circular (FAC) 90-16,
December 21,1992, Federal Acquisition Regulation (FAR), 19.102(g)).
Most remediation firms should fall under one of the SIC codes defined below.
The following SIC code definitions are taken from the Standard Industrial Classification Manual, 1987,
Office of Management and Budget.
SIC code 4953: Refuse Systems (i.e., activities related to actual site cleanup) Establishments primarily
engaged in the collection and disposal of refuse by processing or destruction or in the operation of
incinerators, waste treatment plans, landfills, or other sites for disposal of such materials. Establishments
primarily engaged in collecting and transporting refuse without such disposal are classified in
Transportation, Industry 4212.
Acid waste, collection and disposal of
Ashes, collection and disposal of
Dumps, operation of
Garbage: collecting, destroying, and
processing
Hazardous waste material disposal sites
Incinerator operation
Landfill, sanitary: operation of
Radioactive waste materials, disposal of
Refuse systems
Rubbish collection and disposal
Sludge disposal sites
Street refuse systems
Waste materials disposal at sea
SIC code 8711: Engineering Services (i.e., activities related to remedial investigations, feasibility
studies, and remedial design) Establishments primarily engaged in providing professional engineering
services. Establishments primarily providing and supervising their own engineering staff on temporary
A-l
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contract to other firms are included in this industry. Establishments providing engineering personnel, but
not general supervision, are classified in Industry 7363. Establishments primarily engaged in providing
architectural engineering services are classified in Industry 8712, and those providing photogrammetric
engineering services are classified in Industry 8713.
Designing: ship, boat, and machine
Engineering services: industrial, civil,
electrical, mechanical, petroleum,
marine, and design
Machine tool designers
Marine engineering services
Petroleum engineering services
Definitions of Small and Disadvantaged/Minority Business
The following small business size standards established by the SBA are taken from FAC90-16 December
21,1992, FAR 19.102.
SIC Code Description
Size
4943 Refuse Systems $6.0 million
8711 Engineering Services
Military and Aerospace Equipment
and Military Weapons $13.5 million
Marine Engineering and Naval Architecture $9.0 million
Other Engineering Services $2.5 million
The following information is taken from FAC 90-16 December 21,1992, FAR 19.101.
Small business concern - means a concern, including its affiliates, that is independently owned and
operated, not dominant in the field of operation in which it is bidding on government contracts, and
qualified as a small business under the criteria and size standards in 13 CFR Part 121. Such a concern is
"not dominant in its field of operation" when it does not exercise a controlling or major influence on a
national basis in a kind of business activity in which a number of business concerns are primarily
engaged. In determining whether dominance exists, consideration shall be given to all appropriate
factors, including volume of business, number of employees, financial resources, competitive status or
position, ownership or control of materials, processes, patents, license agreements, facilities, sales
territory, and nature of business activity.
Small disadvantaged/minority business concern - means a small business concern that is at least 51
percent unconditionally owned by one or more individuals who are both socially and economically
disadvantaged, or a publicly owned business that has at least 51 percent of its stock unconditionally
owned by one or more socially and economically disadvantaged individuals and that has its management
and daily business controlled by one or more such individuals. This term also means a small business
concern that is at least 51 percent unconditionally owned by an economically disadvantaged Indian tribe
or Native Hawaiian Organization, or a publicly owned business that has at least 51 percent of its stock
unconditionally owned by one of these entities, that has its management and daily business controlled by
A-2
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members of an economically disadvantaged Indian tribe or Native Hawaiian Organization, and that meets
the requirements of 13 CFR 124.
(a) "Socially disadvantaged individuals" means individuals who have been subjected to racial or
ethnic prejudice or cultural bias because of their identify as a member of a group without regard to their
qualities as individuals.
(b) "Economically disadvantaged individuals" means socially disadvantaged individuals whose
ability to compete in the free enterprise system is impaired due to diminished opportunities to obtain
capital and credit as compared to others in the same line of business who are not socially disadvantaged.
