v>EPA
United States
Environmental Protection
Agency
Office of Research and
Development
Washington DC 20460
EPA/540/R-99/500C
February 1999
Superfund Innovative
Technology Evaluation
Program
Technology Profiles
Tenth Edition
Volume 3
Monitoring and Measurement
Program
SUPERFUND INNOVATIVE
TECHNOLOGY EVALUATION
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EPA/540/R-99/500C
February 1999
SUPERFUND INNOVATIVE
TECHNOLOGY EVALUATION
Technology Profiles
Tenth Edition
Volume 3
Monitoring and Measurenieiit
Program
National Risk Management Research Laboratory ;
Office of Research and Development
U.S. Environmental Protection Agency
Cincinnati, Ohio; 45268
Printed on Recycled Paper
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NOTICE
The development of this document was funded by the U.S. Environmental Protection Agency (EPA)
under Contract No. 68-C5-0037, Work Assignment No. 0-32, to Tetra Tech EM Inc. The document
was subjected to the Agency's administrative and peer review and was approved for publication as an
EPA document. Mention of trade names or commercial products does not constitute endorsement or
recommendation for use at any particular hazardous waste site.
11
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FOREWORD
The U.S. Environmental Protection Agency (EPA) is charged by Congress with protecting the Nation's
land, air, and water resources. Under a mandate of national environmental laws, EPA strives to
formulate and implement actions leading to a compatible balance between human activities and the
ability of the natural systems to support and nurture life. To meet these mandates, EPA's research
program is providing data and technical support for solving environmental problems today and building
a science knowledge base necessary to manage our ecological resources wisely, understand how
pollutants affect our health, and prevent or reduce environmental risks in the future.
The National Risk Management Research Laboratory (NRMRL) is EPA's center for investigating
technological and management approaches for reducing risks from threats to human health and the
environment. The focus of NRMRL's research program is on methods for preventing and controlling
pollution to air, land, water, and subsurface resources; protecting water quality in public water
systems; remediating contaminated sites and groundwater; and preventing and controlling indoor air
pollution. The goal of this research effort is to catalyze development and implementation of innovative,
cost-effective environmental technologies; develop scientific and engineering information needed by
EPA to support regulatory and policy decisions; and provide technical support and information transfer
to ensure effective implementation of environmental regulations and strategies.
This document has been produced as part of NRMRL's strategic long-term research plan. It is
published and made available by EPA's Office of Research and Development to assist the user
community and to link researchers with their clients.
E. Timothy Oppelt, Director
National Risk Management Research Laboratory
in
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ABSTRACT
The Superfund Innovative Technology Evaluation (SITE) Program, now in its thirteenth year, is an
integral part of EPA's research into alternative cleanup methods for hazardous waste sites around the
nation. The SITE Program was created to encourage the development and routine use of innovative
treatment and monitoring and measurement technologies. Under the program, EPA enters into
cooperative agreements with technology developers. These developers research and refine their
innovative technologies at bench- or pilot-scale and then, with EPA's support, demonstrate them at
hazardous waste sites. As a result, the SITE Program provides environmental decision-makers with
data on new, viable treatment technologies that may have performance or cost advantages compared to
traditional treatment technologies.
The SITE profiles documents, prepared between July 1998 and October 1998, are intended as reference
guides for those interested in technologies participating in the SITE Demonstration Program (Volume
1), Emerging Technology Program (Volume 2), and Monitoring and Measurement Technologies
(MMT) Program (Volume 3). The two-page profiles are organized into two sections for each program
(except for the MMT Program) for completed and ongoing projects, and are presented in alphabetical
order by developer name. Reference tables for SITE Program participants precede the sections and
contain EPA and developer contacts. Inquiries about a SITE technology evaluation or the SITE
Program should be directed to the specific EPA project manager; inquiries on the technology process
should be directed to the specific technology developer.
Each technology profile contains (1) a technology developer and process name, (2) a technology
description, including a schematic diagram or photograph of the process (if available), (3) a discussion
of waste applicability, (4) a project status report, and (5) EPA project manager and technology
developer contacts. The profiles also include summaries of demonstration results, if available. The
technology description and waste applicability sections are written by the developer. EPA prepares the
status and demonstration results sections.
A Trade Name Index and Applicability Index are also included in the back of each volume. The Trade
Name Index allows the reader to identify a technology based on trade name, current company name,
and former company name. The Applicability Index is organized by 11 media categories, 19 waste
categories, and 14 technology type categories.
IV
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TABLE OF CONTENTS
Section
NOTICE . ; ii
FOREWORD . . m
ABSTRACT . iv
ACKNOWLEDGEMENTS . . . . . viii
SITE PROGRAM DESCRIPTION \
SITE PROGRAM CONTACTS 6
MEASURING AND MONITORING PROGRAM 7
Analytical and Remedial Technology, Inc.
(Automated Sampling and Analytical Platform) . 14
Art's Manufacturing and Supply
(AMS™ Dual-Tube Liner Soil Sampler) 16
Bionebraska, Inc. (BiMelze® Mercury Immunoassay) . 18
Bruker Analytical Systems, Inc. (Mobile Environmental Monitor) . 20
Clements, Inc. (JMC Environmentalist's Subsoil Probe) ....'..• 22
C-THRU Technologies Corporation
(Metal Analysis Probe [MAP®] Sprectrum Assayer) 24
Dexsil Corporation (Environmental Test Kits) 26
Environmental Technologies Group, Inc.
(AirSentry Fourier Transform Infrared Spectrometer) 28
Fugro Geosciences, Inc. (Rapid Optical Screening Tool) 30
Geoprobe Systems (Large Bore Soil Sampler) 32
Geoprobe Systems (Geoprobe Soil Conductivity Sensor) 34
Graseby Ionics, Ltd., and PCP, Inc. (Ion Mobility Spectrometry) 36
Hanby Environmental Laboratory Procedures, Inc.
(Test Kits for Organic Contaminants in Soil and Water) 38
Hewlitt-Packard Company (Portable Gas Analyzer/HP Micro GC) . 40
HNU Systems, Inc.
(HNU Source Excited Fluorescence Analyzer-Portable [SEFA-P]
X-Ray Fluorescence Analyzer) 42
HNU Systems, Inc. (HNU GC 31 ID Portable Gas Chromatograph) 44
Idetek, Inc. (Equate® Immunoassay) 46
Metorex, Inc. (Field Portable X-Ray Fluorescence Analyzers) 48
Microsensor Systems, Incorporated (MSI-301A Vapor Monitor) 50
NITON Corporation (XL Spectrum Analyzer) 52
Photovac Monitoring Instruments
(PE Photovac Voyager Portable Gas Chromatograph) , 54
Quadrel Services, Inc. (Emflux® Soil-Gas Survey System) 56
Radiometer Analytical Group (Anodic Stripping Voltammetry fr Mercury in Soil) ..... 58
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TABLE OF CONTENTS (Continued)
Section
Sentex Systems, Inc. (Scentograph Plus II Portable Gas Chromatograph) 60
Simulprobe® Technologies, Inc. (Core Barrel Soil Sampler) 62
Space and Naval Warfare Systems Center (SCAPS Cone Penetrometer) 64
SRI Instruments (Compact Gas Chromatograph) 66
Strategic Diagnostics, Inc. (EnSys Penta Test System) 68
Strategic Diagnostics, Inc. (EnviroGard™ PCB Immunoassay Test Kit)) 70
Strategic Diagnostics, Inc. (RaPID Assay®) 72
TN Spectrace (TN 9000 and TN Pb X-Ray Fluorescence Analyzers) 74
Tri-Services (Site Characterization and Analysis Penetrometer System [SCAPS]) 76
United States Environmental Protection Agency
(Field Analytical Screening Program - PCB Method) 78
United States Environmental Protection Agency
(Field Analytical Screening Program - PCP Method) 80
W. L. Gore and Associates, Inc. (GORE-SORBER® Screening Survey) 82
XonTech Incorporated (XonTech Sector Sampler) 84
DOCUMENTS AVAILABLE FROM THE U.S. EPA
NATIONAL RISK MANAGEMENT RESEARCH LABORATORY,
SUPERFUND TECHNOLOGY DEMONSTRATION DIVISION 87
VIDEO REQUEST FORM 99
TRADE NAME INDEX 103
APPLICABILITY INDEX 113
VI
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TABLE OF CONTENTS (Continued)
LIST OF FIGURES
Figure
1 DEVELOPMENT OF INNOVATIVE TECHNOLOGIES ........ 2
2 INNOVATIVE TECHNOLOGIES IN THE DEMONSTRATION PROGRAM 3
3 INNOVATIVE TECHNOLOGIES IN THE EMERGING TECHNOLOGY PROGRAM ... 4
LIST OF TABLES
Table
1 COMPLETED SITE MONITORING AND MEASUREMENT TECHNOLOGIES
PROGRAM PROJECTS AS OF OCTOBER 1998
VII
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ACKNOWLEDGEMENTS
The project manager responsible for the preparation of this document is Teri Richardson of EPA's National
Risk Management Research Laboratory in Cincinnati, Ohio. This document was prepared under the
direction of Robert Olexsey, Director of the Land Remediation and Pollution Control Division. Key
program area contributors for EPA include Stephen Billets, Annette Gatchett, and Randy Parker. Special
acknowledgement is given to the individual EPA SITE project managers and technology developers who
provided guidance and technical support.
Tetra Tech EM, Inc. prepared this document under the direction and coordination of Teri Richardson and
Annette Gatchett.
Vlll
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The U.S. Environmental Protection Agency's (EPA) Superfund Innovative Technology Evaluation (SITE)
Program, now in its thirteenth year, encourages the development and implementation of (1) innovative
treatment technologies for hazardous waste site remediation, and (2) characterization and monitoring
technologies for evaluating the nature and extent of hazardous waste site contamination.
The SITE Program was established by EPA's Office of Solid. Waste and Emergency Response (OSWER)
and the Office of Research and Development (ORD) in response to the 1986 Superfund Amendments and
Reauthorization Act (SARA), which recognized a need for an "Alternative or Innovative Treatment
Technology Research and Demonstration Program." The SITE Program is administered by ORD's
National Risk Management Research Laboratory (NRMRL), headquartered in Cincinnati, Ohio.
The SITE Program includes the following component programs:
• Demonstration Program - Evaluates and verifies cost and performance of promising
innovative technologies at selected hazardous waste sites to provide reliable performance,
cost, and applicability information for site clean-up decision making
• Emerging Technology Program - Provides funding to developers to continue research
efforts from the bench- and pilot-scale levels to promote the development of innovative
technologies
• Monitoring and Measurement Technologies Program - Evaluates technologies that
detect, monitor, and measure hazardous and toxic substances to provide more
cost-effective methods for producing real-time data during site characterization and
remediation
• Technology Transfer Program - Disseminates technical information, including
engineering, performance, and cost data, on innovative technologies to remove
impediments for using innovative technologies
This Technology Profiles document, a product of the Technology Transfer Program, describes completed
and ongoing projects in the Demonstration, Emerging Technology, and Monitoring and Measurement
Programs. Figure 1 shows the relationship among the programs and depicts the process of technology
development from initial concept to commercial use.
In the Demonstration Program, the technology is field-tested on hazardous waste materials. Engineering
and cost data are gathered on the innovative technology so that potential users can assess the technology's
applicability to a particular site. Data collected during the field demonstration are used to assess the
performance of the technology, the potential need for pre- and post-processing of the waste, applicable
types of wastes and waste matrices, potential operating problems, and approximate capital and operating
costs.
Page 1
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COMMERCIALIZATION
TECHNOLOGY
TRANSFER
TECHNOLOGY
DEMONSTRATION
Field-Scale Demonstration
TECHNOLOGY DEVELOPED
Pilot-Scale Testing
Bench-Scale Studies
CONCEPTUALIZATION
Figure 1: Development of Innovative Technologies
At the conclusion of a SITE demonstration, EPA prepares an Innovative Technology Evaluation Report
(ITER), a Technology Evaluation Report (TER), a Technology Capsule, and a Demonstration Bulletin.
Often, a videotape of the demonstration is also prepared. These reports evaluate all available information
on the technology and analyze its overall applicability to other site characteristics, waste types, and waste
matrices. Testing procedures, performance and cost data, and quality assurance and quality control
standards are also presented. These demonstration documents are distributed by EPA to provide reliable
technical data for environmental decision-making and to promote the technology's commercial use.
The Demonstration Program currently has 106 developers conducting 116 demonstrations. Of these
projects, 85 demonstrations are complete and 28 are ongoing. The projects are divided into the following
categories: thermal destruction (10), biological degradation (21), physical/chemical treatment (45),
solidification/stabilization (10), physical/chemical radioactive waste treatment (2), physical/chemical
thermal desorption (19), physical/chemical biological degradation (1), materials handling (3), and other
(2). Several technologies represent more than one treatment category. Figure 2 shows the breakdown of
technologies in the Demonstration Program. Profiles for technologies demonstrated under the
Demonstration Program are located hi Volume 1.
Page 2
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Physical/Chemical
45
\
'\
\
I
^
'
Bi
Dei
^
ological
gradation
.21
TV
K
J> \s
\Solidification/Stabilization
10
Other 2
Thermal
Destruction
10
Physical/Chemical
Radioactive Waste
Materials Handlmg~^^^^^laf*^' Treatment
3 Physcial/Chemical 2-
Physical/Chemical Thermal Desorption
Biological 13
Degradation
1 : '
Figure 2: Innovative Technologies in the Demonstration Program
Under the Emerging Technology Program, EPA provides technical and financial support to developers for
bench- and pilot-scale testing and evaluation of innovative technologies that are at a minimum proven on
the conceptual and bench-scale levels. The program provides an opportunity for a private developer to
research and develop a technology for field application and possible evaluation under the Demonstration
Program. A technology's performance is documented in a Final Report, journal article, Summary, and
Bulletin.
EPA has provided technical and financial support to 77 projects in the Emerging Technology Program.
Of these projects, 66 are completed, 7 are continuing in the program, and 4 have exited the program.
Eighteen Emerging Technology Program projects are participating in the Demonstration Program, and 7
of these demonstration projects are competed. The 73 active technologies are divided into the following
categories; . thermal destruction (9), physical/chemical treatment (38), biological degradation (19),
solidification/stabilization (2), and materials handling (5). Figure 3 displays the breakdown of technologies
in the Emerging Technology Program. Profiles for technologies demonstrated under the Emerging
Technology program are located in Volume 2.
Page 3
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Physical/Chemical
38
Materials
Handling
5
Biological Degradation
19
Solidification/
Stabilization 2
Figure 3: Innovative Technologies in the Emerging Technology Program
The Monitoring and Measurement Technologies (MMT) Program's goal is to assess innovative and
alternative monitoring, measurement, and site characterization technologies. To date, 38 technology
demonstrations have occurred under the MMT Program. These demonstrations have included four cone
penetrometers, 6 field portable X-ray fluorescence units, 6 portable gas chromatographs, 4
spectrophotometers, 12 field test kits, and 6 soil samplers. Profiles for technologies demonstrated under
the MMT Program are located hi Volume 3.
In the Technology Transfer Program, technical information on innovative technologies in the
Demonstration Program, Emerging Technology Program, and MMT Program is disseminated to increase
the awareness and promote the use of innovative technologies for assessment and remediation at Superfund
sites. The goal of technology transfer activities is to promote communication among individuals requiring
current technical information for conducting site investigations and cleanups.
The Technology Transfer Program reaches the environmental community through many media, including:
• Program-specific regional, state, and industry brochures
• On-site Visitors' Days during SITE demonstrations
• Demonstration videotapes
• Project-specific fact sheets to comply with site community relations plans
• ITERs, Demonstration Bulletins, Technology Capsules, and Project Summaries
• The SITE Exhibit, displayed nationwide and internationally at conferences
• Networking through forums, associations, regions, and states
• Technical assistance to regions, states, and remediation cleanup contractors
Page 4
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SITE information, including an electronic version of this document, is available through the following
on-line information clearinghouses:
SITE Program Home Page: http://www.epa.gov/ORD/SITE
Alternative Treatment Technology Information Center (ATTIC)
Internet Access: http://www.epa.gov/attic
Cleanup Information Bulletin Board System (CLU-IN)
Help Desk: 301-589-8368; Internet Access: http://www.clu-in.org
EPA Remediation and Characterization Innovative Technologies
Internet Access: http://www. epa. reachit. org
Groundwater Remediation Technologies Center
Internet Access: http://www.gwrtac.org
Technical reports may be obtained by calling the National Service Center for Environmental Publications
in Cincinnati, Ohio. To find out about newly published documents or to be placed on the SITE mailing
list, call or write to:
USEPA/NSCEP
P.O; Box 42419
Cincinnati, OH ,45242-2419 , ,
1-800-490-9198 . . - .