Individuals who certify that they are members of named groups (Black Americans, Hispanic Americans,
Native Americans, Asian-Pacific Americans, Subcontinent-Asian Americans) are to be considered
socially and economically disadvantaged.
(1) "Subcontinent Asian Americans" means United States citizens whose origins are in
India, Pakistan, Bangladesh, Sri Lanka, Bhutan, or Nepal.
(2) "Asian Pacific Americans" means United States citizens whose origins are in Japan,
China, the Philippines, Vietnam, Korea, Samoa, Guam, the U.S. Trust Territory of the Pacific
Islands (Republic of Palau), the Northern Mariana Islands, Laos, Kampuchea (Cambodia), Taiwan,
Burma, Thailand, Malaysia, Indonesia, Singapore, Brunei., Republic of the Marshall Islands, or the
Federated States of Micronesia.
(3) "Native Americans" means American Indians, Eskimos, Aleuts, and Native Hawaiians.
(c) "Native Hawaiian Organization" means any community service organization serving Native
Hawaiians in, and chartered as a not-for-profit organization by, the State of Hawaii, which is controlled
by Native Hawaiians, and whose business activities will principally benefit such Native Hawaiians.
(d) "Indian tribe" means any Indian tribe, band, nation, or other organized group or community of
Indians, including any Alaska Native Corporation as defined in 13 CFR 124.100 which is recognized as
eligible for the special programs and services provided by the U.S. to Indians because of their status as
Indians, or which is recognized as such by the State in which such tribe, band, nation, group, or
community resides.
Women-owned - as used in this form, means a business that is at least 51 percent owned by a woman or
women who are U.S. citizens and who also control and operate the business.
A-3
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APPENDIX B
KEY TO CONTAMINANT GROUPS
CONTAMINANT GROUP CODES FOR HAZARDOUS SUBSTANCES LIST
Inorganic
Heavy metals
A| Halogenated volatiles
Halogenated semivolatiles
^7| Nonmetallic toxic elements (As, F)
Nonhalogenatedvolatiles
Q~| Radioactive metals
Nonhalogenated semivolatiles
pT| Asbestos
rT| Organic pesticides/herbicides
Inorganic cyanides
Inorganic corrosives
p~|| Dioxins/furans
Miscellaneous
TT| Polynucleararomatics (PNAs)
Explosives/propellants
Organometalhcpesticides/herbicides
71| Benzene-toluene-ethylbenzene-xylene (BTEX)
Organic cyanide
L]| Organic corrosives
B-l
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Organic Contaminant Group
CAS No.
208968
83329
75070
67641
75058
98862
591082
107028
79061
79107
107131
124049
116063
309002
107186
62533
120127
1912249
2642719
86500
151564
56553
71432
98884
92875
205992
65850
100470
95169
50328
206440
207089
100447
111911
111444
117817
542881
75274
74964
Acenaphthylene H
Acenaphthene H
Acetaldehyde C,I
Acetone C,I
Acetonitrile C,K
Acetophenone D
Acetyl-2-thiourea, 1 D
Acrolein C
Acrylamide D
Acrylic acid C
Acrylonitrile C,K
Adipic acid D
Aldicarb E,D
Aldrin E,B
Allyl alcohol C,I
Aniline D
Anthracene H
Atrazine E,B
Azinphos-ethyl E,D
Azinphos-methyl E,D
Aziridine C,L
Benz (a) anthracene H
Benzene J
Benzene carbonyl chloride B,L
Benzidine D
Benzofluoranthene,3,4- H
Benzoic acid D
Benzonitrile C,I,K
Benzothiazole,l,2- K
Benzo (a) pyrene H
Benzo (j,k) fluorene H
Benzo (k) fluoranthene H
Benzyl chloride A
Bis (2-chloroethoxy) methane B
Bis (2-chloroethyl) ether B
Bis (2-ethyl hexyl) phthalate D
Bis (chloromethyl) ether B
Bromodichloromethane A
Bromomethane A
CAS No.