Page 5
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CONTACTS,
The SITE Program is administered by EPA's Office of Research and Development (ORD), specifically the
National Risk Management Research Laboratory (NRMRL). For further information on the SITE Program
or its component programs contact:
Land Remediation and
Pollution Control Division
Robert Olexsey
U.S. Environmental Protection Agency
26 West Martin Luther King Drive
Cincinnati, Ohio 45268
513-569-7861
Fax: 513-569-7620
SiTE Program
1 Annette Gatchett
U.S. Environmental Protection Agency
26 West Martin Luther King Drive
Cincinnati, Ohio 45268
513-569-7697
Fax: 513-569-7620
I
i
Jvlonitpring and
Measurement Program
Stephen Billets
U.S. Environmental Protection Agency
P.O. Box 93478
Las Vegas, Nevada 89193-3478
702-798-2232
Fax: 702-798-2261
Emerging Technology
Program
Randy Parker
U.S. Environmental Protection Agency
26 West Martin Luther King Drive
Cincinnati, 6hio 45268
513-569-7271
Fax: 513-569-7620
Remediation and
Control Branch
John Martin
U.S. Environmental Protection Agency
26 West Martin Luther King Drive
Cincinnati, Ohio 45268
513-569-7758
Fax:513-569-7620
Treatment and
Destruction Branch
Laurel Staley
U.S. Environmental Protection Agency
26 West Martin Luther King Drive
Cincinnati, Ohio 45268
513-569-7863
Fax: 513-569-7105
SITE Management
Support Branch
Patricia Erickson
U.S. Environmental Protection Agency
26 West Martin Luther King Drive
Cincinnati, Ohio 45268
513-569-7884
Fax: 513-569-7676
Page 6
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The purpose of the Monitoring and Measurement Technologies (MMT) Program, is to accelerate the
development, demonstration, and use of innovative monitoring, measurement, and characterization
technologies at Superfund sites. These technologies are used to assess the nature and extent of
contamination and evaluate the progress and effectiveness of remedial actions. The MMT Program places
high priority on technologies that provide cost-effective, faster, and safer methods than conventional
technologies for producing real-time or near-real-time data.
The MMT Program is interested in new or modified technologies that can detect, monitor, and measure
hazardous and toxic substances in the surface (soil and sediment), subsurface (saturated and vadose zones),
air, biological tissues, wastes, and surface waters, as well as technologies that characterize the physical
properties of sites. Technologies of interest include chemical sensors for in situ measurements;
groundwater sampling devices; soil and core sampling devices; soil gas sampling devices; fluid sampling
devices for the vadose zone; in situ and field-portable analytical methods; and other systems that support
field sampling or data acquisition and analysis.
The identification of candidate technologies is ongoing; therefore, technology developers are encouraged
to submit new and updated information at any time. This information is reviewed, cataloged, and
incorporated into a technology matrix, from which EPA makes a preliminary determination of possible
candidates for participation. Developers interested in participating should contact Stephen Billets
at
702-798-2232.
Evaluations or demonstrations have been completed for 38 projects in the MMT Program. These
technologies are presented in alphabetical order in Table 4 and are included in the technology profiles that
follow.
Page 7
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TABLE 1
Completed SITE Monitoring and Measurement Technologies Program Projects as of October 1998
Developer
Analytical and Remedial
Technology, Inc.,
Milpitas, CA
Art's Manufacturing and
Supply,
American Fall?, H>
Bionebraska, Inc.,
Lincoln, ME
Broker Analytical Systems,
Inc., ^
Bllleric8}MA
Clements, Inc.,
Newton, IA
C-THKD Technologies
Corporation (formerly
SCCTEC Corporation)*
KennewiCkrWA
Dexsil Corporation,
Hamden, CT
(Two Demonstrations)
Environmental Technologies
Group, Inc.
Research Triangle Park, NC
Fugro Geosciences, Inc.,
(formerly Loral
Corporation),
Houston, TX
Technology
Automated Sampling
and Analytical Platform
AMS™ Dual.Tube
Line? Soil Sampler
BiMelze® Mercury
Immunoassay
Motile Environmental
Monitor
JMC
Environmentalist's
Subsoil Probe
Metal Analysis Probe
(MAP®) Spectrum \
Assayer
Environmental Test
Kits
AirSentry Fourier
Transform Infrared
Spectrometer ;
Rapid Optical
Screening Tool
Technology
Contact
Gary Hopkins
408-263-8931
Brian Anderson
800-635-7330 .
Craig Schweitzer
800-786-2580
Dr. Brian Abraham
508-667-9580
Jim Clements
515-792-8285
Steve Price
$00-466-5323
Jack Mahon
203-288-3509
Not Available
Andrew Taer
713-778-5580
EPA Project
Manager
Stephen Billets
702-798-2232
Stephen Billets
702-798-2232
Stephen Billets
702-798-2232
Stephen Billets
702-798-2232
Stephen Billets
702-798-2232
Stephen Billets
702-798-2232
Stephen Billets
702-798-2232
William McClenny
919-541-3158
Eric Koglin
702-798-2432
Applicable
Media
Aqueous Samples
Soil
Soil, Sediment
Air Streams,
Water, Soil,
Sludge., Sediment
Soil
Sail, Sediment,
Filter stwJWtpe
Samples
Soil, Sediment,
Transformer Oils
Air Streams
Soil
Applicable Waste
Inorganic
Nonspecific
Inorganics
Not Applicable-
Mercury
Not Applicable:
Metals
Metals
Not Applicable
Nonspecific
Inorganics
Not Applicable
Organic
VOCs, PAHs, lonizable
Organics
VOCs
Not Applicable
VQCs,SVQCs,PCBs,
PAHs
VOCs,PCBs,PAHs,
Pesticides
Not Applicable
PCBs
Nonspecific Organics
Petroleum, PAHs, VOCs
00
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TABLE 1 (Continued)
Completed SITE Monitoring and Measurement Technologies Program Projects as of October 1998
Developer
Geoprobe Systems,
Salina, KS
Geobrobe Systems,
Safins, KS ,
Graseby Ionics, Ltd., and PCP,
Inc.,
Watford, Hertsfordshire,
England/West Palm Beach, FL
(Two Demonstrations)
Hahby Environmental
Laboratory Procedures, Inc.,
Wimberley, TX
Hewlitt-Packard Company
(formerly offered by MTT
Analytical Instruments, Inc.)
Wilmington, DE
HNIT Systems, Inc.,
Newiott, MA
HNU Systems, Inc.,
Newton, MA
Technology
Geoprobe Soil
Conductivity Sensor
Large Bore Sol
Sampler
Ion Mobility
Spectrometry
Test Kits for Organic
Contaminants in. Soil
and Water
Portable Gas
Analyzer/HP Micro GC
BMI Source Excited
Fluorescence Analyaer-
_PQrtabteCSEFA.-P)
X-Kay Fluorescence
Analyzer -
HNUGC311D
Portable Gas
Chromatograoh
Technology
Contact
Colin Christy
Troy Schmidt
785-825-1842
Wesley McCall
Tom Offlli
&QtW36-?762
John Brokenshire
011-44-1923-
816166
Martin Cohen
561-683-0507
-John. Hanky
512-847-1212
Hewlitt-Packard
800-227-9770
Bob Belair
302-633-8487
JaefcDjfiseoH
800-724-6690
617-964-6690
Jack Driscoll
800-724-6690
617-964-6690
1PA Project
Manager
Stephen Billets
702-798-2232
Stephen. Billets
70Z-79B-2232
Eric Koglin
702-798-2432
ErioKogiift
. 702-798-2432
Richard Berkley
919-541-2439
StepheftBilfets
702-79S-2232
Richard Berkley
919-541-2439
Applicable
Media
Soil, Rock,
Hydrogeologic
Fluids
Soil
Air Streams,
Vapor, Soil, Water
Soil, Water -
Soil Gases,
Groundwater, Air
SerJhfe, Liquids,
Slurries, Powders
Air Streams
Applicable Waste
Inorganic
Nonspecific
Inorganics
Metals, Nitrates,
Dioxass, Ftfrans
Not Applicable
Not Applicable
Not Applicable
Metals
Not Applicable
Organic
Nonspecific Organics
Herbicides, Pesticides,
PCBs, SVOCs, Aromatic
andHalogenated VOCs, v
Petroleum Fuels
VOCs
PCP,PAHs,Otael-
Various Orgaycs:
VOCs
NotApplicaSte
VOCs, Aromatic
Compounds,
Halocarbons. PCBs
CO
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TABLE 1 (Continued)
Completed SITE Monitoring and Measurement Technologies Program Projects as of October 1998
Developer
Idetek, Inc. (formerly Binax
Corporation, Antox
Division),
Sunnyvale. CA
MTetQWXrfrc.,
BendjOR
Microscnsor Systems,
Incorporated,
Bowline Green, KY
NITON Corporation,
Bedford, MA
Fhotovac Monitoring
Instruments (formerly
Photovac International, Inc.)
Wilton. CT
Quadrel Services, lac.,
Clarksburg, MD
Radiometer Analytical Group,
;Westlake,OH
Sentex Systems, Inc.,
Ridgefield,NJ
Simulprflfce® Technologies, Ine.