1689845 Bromoxynil E,K,B
106990 Butadiene, 1,3- C
71363 Butanol C :
85687 Butlbenzyl phthalate D
94826 Butyric acid, 4-2(2,4-dichlorop) E,B
133062 Captan B,E
63252 Carbaryl E,D
1563662 Carbofuran E,D
75150 Carbon disulfide C,I
56235 Carbon tetrachloride A,I
78196 Carbophenothion E
75876 Chloral A
57749 Chlordane E,B
106478 Chloroaniline, p- B
108907 Chlorobenzene A
67663 Chloroform A
74873 Chloromethane A
107302 Chloromethyl methyl ether A
106898 Chloromethyloxirane, 2- I,A
91587 Chloronaphthalene, 2- B
95578 Chlorophenol, 2- B
59507 Chloro-3-methylphenol, 4- B
2921882 Chloropyrifos E,D
218019 Chrysene H1
56724 Coumaphos E,D
8021394 Creosote H
108394 Cresol, m- D
106445 Cresol, p- D
98828 Cumene C,I
21725462 Cyanazine E,K,B
110827 Cyclohexane C,I
108941 Cyclohexanone C,I
72548 ODD E,B
72559 DDE E,B
50293 DDT E,B
78488 DBF E,D
333415 Diazinon E,D
132649 Dibenzofuran D?H
B-2
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Organic Contaminant Group (continued)
CAS No.
53703
124481
96128
106934
1918009
95501
541731
106467
91941
75718
75343
107062
75354
156592
156605
120832
94757
78875
542756
62737
115322
60571
84662
111466
1660942
60515
119904
105679
13113
77781
99650
51285
121142
606202
88857
123911
78342
122667
85007
298044
330541
Dibenz (a,h) anthracene H
Dibromachloromethane A
Dibromo-3-chloropropane, 1,2- A,E
Dibromoethane, 1,2- A,E,I
Dicamba A,B
Dichlorobenzene, 1,2- B
Dichlorobenzene, 1,3- B
Dichlorobenzene, 1,4- B
Dichlorobenzidine, 3,3- B
Dichlorodifluoromethane A
Dichloroethane, 1,1- A
Dichloroethane, 1,2- A
Dichloroethene, 1,1- A
Dichloroethylene, cis-1,2- A
Dichloroethylene, trans-1,2- A
Dichlorophenol, 2,4- B
Dichlorophenoxyacetic acid, 2- E,B
Dichloropropane, 1,2- A
Dichloropropene, 1,3- A
Dichlorvos E,A
Dicofol E,B
Dieldrin E,B
Diethyl phthalate D
Diethylene glycol D,I
Diisopropylmethylphosphonate D
Dimethoate E,D
Dimethoxybenzidine, 3,3- D
Dimethyl phenol, 2,4- D
Dimethyl phthalate D
Dimethyl sulfate C
Dinitrobenzene, 1,3- D
Dinitrophenol, 2,4- D
Dinitrotoluene, 2,4- D,S
Dinitrotoluene, 2,6- D,S
Dinoseb E,D
Dioxane, 1,4 C,I
Dioxathion E,D
Diphenylhydrazine, 1,2- D
Diquat E,D
Disulfoton C,E
Diuron E,D
CAS No.