Nbvato,€A
Technology
Equate® Immunoassay
Field Portable X-Ray
Florescence Analyzers
MSI-301AVapor
Monitor
XL Speetnim Analyzer
PE Photovac Voyager
Portable Gas
Chromatograph
Bradflux® Soil-Gas
Survey System
Anodic Stripping
Voltammetry for
Mercury in Soil
Scentograph Plus n
Portable Gas
Chromatograph
Core Barrel Soil
Sampler
Technology
Contact
Richard Lankow
408-752-1353
James Pasmore
800429-5209
541-385-674S
Norman Davis
502-745-0095
Don Sackett
781-275-9275
Kevin Scully
203-761-2867
BrueeTueker
Paul Kenning
3Bi~874.55I&
MarkNighman
800-998-8110,
ext. 213
Amos Linenberg
201-945-3694
Steve Santy
$00-456-5323
509-783-9696
EPA Project
Manager
Jeanette Van Emon
702-798-2154
Stephen BiBels
702-798-2232
Richard Berkley
919-541-2439
Stephen Biflels
702-798*2232
Richard Berkley
919-541-2439
Stephen Billets
702-79S-2232
Stephen Billets
702-798-2232
Richard Berkley
919-541-2439
Stephen Billets
702-798-2232
Applicable
Media
Water
Soil, Water
Air Streams
Soil
Air Streams
Soil, Grtrandwater,
Air
Soil, Sediment
Air Streams
Soil, Sediment,
Filter and Wpe
Samtites.
Applicable Waste
Inorganic
Not Applicable
Metals
Not Applicable
Metals
Not Applicable
Mercury
i
Mercury
Not Applicable
Metals
Organic
Benzene, Toluene,
Xylene
Not Applicable
VOCs
Not Applicable
VOCs
VQes,$V0Cs
Not Applicable
VOCs
Not Applicable
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TABLE 1 (Continued)
Completed SITE Monitoring and Measurement Technologies Program Projects as of October 1998
Developer
Space and Naval Warfare
Systems Center,
Las Vegas, NV
SRI Instruments,
Toriance, CA
Strategic Diagnostics, Inc.,
(formerly EnSys
Environmental Products,
.". Inc.,
Newark, DE '•-
(Two Demonstrations)
Strategic .Diagnostics, Inc.,
(formerly EnviroGard
Corporation),
Bedford, MA
Strategic Diagnostics, Inc.,
- (formerly Ohmicron
Corporation),
Newtown; PA
TNSpectrac* ',
Round Rock, TX
TrirServices,
Aberdeen Proving Ground, MD
XWted States Environmental
pj-ofecfioit Agency,
Washington, D.C.
Technology
SCAPS Cone
Penetrometer
Compact Gas
Chromatograptt
Ensys Penta Test
System
BaviroGard^PCB
Immunoassay Test Kit
•<
RaPID Assay®
tfit 9000 and TNPt?
X~R*y Fluorescence
Analyzers
Site Characterization
and Analysis
Penetrometer System
(SCAPS)
Held Analytical
ScreemttgPrQgrato
PCS Method
Technology
Contact
Stephen Lieberman,
619-553-2778
Douglas Qavilaaes *
310-214-5092
Tim Lawruk
800-544-8881
302-456-6782
Barbara Noting
781-553-6000 ;
Craig Kostyshyn
215-860-5115,
ext.634
Jeter Beny
512-388-9100-
George Robitaille
410-612-6865
John Ballard
601-634-2446
Howard Mwsh
jm-mz-mt
EPA Project
Maaager
Bob Lien,
619-553-2778
Rietwtf Berkley
919-54I443S
Jeanette Van Emon
702-798-2154
Stephen Billets
702-79^-2232
Jeanette Van Emon
" 702-7SS-2154
Jeanette' Van Emon
702-798-2154
StepheaBlttets
702-798-223Z
Stephen Billets
702-798-2232
BrinKoglltt
702-79B-^432
Ajpiplicable
Media
Soil
Air Streams,, Soil,
Water
Soil, Water
Soil, Sediment
Soil, Water
Soil, Sediment.,
Pilfer and Wipe
Samples 1
Soil
SoilWe* •
Applicable Waste
Inorganic
Not Applicable
Not Applicable
Not Applicable
Not Applicable
Not Applicable
Metals, Lead
Not Applicable
Not Applicable
Organic
Petroleum Hydrocarbons
VOCs.BtE&P/CBs.
Pesticides
PCP
PCB
PCP
Not Applicable
Petroleum, PAHs, VOCs
B€Bs
-------�
TABLE 1 (Continued)
Completed SITE Monitoring and Measurement Technologies Program Projects as of October 1998
Developer
United States Environmental
Protection Agency,
Washington, D.C.
W« L Gore and Associates, Inc.
Elkton, MD
XonTech Incorporated,
VanNuys, CA
Technology
Field Analytical
Screening Program PCP
Method
GQRE-SOKBER®
Screening Survey
XonTech Sector
Sampler
Technology
Contact
Larry Jack
702-798-2373
Ray Fenstermacher
41G-506-478&
Matt Yoong
818-787-7380
EPA Project
Manager
Jeanette Van Emon
702-798-2154
Stephen. Billets
702-798-2232
Joachim Pleil
919-541-4680
Applicable
Media
Soil, Water
Soil Vapor
Air Streams
Applicable Waste
Inorganic
Not Applicable
Not Applicable
Not Applicable
Organic
PCPs
VQCs,SVOCs,PAHs
Balogenated. solvents,
Aliiphaties,Aroinalics,
VOCs
-------�
Page Intentionally Left Blank
Page 13
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
ANALYTICAL AND REMEDIAL
TECHNOLOGY, INC.
(Automated Sampling and Analytical Platform)
TECHNOLOGY DESCRIPTION:
Analytical and Remedial Technology, Inc.
(A*RT), produces components that can be
assembled in various configurations to allow
automated sampling and analysis of water
streams. The A*RT components are mounted in
a custom case to produce an automated sampling
and analytical platform (ASAP). A complete
ASAP system consists of the following basic
components:
• An ASAP sampling manifold module
with internal pump
• An optional module to allow the ASAP
to control up to 48 Grundfos 2-inch
submersible pumps
Sampling and Analytical Platform
• One or more ASAP sample preparation
modules
• One or more third-party gas or liquid
chromatographs with appropriate
detectors
• One or more third-party integrators for
processing raw data and producing
hard copies of chromatograms
• A Windows 3.X-compatible
microcomputer running A+RT
software to control the system, store
results in a database, and provide
telecommunication capabilities
The photograph below illustrates an ASAP
configured for automated sampling of 29 points
using 0.25-inch stainless steel tubing. The A+RT
purge-and-trap concentrator draws a precise
volume of water (selectable from 0.2 to
10 milliliters) from the selected sample stream
and prepares it for volatile organic compound
(VOC) analysis using a gas chromatograph. The
A+RT concentrator differs from the customary
batch purging approach in that it uses a
flow-through, countercurrent stripping cell.
The A+RT high performance liquid
chromatograph (HPLC) sample preparation
module collects a sample in a fixed volume loop
and delivers it to the HPLC. With additional
components, the module can support a second
channel for HPLC analysis along with either
automated or manual sample selection. The
module can also be configured to process the
samples using solid-phase extraction. This
process concentrates analytes, which are then
backflushed with solvent and extracted for
subsequent HPLC analysis.
An optional Grundfos pump interface module
(GPIM) allows the ASAP, for a given sample, to
select and operate one of up to 48 Grundfos
RediFlo-2™ 2-inch submersible pumps connected
to the ASAP. Thus, this module allows
automatic sampling of groundwater for
groundwater depths greater than 15 to 20 feet
Page 14
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
below surface. Control of up to 48 pumps
requires only one Grundfos MP1 controller
interfaced with the GPIM.
The A+RT components and software are
designed to allow continuous (24-hour)
monitoring for long periods of time (months to
years) with automated continuing calibration
checks and recalibration when necessary. The
ASAP is designed to be installed with the other
system components permanently or
semipermanently in a secure,
temperature-controlled space on site.
WASTE APPLICABILITY:
The ASAP is designed for automated sampling
and analysis of aqueous samples, such as those
obtained from a treatment or process stream or
from wells emplaced in a groundwater
contaminant plume. The ASAP can be
configured for a wide variety of contaminants,
including VOCs, polynuclear aromatic
hydrocarbons, ionizable organic chemicals, and
a range of inorganic substances.
STATUS:
Several commercial ASAP systems have been
purchased by universities for use in groundwater
remediation research at U.S. Department of
Defense facilities. The ASAP has considerably
broader capabilities than the prototype system
(the Automated Volatile Organics Analytical
System, or AVOAS) evaluated under the SITE
Program. The AVOAS was demonstrated in
May 1991 at the Wells G and H Superfund site in
EPA Region 1. The results of the demonstration
have been published by EPA ("Automated
On-Site Measurement of Volatile Organics in
Water, EPA/600/R-93/109, June 1993").
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax:702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Gary Hopkins ,
Analytical and Remedial Technology, Inc.
473 Gemma Drive
Milpitas, CA 95035
Telephone No.: 408-263-8931 ,
Fax: 408-263-8931 . ' "•
The SITE Program assesses but does' not
approve or endorse technologies.
Page 15
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
ART'S MANUFACTURING AND SUPPLY
(AMS™ Dual-Tube Liner Soil Sampler)
TECHNOLOGY DESCRIPTION:
The Art's Manufacturing and Supply (AMS™)
dual tube soil sampler, shown in the figure below,
is designed to work with direct-push sampling
rigs. The sampler consists of two steel tubes of
differing diameters designed so that the two tubes
fit within one another. The outer tube is equipped
with a metal drive tip at the lower end and
threaded at the upper end to allow additional metal
extensions with increasing sampling depth and the
addition of a drive head adaptor. The lower end
of the inner tube is threaded with a plastic grabber
to allow attachment of a polybutyrate liner during
sampling or a solid-point metal inner drive tip
during sampler advancement. The inner drive tip
fits snugly within the outer drive tip, and both
extensions and drive tips are held firmly in place
by the drive head. Dual tube sampler extensions
are available in 1-, 2-, 3-, and 4-foot lengths with
wall thicknesses of 0.25 or 0.375 inch. The
outer extension serves as a temporary casing so
that continuous or discrete soil samples can be
collected using the inner extension liner and drive
tip assembly. The inner extension by itself can
also be used for sampling.
1I/S"
LINER SAMPLER
THREAD PROTECTOR
I Iffl" EXTENSION
LINER
2' x I 1/2"
4' x 1 1/2"
Dual-Tube Liner Soil Sampler
Page 16
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
The direct-push drill rig used to mount the dual
tube liner sampler must be a 0.75-ton or heavier
pickup truck supplied by the buyer or a custom-
made truck assembled by AMS.
The dual tube liner sampler decreases the
likelihood of cross-contamination, preserves
sample integrity, collects samples chemically
representative of the target sampling interval, can
collect either discrete or continuous soil samples
of unconsolidated materials, and does not
generate drill cuttings.
WASTE APPLICABILITY:
The AMS™ dual tube liner sampler can be used
to collect unconsolidated, subsurface soil samples
at depths that depend on the capability of the
direct-push advancement platform. The sampler
has been used to collect samples of sandy and
clayey soil contaminated with high concentrations
of volatile organic compounds (VOC). It can
also be used to collect samples for semivolatile
organic compound, metals, general minerals, and
pesticides analyses.
STATUS:
The AMS™ dual tube soil sampler was
demonstrated under the Superfund Innovative
Technology Evaluation (SITE) program in May
and June 1997 at two sites: the Small Business
Administration (SBA) site in Albert City, Iowa,
and the Chemical Sales Company (CSC) site in
Denver, Colorado. Samples collected during the
demonstrations were analyzed for VOCs to
evaluate the performance of the samplers.
Demonstration results indicate that the dual tube
liner sampler had higher sample recoveries in the
clayey soil present at the SBA site than the
standard methods. Conversely, the sampler had
lower recoveries than the standard methods in
the sandy soil present at the CSC site. VOC
concentrations .in samples collected with the dual
tube liner sampler did not significantly differ
statistically from concentrations in samples
collected using the standard methods. Sample
integrity using the dual tube liner sampler was
preserved in highly contaminated soil. The
sampler's reliability and throughput Nwere
generally as good as those of the standard
methods. Costs for the dual tube liner sampler
were lower than costs related to the standard
sampling methods. According to the developer,
all sampler decontamination was done using the
on-board wash station on the AMS direct push
platform (the AMS Powerprobe 9600). This
significantly reduced the overall time to sample
and decontaminate its equipment.
Demonstration results are documented in the
"Environmental Technology Verification" report
for the sampler dated August 1998 (EPA/600/R-
98/093).
Organics were the primary groundwater
contaminant at the site, and trichloroethene
(TCE) was selected as the contaminant of
concern for the demonstration. The
Demonstration Bulletin (EPA/540/MR-95/511)
and Demonstration Capsule (EPA/540/R-95/511a) are
available from EPA.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702)798-2232
Fax No.: (702) 798-2261
E-mail: billets.stephen@epamail.epa.gov
TECHNOLOGY DEVELOPER CONTACT:
Brian Anderson
Art's Manufacturing and Supply
105 Harrison Street
American Falls, ID 83211 .
Telephone No.: (800) 635-7330
Fax No.: (208) 226-7280
E-Mail Address: brian@bankipds.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 17
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
BIONEBRASKA, INC.
(BiMelyze5 Mercury Immunoassay)
TECHNOLOGY DESCRIPTION:
The BioNebraska, Inc., BiMelyze® Mercury
Immunoassay technology measures mercury
concentrations in solid matrix samples. The
field-portable immunoassay technology
provides semiquantitative results based on the
activity of mercury-specific monoclonal
antibodies. The technology consists of two
kits: an extraction kit and an assay tube kit.
The kits together can process 16 samples.
The solid matrix samples are first extracted
using a 2:1:1 mixture of hydrochloric acid,
nitric acid, and deionized water. A buffer
solution provided in the extraction kit is then
added to the sample pH to 6 to 8, and the
samples are filtered.
The extracted and filtered samples are then
transferred to mercury assay tubes supplied in
the assay tube kit. These tubes are coated
with sulfhydryl-rich proteins that trap the
mercury ions. After the addition of kit-
supplied antibodies, conjugate, and substrate,
the presence of mercury ' can be
semiquantitatively determined by comparing
the color of the sample tubes to the color of
tubes of the mercury standards supplied in the
kit. The standards are determined, within
limits, by the customer. The limit of detection
is 0.5 parts per million (ppm) and the analytical
range is 0.5 to 40 ppm. The absorbance of the
sample tubes can be measured using a
spectrophotometer.The BiMelyze® Mercury
Immunoassay technology has been used to
analyze soil and sediment samples containing
mercury. The technology works best on fine-
grained material because of the larger surface-
to-volume ratio. The effect of moisture content
on the technology's applicability is unknown.
The technology can provide semiquantitative or
sample screening information and has been
found to have a good potential as a Level I
analytical method.
STATUS:
The BiMelyze® Mercury Immunoassay
technology was accepted into the Superfund
Innovative Technology Evaluation (SITE)
program in 1994 and was demonstrated in
August 1995 at two sites: the Carson River
Mercury (CRM) site in Reno, Nevada, and the
Sulfur
Bank Mercury Mine (SBMM) site in Clear
Lake, California. Samples collected during the
demonstrations were split for analysis in the
field using the BiMelyze® Mercury
Immunoassay technology and for later
confirmatory analysis using standard
inductively coupled plasma (ICP) mass
spectrometry (MS). A total of 110 soil and
sediment samples were collected from the
CRM and SBMM sites (55 samples from each
site) and split. The demonstration results
indicate that the BiMelyze" Mercury
Immunoassay technology agreed with ICP MS
results for 66 percent of the samples analyzed.
Demonstration results are documented in the
"Innovative Technology Evaluation Report"
from J.uly 1998.
Page 18
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702) 798-2232
Fax No.: (702)798-2261
E-mail: billets.stephen@epamail.epa.gov
TECHNOLOGY DEVELOPER
CONTACT:
Craig Schweitzer
BioNebraska, Inc.
3820 N. W. 46th Street
Lincoln, NE 68524
Telephone No.: (800) 786-2580
Fax No. (402) 470-2345
The SITE Program assesses but does not
approve or endorse technologies.
Page 19
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
BRUKER ANALYTICAL SYSTEMS, INC.
(Mobile Environmental Monitor)
TECHNOLOGY DESCRIPTION:
The Bruker Analytical Systems, Inc. (Bruker),
mobile environmental monitor (see photograph
below) is a field-transportable, gas
cliromatography/mass spectrometer (GC/MS)
designed to identify and measure organic
pollutants in various environmental media. The
MS uses a quadruple mass analyzer similar to
most conventional instruments. Like
conventional MSs, this instrument can identify
and quantify organic compounds on the basis of
their retention time, molecular weight, and
characteristic fragment pattern. The integrated
GC allows introduction of complex extracts for
separation into individual components and
subsequent analysis in the MS.
The Bruker instrument's design and electronics
are specially designed for field use. The
instrument is designed to operate with battery
power and can be used in various environmental
situations with minimum support requirements.
The mobile environmental monitor was originally
designed for the military to detect and monitor
chemical warfare agents. Environmental samples
may be introduced to the MS through the direct
air sampler or the GC. Results are collected and
stored in a computer, where data is reduced and
analyzed. The computer provides reports within
minutes of final data acquisition.
WASTE APPLICABILITY:
The Bruker mobile environmental monitor is
designed to detect the full range of volatile and
semivolatile organic compounds directly in air
and in water, soil, sediment, sludge, and
hazardous waste extracts. It provides in-field,
real-time support during the characterization and
Bruker Mobile Environmental Laboratory
Page 20
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
remediation phases of cleanup at a hazardous
waste site.
STATUS:
This technology was demonstrated at the Re-
Solve, Inc., and Westborough Superfund sites in
EPA Region 1. The technology was used to
analyze polychlorinated biphenyls and
polynuclear aromatics in soil and the full range of
Superfund-targeted volatile organic compounds in
water. Splits of all samples analyzed in the field
were shipped to a laboratory for confirmatory
analysis using standard EPA analytical methods.