84742 Dirn-butyl phthalate
117840 Di-n-octyl phthalate
115297 Endosulfan
959988 Endosulfan i
33212659 Endosulfan II
1031078 Endolsulfan sulfate
145733 Endothall
72208 Endrin
7421934 Endrin aldehyde
563122 Ethion
141786 Ethyl acetate
100414 Ethyl benzene
75003 Ethyl chloride
60297 Ethyl ether
1072,11 Ethylene glycol
110805 Ethylene glycol monoethyl
ether
759944 Ethylpropylthio carbomate, S-
D
D
E,B
E,B
E,B
E,B
E,D
E,B
E,B
E,D
122145 Fenitrothion ..
86737 Fluorene
50000 Formaldehyde
64186 Formic acid ..
110009 Furan
98011 Furfural
E,D
E,D
H
C,L
C
765344 Glycidyaldehyde C
76448 Heptachlor
1024573 Heptachlor epoxide
118741 Hexachlorobenzene
87683 Hexachlorobutadiene
60873 Hexachlorocyclohexane, alpha-
60873 Hexachlorocyclohexane, beta-
60873 Hexachlorocyclohexane, delta-
77474 Hexachlorocyclopentadiene ..
67721 Hexachloroethane
70304 Hexachlorophene
110543 Hexane
B,E
B,E
B,E
E,B
E,B
E,B
B
B
B
B-3
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Organic Contaminant Group (continued)
CAS No.
1689834 loxynil E,K,B
78831 Isobutanol C,I
78591 Isophorone D,I
143500 Kepone E,B
58899 lindane E,B
121755 Malathion B,E
108316 Maleic anhydride D
123331 Maleric hydrazide E,D
126987 Methacrylonitrile C,K
67561 Methanol C,I
16752775 Methomyl E,D
72435 Methoxychlor B,E
79221 Methyl chlorocarbonate C,L
78933 Methyl ethyl ketone C,I
108101 Methyl isobutyl ketone C,I
80626 Methyl methacrylate C
101144 Methylenebis
(2-chloroaniline) B
75092 Methylene chloride A,I
23855 Mirex E,B
91203 Naphthalene H
100016 Nitroaniline, p- D
98953 Nitrobenzene D
100027 Nitrophenol, 4- D
1116547 Nitrosodiethanolamine, n- D
55185 Nitrosodiethylamine, n- D
62759 Nitrosodimethylamine, n- D
86306 Nitrosodiphenylamine, n- D
930552 Nitrosopyrrolidine, n- D
924163 Nitroso-di-n-butylamine, n- D
615532 Nitroso-di-n-methylurethane, n- D
99990 Nitrotoluene, 4- D
56382 Parathion, ethyl- E,D
298000 Parathion, methyl- E,D
1336363 PCBs G
608935 Pentachlorobenzene B
76017 Pentachloroethane A
CAS No.
82688
87865
85018
108952
139662
62384
298022
75445
13171216
85449
23950585
129000
110861
Pentachloronitrobenzene B
Pentachlorophenol B,E
Phenanthrene H
Phenol D
Phenyl sulfide D
Phenylmercurie acetate E,T
Phorate C,E
Phosgene A,E,L
Phosphamidon E,D
Phthalic anhydride D
Pronamide D
Pyrene H
Pyridine C,I
91225 Quinoline H ;
108463 Resorcinol D
299843 Ronnel E,B
57249 Strychnine E,H
100425 Styrene C
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,E,I
127184 Tetrachloroethene A,I
58902 Tetrachlorophenol, 2,3,4,6 B
3689245 Tetraethyldithiopyrophosphate E,D
109999 Tetrahydrofuran C,I
137268 Thiram E,D
108883 Toluene J
584849 Toluene diisocyanate D,L
8001352 Toxaphene B,E
93721 TP, 2,4,5- (Silvex) E,B
75252 Tribromomethane A
120821 Trichlorobenzene, 1,2,4- B
71556 Trichloroethane, 1,1,1- A,I
79005 Trichloroethane, 1,1,2- A,I
79016 Trichloroethylene A
75694 Trichlorofluoromethane A,I
B-4
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Organic Contaminant Group (continued)
CAS No.