The SITE demonstration was completed in
September 1990, and the final report
(EPA/600/X-91/079) is available from EPA.
The results of this study were presented at the
American Society for Mass Spectrometry
Conference in May 1991 and at the Superfund
Hazardous Waste Conference in July 1991. A
recent survey of regional laboratories identified
additional testing of this technology as a priority
need.
Bruker has developed an additional system that
addresses recommendations made in the project
report. This system, designated the EM640, has
increased mass range, decreased power
consumption, faster sample analysis, and
automated report generation. The EM640 was
evaluated hi July and September 1995 through
the U.S. EPA Environmental Technology
Verification Program (ETV). The evaluation
showed that the EM640 provides "useful, cost-
effective data for environmental problem-solving
and decision-making." The Environmental
Monitoring Systems Laboratory-Las Vegas
purchased a Bruker mobile environmental
monitor in fiscal year 1992 to pursue other
applications and to expand the scope of this
project.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGERS:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Dr. Brian Abraham
Bruker Analytical Systems, Inc.
5303 Emerald Drive
Sykesville, MD 21784
Telephone No.: 508-667-9580
Fax: 508-667-5993
The SITE Program assesses but does not
approve or endorse technologies.
Page 21
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Technology Profile
CLEMENTS, INC.
(JMC Environmentalist's Subsoil Probe)
TECHNOLOGY DESCRIPTION:
JMC Environmentalist's Subsoil Probe (ESP)
developed by Clements Associates, Inc., consists
of a sampling tube assembly, the ESP body, and
a jack used to assist in sample retrieval (see
figure below). The sampler can be advanced
using manual or direct-push methods. The
primary component of the ESP body is a heat-
treated, 4130 alloy steel, nickel-plated sampling
tube. The tube has a uniform 1.125-inch outer
diameter and is 36 inches long. The ESP tube
comes with three interchangeable stainless-steel
tips (a solid drive point, a standard cutting tip,
and a wet cutting tip) and inner sample liners that
can also be used for sample storage.
The ESP body serves as a base and guide for the
sampling tube as it is driven into or retrieved
from a borehole. The jack used to retrieve the
sample also allows operators to smoothly lower
the sampler and tool string into the borehole at a
controlled rate, thereby minimizing borehole
disturbance.
According to the developer, the ESP sampler is
simple to operate and requires no special training
to use, is unaffected by variable field conditions,
can collect either discrete or continuous soil
samples of unconsolidated materials, can be used
to characterize subsurface soil contamination, is
easily transportable, and does not generate drill
cuttings.
JACK FULCRUM
GROUNDPAD
SAMPLING TUBE
Clements' ESP
Page 22
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
WASTE APPLICABILITY:
The ESP sampler can be used to collect
unconsolidated, subsurface soil samples at depths
of 4 feet below ground surface (bgs); however,
through the use of extensions, samples from
depths of up to 25 feet bgs can be collected.
Physical limitations of ESP sampler operation
depend on the method of sampler advancement
and the nature of the subsurface matrix. The
technology is primarily restricted to
unconsolidated soil free of large cobbles or
boulders. The sampler can also be used in
sediment containing gravel-sized material
supported by a finer-grained matrix. Originally,
the sampler was designed for sampling
agricultural residues containing radioactive trace
elements. The sampler has been used to collect
samples of sandy and clayey soil contaminated
with high concentrations of volatile organic
compounds (VOC). The sampler can also collect
samples for polychlorinated biphenyl,
polynuclear aromatic hydrocarbon, pesticides,
and metals analyses. The ESP sampler was
accepted into the Superfund Innovative
Technology Evaluation (SITE) program hi May
1997 and was demonstrated in May and June
1997 at two sites: the Small Business
Administration (SBA) site in Albert City, Iowa,
and the Chemical Sales Company (CSC) site in
Denver, Colorado. Samples collected during the
demonstrations were analyzed for VOCs to
evaluate the performance of the samplers.
Demonstration results indicate that the ESP
sampler had higher sample recoveries in both the
clayey soil present at the SBA site and in the
sandy soil present at the CSC site than the
standard methods. VOC concentrations in
samples collected with the ESP sampler from the
SBA site significantly differed statistically from
concentrations in samples collected using the
standard methods; however, this difference was
not observed for samples collected from the CSC
site. Sample integrity using the ESP sampler was
preserved in highly contaminated soil. The
sampler's reliability and throughput were
generally better than those of the standard
methods. Costs for the ESP sampler were much
lower than costs related to the standard sampling
methods.
Demonstration results are documented in the
"Environmental Technology Verification" report
for the sampler dated August 1998 (EPA/600/R-
98/091).
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen: Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702)798-2232
Fax No.: (702) 798-2261
E-mail: billets. stephen@epamail. epa. gov
TECHNOLOGY DEVELOPER CONTACT:
Jim Clements
Clements Associates Inc.
1992 Hunter Avenue
Newton, IA 50208
Telephone No.: (515) 792-8285
Fax No.: (515)792-1361
E-Mail Address: jmcsoil@netms.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 23
-------�
Technology Profile
C-THRU TECHNOLOGIES CORPORATION
(Formerly SCITEC CORPORATION)
(Metal Analysis Probe [MAP®] Spectrum Assayer)
TECHNOLOGY DESCRIPTION:
The C-Thru Technologies Corporation (C-Thru)
Metal Analysis Probe Spectrum Assayer (see
photograph below) is a field portable X-ray
fluorescence (FPXRF) analyzer. This FPXRF
analyzer can simultaneously analyze for select
metals. It is compact, lightweight, and does not
require liquid nitrogen. A rechargeable battery
allows the FPXRF analyzer to be used at remote
sites where electricity is unavailable.
The instrument is composed of a control console
connected to an ambient scanner with a cable.
The basic MAP® system also includes a carry
pack, rechargeable batteries, operator's manual,
target metal standard, and a shipping case. The
control console contains a 256-multichannel
analyzer with a storage capacity of 325 spectra
and analyses. The control console with batteries
weighs 11 pounds and the ambient scanner
weighs about 2.5 pounds.
The MAP® Spectrum Assayer uses a silicon
X-ray detector to provide elemental resolution.
The unit demonstrated under the SITE Program
used a Cadmium-109 radioisotope as the
excitation source. Cobalt-57 and Americium-241
sources are also available.
The MAP® Spectrum Assayer is capable of
analyzing 9 to 12 samples per hour based on a
240-second analysis time. The instrument is
empirically calibrated by the developer. C-Thru
requires a 1-day operator training and radiation
safety course prior to obtaining a specific license
to operate the instrument. The standard
MAP® 3 Portable Assayer package used in the
demonstration sold for $32,000.
The MAP® Spectrum Assayer provides high
sample throughput and is reportedly easy to
operate. Analytical results obtained by this
instrument may be comparable to the results
obtained by EPA-approved methods.
MAP® Assayer
Page 24
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
WASTE APPLICABILITY:
The MAP® Spectrum Assayer can detect select
metals in soil and sediment samples and in filter
and wipe samples. It can also detect lead in
paint. The MAP® Portable Assayer reportedly
can quantitate metals at concentrations ranging
from parts per million to percentage levels.
STATUS:
The MAP® Spectrum Assayer has been used at a
number of Superfund sites across the country. It
was evaluated in April 1995 as part of a SITE
demonstration of FPXRF instruments. The results
are summarized in Technical Report No.
EPA/600/R-97/147, dated March 1998. The
instrument was used to identify and quantify
concentrations of metals in soils. Evaluation of
the results yielded field-based method detection
limits, accuracy, and precision data from the
analysis of standard reference materials and
performance evaluation samples.
Comparability of the FPXRF results to an EPA-
approved reference analytical method was also
assessed during the demonstration. The Draft
Fourth Update to SW-846 includes Method 6200,
dated January 1998, which is based on this work.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
E-mail: billets.stephen@epamail.epa.gov
TECHNOLOGY DEVELOPER CONTACT:
Steve Price
C-Thru Technologies Corporation
415 North Quay
Kennewick, WA 99336
800-466-5323
509-783-9850
Fax: 509-735-9696
The SITE Program assesses but does not
approve or endorse technologies.
Page 25
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
DEXSIL CORPORATION
(Environmental Test Kits)
TECHNOLOGY DESCRIPTION:
The DEXSIL Corporation (Dexsil) produces two
test kits that detect polychlormated biphenyls
(PCB) in soil: the Dexsil Clor-N-Soil PCB
Screening Kit, and the Dexsil L2000 PCB/
Chloride Analyzer. The Dexsil Clor-N-Soil PCB
Screening Kit, (see photograph below) extracts
PCBs from soil and dissociates the PCBs with a
sodium reagent, freeing chloride ions. These
ions then react with mercuric ions to form
mercuric chloride. The extract is then treated
with diphenylcarbazone, which reacts with free
mercuric ions to form a purple color. The less
purple the color, the greater the concentration of
PCBs in the sample.
The Dexsil L2000 PCB/Chloride Analyzer (see
photograph on next page) also extracts PCBs
from soil and dissociates the PCBs with a sodium
reagent, freeing chloride ions. The extract is
then analyzed with a calibrated, chloride-specific
electrode. The L2000 instrument then translates
the output from the electrode into parts per
million (ppm) PCB.
These kits produce analytical results at different
data quality levels. The Dexsil Clor-N-Soil PCB
Screening Kit identifies samples above or below
a single concentration, which is generally tied to
regulatory action levels. The Dexsil L2000 PCB/
Chloride Analyzer quantifies specific
concentrations of PCBs, from 2 to 2,000 ppm, in
a sample. The applicability of these methods
depends on the data quality needs of a specific
project. Both technologies can be used on site
for site characterization or a removal action.
Dexsil Clor-N-Soil PCB Screening Kit
Page 26
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
WASTE APPLICABILITY:
The Dexsil Clor-N-Soil PCB Screening Kit and
the Dexsil L2000 PCB/Chloride Analyzer can
detect PCBs in soil, sediment, transformer oils,
and water.
STATUS:
These test kits were demonstrated at a PCB-
contaminated facility in EPA Region 7. About
200 soil samples were collected and analyzed on
site using the Dexsil test kits. Soil samples were
not dried prior to analysis. Split samples were
submitted to an off-site laboratory for
confirmatory analysis by SW-846 Method 8080.
Demonstration data were used to evaluate the
accuracy and precision of the test kits relative to
internal quality control samples and to formal
laboratory data. These data were also used to
determine operating costs.
The sampling and field analyses for this
technology demonstration were completed in
August 1992. The Innovative Technology
Evaluation Report (EPA/540/R-95/518) is
available from EPA. The Office of Solid Waste
has designated, the L2000 Method for PCB
screening of soil as Method 9078, to be included
in the third update to the third edition of SW-846.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-789-2232
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Jack Mahon
Dexsil Corporation
One Hamden Park Drive
Harnden, CT 06517
203-288-3509
Fax: 203-248-6235
E-mail: dexsil@aol.com /
Web Page: http:\\www.dexsil.c6m
Dexsil L2000 PCB/Chloride Analyzer
The SITE Program assesses but does hot
approve or endorse technologies.
Page 27
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Technology Profile
ENVIRONMENTAL TECHNOLOGIES GROUP, INC.
(AirSentry Fourier Transform Infrared Spectrometer)
TECHNOLOGY DESCRIPTION:
This air monitoring system (see photograph
below) is a field-deployable, open-path Fourier
transform infrared (FTIR) spectrometer that
measures infrared absorption by infrared-active
molecules. The spectrometer system transmits an
infrared beam along an open air path to a
retroflector target that returns it to the
spectrometer. The total air path can be up to
1 kilometer long. Analysis4s performed using a
quantitative reference spectrum of known
concentration, together with classical least
squares data fitting software routines. The
system does not require acquisition of an air
sample; this factor assures that sample integrity
is not compromised by interaction between the
sample and the collection and storage system.
A measurement over several hundred meters
requires only a few minutes, which allows
determination of temporal profiles for pollutant
gas concentrations. The spectrometer requires
performance verification procedures, but does
not require calibration.
WASTE APPLICABILITY:
The AirSentry FTIR spectrometer can collect
information on spectral absorption from a
number of airborne vapors at one time, including
both organic and inorganic compounds. This
AirSentry Fourier Transform Infrared Spectrometer
Page 28
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
information is processed to obtain the average
concentration over the entire pathlength. The
system has been used to monitor fugitive
emissions from industrial plants and from
hazardous waste sites. By combining these
measurements with measurements of wind speed,
emission rates can be estimated. It can be used
to monitor emissions from hazardous waste sites
during remediation and removal.
STATUS:
The AirSentry FTIR spectrometer was
demonstrated during a 1990 SITE study at
Shaver's Farm, a Superfund site in northwest
Georgia. The purpose of this demonstration was
to test performance during remedial activities and
to develop and test on-site quality assurance
procedures. Results of this study were published
in a paper titled "Use of a Fourier Transform
Spectrometer As a Remote Sensor at Superfund
Sites: Proceedings of the International Society for
Optical Engineering" --SPIE Vol. 1433, p. 302,
Measurement of Atmospheric Gases, Los
Angeles, CA, 21-23 January 1991, presented at
a 1991 conference.
The AirSentry FTIR spectrometer has bee.n
evaluated in several other field studies and has
been proven capable of detecting various
airborne atmospheric vapors. The AirSentry
FTIR gas analysis software, which automatically
identifies and quantifies compounds in the
presence of background interferences, was
evaluated in a 1991 field study sponsored by
EPA Region 7. Results of this field evaluation
are published in an EPA report entitled "A Field-
Based Intercomparison of the Qualitative and
Quantitative Performance of Multiple Open-Path
FTIR Systems for Measurement of Selected
Toxic Air Pollutants."
Another field evaluation of the AirSentry FTIR
spectrometer was conducted at a Superfund site
in January 1992. During the field evaluation, the
FTIR spectrometer was compared with gas
chromatography/mass spectrometry techniques
using air samples collected in canisters. Results
from this field evaluation are published in an
EPA report titled "Superfund Innovative
Technology Evaluation, The Delaware SITE
Study, 1992" (EPA/600/A3-91/071).
A guidance document detailing the steps required
for successful field operation of the FTIR-based
open path monitoring systems is available from
EPA and is referred to as Method TO-16 in the
"EPA Compendium of Methods for
Determination of Toxic Organic Compounds in
the Ambient Air". For a copy of the draft
document, contact the EPA Project Manager
listed below.
This . technology remains available from the
Environmental Technologies Group, Inc. as well
as other commercial companies. For further
information about the technologoy, contact the
EPA, contact the EPA Project Manager.
FOR FURTHER INFORMATION:
- t v
EPA PROJECT MANAGER:
William McClenny
U.S. Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-3158
Fax: 919-541-3527
The SITE Program assesses but does not
approve or endorse technologies.
Page 29
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
FUGRO GEOSCIENCES, INC.
(formerly LORAL CORPORATION)
(Rapid Optical Screening Tool)
TECHNOLOGY DESCRIPTION:
The Fugro Rapid Optical Screening Tool (ROST ™),
shown in the figure below, is an insitu screening
sensor used in conjunction with Cone opentration
Testing (CPT) systems that provides rapid
delineation of petroleum hydrocarbons (PHC).
ROST ™ characterizes the PHCs from the
fluorescence response induced in the polycyclic
aromatic hydrocarbon (PAH) compounds
contained within the contaminant material.
ROST ™ continuously detects separate phase
PHCs in the bulk soil matrix in the vadose,
capillary fringe, and saturated zones and provides
a screening of the relative concentration present.
ROST ™ also presents the spectral signature of
the detected PHC, which often allows
identification of the contaminant type (such as
gas, diesel, coal tar.creosote, etc.). CPT testing
CPT testing is conducted simultaneously with
ROST ™ testing and provides real-time, in situ
lithologic data. Fugro can also deploy ROST ™
from percussion-type Direct Push Technology
equipment.
The measurements are performed in situ and
physical sampling during the delineation phase is
not required. However, since ROST ™ is a
screening tool, a limited amount of confirmation
soil sampling is recommended. The list of
petroleum products for which this method is
appropriate includes, but is not limited to:
gasoline, diesel fuel, crude oil, jet fuel, heating
oil, coal tar, kerosene, lubricating oils, and
creosote.
Rapid Optical Screening Tool
Page 30
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
The ROST ™ methodology utilizes laser-induced
fluorescence spectroscopy for PHC screening.
Pulsed laser light is used to excite PAHs and is
delivered via a fiber optic cable to a sub-unit
mounted directly behind the CPT penetrometer
probe (cone). The light is directed through a
sapphire window on the side of the sub-unit and
onto the surface of the soil. PAHs present within
the soil absorb the excitation light and emit the
absorbed energy as fluorescence. A portion of
this fluorescence is returned by a collection fiber
to the surface and is analyzed by the ROST ™
unit. ROST ™ measures and reports the
following three fluorescence parameters in real
time:
• Intensity of the fluorescence emitted by the
PHC.
• Spectrum of wavelengths of light emitted by
the PHC.
• Lifetime of duration of the fluorescence
emitted by the PHC.
The fluorescence intensity is generally
proportional to concentration and identifies the
relative PHC concentration present. The
fluorescence intensity is plotted continuously with.
depth on a computer monitor in the CPT rig as
testing proceeds and allows immediate
identification of affected soils. The spectral and
temporal data are also presented on the computer
monitor in real-time and comprise the spectral
signature of the contaminant which often allows
identification of product type. A log of the
fluorescence intensity with depth and contaminant
signatures is plotted on a printer in the CPT rig
immediately following each test.
WASTE APPLICABILITY:
The Fugro ROST ™ system is designed to
qualitatively detect contaminant materials
containing PAH constituents, including, but not
limited to gasoline, diesel fuel, crude oil, jet fuel,
heating oil, coal tar, kerosene, lubricating oils,
. and. creosote. .