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, 2,4,5- .. E,B
933788 Trichloro-l,2,2-trifluoroethane A,I
27323417 Triethanolamine B
126727 Tris (2,3-dibromopropyl) phosphate .. B
108054 Vinyl acetate C
75014 Vinyl chloride A
81812 Warfarin E,D
108383 Xylene, m- J
95476 Xylene, o- J
106423 Xylene, p- J
Inorganic Contaminant Group
7429905 Aluminum X
20859738 Aluminum phosphide N
7440360 Antimony M
7440382 Arsenic M
1327533 Arsenic trioxide M
1303339 Arsenic trisulfide M
7440393 Barium M
542621 Barium cyanide M,Q
7440417 Beryllium X
7440439 Cadmium M
13765190 Calcium chromate M
7778543 Calcium hypochlorite R
1333820 Chromic acid M,R
7440473 Chromium M
Chromium (III) M
Chromium (VI) M
7440484 Cobalt M
7440508 Copper M
544923 Copper cyanide M,Q
CAS No.
7720787
7439896
7439921
7439965
7439976
7440020
7718549
10102440
7803512
7789006
151508
506616
7783008
7782492
7440224
506649
7440235
26628228
7681494
7775113
143339
1310732
1314325
7440280
563688
6533739
7791120
10102451
12039520
7446186
7440291
Ferrous sulfate
Iron
Lead
Manganese
Mercury
Nickel
Nickel chloride
Nitrogen dioxide
Phosphine
Potassium chromate
Potassium cyanide
Potassium silver cyanide
Selenious acid
Selenium
Silver
Silver cyanide
Sodium (metallic)
Sodium azide
Sodium fluoride
Sodium chromate
Sodium cyanide
Sodium hydroxide
Thallic oxide
Thallium
Thallium acetate
Thallium carbonate
Thallium chloride
Thallium nitrate
Thallium selenide
Thallium (I) sulfate
Thorium
M
M
. . M
.... M
. , M
M
.... M
... . R
.... N
.... M
.... Q
. . . . M,Q
. . . . N,R
N
.... M
. . . . M,Q
R
.... S
N
.... M
. . . . Q
R
... M
... M
... M
... M
... M
... M
... M
... M
O
B-5
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Inorganic Contaminant Group (continued)
CAS No.
1314621 Vanadium pentoxide M,R
7440666 Zinc X
557211 Zinc cyanide Q
1314847 Zinc phosphide N
7733020 Zincsulfate X
Explosive/Propellants
7664417 Ammonia R
131748 Ammonium picrate S
7773060 Ammonium sulfamate S
460195 Cyanogen S,E
2691410 Cyclotetramethylenetetranitramine ... S
302012 Hydrazine S
55630 Nitroglycerine S
99990 Nitrotoluene, 4- S
26628228 Sodium azide S
99354 Trinitrobenzene, 1,3,5 S
118967 Trinitrotoluene S
Organometallic Compound
63294 Phenylmercurie acetate E,T
630104 Selenourea N
78002 Tetraethyl lead M
B-6
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AEPA
United States
Environmental Protection Agency
(5102G)
Washington, DC 20460
Official Business
Penalty for Private Use
$300
-------�
Office of Solid Waste and
Emergency Response '
Technology Innovation Office
EPA-542-C-97-Q02
VISITT VIF 6.0
Vendor Information System for Innovative
Treatment Technologies
Vendor Information Form Version 6.0
, Disk 2 of 2
To install choose RUN from the Windows Program
Manager. Insert Disk 1 in A drive and type
A:Setup. For, assistance call VISITT Helpline:
1-800-245-4505
Office of Solid Waste and
Emergency Response
Technology Innovation Office
EPA-542-C-97-002
VISITT VIF 6.0
Vendor Information System for Innovative
Treatment Technologies
Vendor Information Form Version 6.0
Disk 1 of 2
To install choose RUN from the Windows Program
Manager. Insert Disk 1 in A drive and type
ArSetup. For assistance call VISITT Helpline:
1-800-245-4505
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