STATUS:
ROST ™ has been commercially available since
September 1994 and was evaluated under the
U.S. EPA's Environmental Technology
Verification (ETV) program. The final report
(EPA/600/R-97/020), dated February 1997 is
available .from EPA or may be downloaded from
the EPA's web site (http://du-
in.com/csct/verstate.htrri).
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Eric Koglin
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478 .
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2432
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Andrew Taer
Fugro Geosciences, Inc.
6105Rookin
Houston, TX 77042
Telephone No.: 713-778-5580
Fax: 713-778-5501 ••'/"•.'
E-mail: ataer@fugro.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 31
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
GEOPROBE SYSTEMS
(Large Bore Soil Sampler)
TECHNOLOGY DESCRIPTION:
The Large Bore Soil Sampler is a single tube-
type, solid barrel, closed-piston sampler (see
figure below). It is designed to be driven by the
Geoprobe percussion probing machine to collect
discrete interval soil samples but can be used for
continuous coring if needed. This direct push
type sampler is for use in unconsolidated soils.
It is capable of recovering a soil core 22 inches
long by 1-1/16 inches in diameter (320 millilter
(mL) volume). A liner is inserted inside the
sampler body to retain the sample after collection
and to facilitate removal from the sampler body.
Liner materials are available in brass, stainless
steel, teflon, and clear plastic (cellulose acetate
butyrate).
WASTE APPLICABILITY?
The Large Bore Soil Sampler can be used to
collect soil samples for both organic and
inorganic analytes when appropriate liner
materials are used. The sampler has been used
to collect samples to be analyzed for herbicides,
pesticides, polychlorinated biphenyls (PCBs),
semivolatile organic compounds, aromatic and
halogenated volatile organic compounds (VOCs),
petroleum fuels, metals, nitrates, dioxins and
furans.
STATUS:
Geoprobe's Large Bore Soil Sampler was
demonstrated under the SITE program during the
A.
D
B.
0-
feL
C.
D.
A. Driving the sealed Sampler
B. Removing the stop pin
C. Collecting a sample
D. Recovering the sample liner
Page 32
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
early summer of 1997. The demonstration
results indicate that the Large-Bore Soil Sampler
can provide useful, cost-effective samples for
environmental problem solving. However, in
some cases, VOC data collected using the Large
Bore Soil Sampler may be statistically different
from VOC data collected using the reference
sampling method. Also, the integrity of a lined
sample chamber may not be preserved when the
sampler is advanced through highly
contaminatedzones in clay soils. Demonstration
results are documented in the "Environmental
Technology Verification" report for the sampler
dated August 1998 (EPA/600/R-98/092).
There are several hundred Geoprobe
owner/operators who use the Large Bore Soil
Sampler for geo-environmental investigations.
This soil sampler has been used in all 50 states
and several foreign countries to complete
thousands of projects. It is used primarily for
geo-environmental investigations to define soil
types and delineate contaminant distribution. The
Large Bore Soil Sampler is available in stock
from Geoprobe Systems. Geoprobe has
developed other soil and groundwater sampling
tools that are also widely used in the geo-
environmental field.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702)798-2232
Fax No.: (702)798-2261
E-mail: billets. stephen@epamail. epa. gov
TECHNOLOGY DEVELOPER CONTACT:
Wesley McCall, Geologist
or Tom Omli, Technical Services
Geoprobe Systems
601 North Broadway
Sallna, KS 67401
Telephone No.: (800)436-7762
Fax No.: (785)825-2097
E-mail: geoprobe@midusa.net
Internet: www.geoprobesystems.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 33
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
GEOPROBE SYSTEMS
(Geoprobe Soil Conductivity Sensor)
TECHNOLOGY DESCRIPTION:
The Geoprobe soil conductivity sensor, shown in
the figure below, identifies lithology and
potential contamination by measuring the
electrical conductivity of soil and hydrogeologic
fluids. Soils vary in their electrical conductivity
depending on particle size; for example, clays
and silts generally have high conductivities, while
sand and gravels exhibit low conductivities.
Overall, soil and rock are resistant to current.
Pore fluids and the amount of dissolved solids in
these fluids also influence soil conductivity.
The Geoprobe conductivity sensor uses an
isolated array of sensing rings to measure this
conductivity. The sensor is principally designed
to help determine subsurface stratigraphy. The
sensor may also help characterize subsurface
contamination, especially where high
conductivity leachates or brines are involved.
The principal components of the complete
Geoprobe system are as follows:
• A Geoprobe hydraulic soil probing
machine
• Standard sampling rods supplied with the
system
• A cable, threaded through the sampling
rod that introduces the current
• The conductivity sensor
• A data receiver connected to a personal
computer to record the sensor's
measurements
The hydraulic probing machine uses a
combination of pushing and hammering to
advance 3-foot-long segments of 2.54-centimeter-
diameter hollow steel sampling rods. The
conductivity sensor is attached to the lead section
of the sampling rod.
Stringpot
Measures
Depth
Percussion
Probing
Machine
Data Acquisition System
with Real-Time Display of
Conductivity Versus Depth
Rack System for
Probe Rod With
Continuous Cable
Sensing Probe
Measures
Conductivity
Schematic Diagram of the Geoprobe Soil Conductivity Sensor
Page 34
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
The conductivity sensor consists of four stainless-
steel contact rings, fitted around a central steel
shaft. Plastic electronically isolates the contact
rings from the steel shaft. A hollow steel rod
extends above the uppermost stainless steel ring,
housing a shielded signal cable that connects the
contact rings with.an external power source,
measurement system, and data logging system.
The soil conductivity sensor can be used in a
dipole array or a Schlumberger array. The
dipole array is used when greater resolution is
required. The Schlumberger array is generally
used when optimal soil-to-probe contact cannot
be maintained.
WASTE APPLICABILITY:
The Geoprobe conductivity sensor is designed to
determine subsurface stratigraphy. Only highly
conductive contaminants such as oil field brine
can be directly measured by the sensor.
STATUS:
The Geoprobe conductivity sensor field
demonstration was conducted in September 1994.
The report is available.
Improvements to the unit include the availability
of stronger 1.25-inch diameter probe rods, more
durable probes, dipole-type probes used for
dipole measurements, and expendable probes for
use when grouting is required.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Steve Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACTS:
Colin Christy
Troy Schmidt
Geoprobe Systems
601 North Broadway Boulevard
Salina, KS 67401
Telephone No.: 785-825-1842
Fax: 785-825-2097
The SITE Program assesses but does not
approve or endorse technologies.
Page 35
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Technology Profile
MONITORING AND MEASUREMENTS,
TECHNOLOGIES PROGRAM
GRASEBY IONICS, LTD., and PCP, INC.
(Ion Mobility Spectrometry)
TECHNOLOGY DESCRIPTION:
Ion mobility spectrometry (IMS) is a technique
used to detect and characterize organic vapors in
air. IMS involves the ionization of molecules and
their subsequent temporal drift through an
electric field. Analysis and characterization are
based on analyte separations resulting from ionic
mobilities rather than ionic masses; this difference
distinguishes IMS from mass spectrometry. IMS
operates at atmospheric pressure, a characteristic
that has practical advantages over mass
spectrometry, allowing a smaller analytical unit,
lower power requirements, lighter weight, and
easier use. These factors may facilitate use of
IMS for mobile, field applications.
WASTE APPLICABILITY:
The IMS units, which are intended to be used in
a preprogrammed fashion, can monitor
chloroform, ethylbenzene, and other volatile
organic compounds in a defined situation. IMS
units can analyze air, vapor, soil, and water
samples. However, for analysis of liquid and
solid materials, the contaminants must be
introduced to the instrument in the gas phase,
requiring some sample preparation.
STATUS:
Graseby Ionics, Ltd. (Graseby), and PCP, Inc.
(PCP), participated in a laboratory demonstration
in 1990. Graseby used a commercially
available,self-contained instrument that weighs
about 2 kilograms (kg) (see figure below). PCP
used a larger (12 kg) transportable IMS. This
laboratory demonstration was the first
opportunity to test the instruments on
environmental samples. The demonstration
results highlighted that the following needs must
be satisfied before IMS is ready for field
applications:
ENVIRONMENTAL CAP-
NOZZLE PROTECTIVE CAP
(Position when A.V.M. is in use)
Airborne Vapor Monitor for IMS
Page 36
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
Additional development of sampling or
sample preparation strategies for soil and
water analysis.
Improvements in the design and
performance of IMS inlets, in conjunction
with the development of sampling and
presentation procedures.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Eric Koglin
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
702-798-2432
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACTS:
John Brokenshire .
Graseby Ionics, Ltd.
Analytical Division
Park Avenue, Bushey
Watford, Hertfordshire
WD22BW ;
England , , .
Telephone No.: 011-44-1923-816166
Martin J. Cohen
PCP, Inc.
2155 Indian Road .
West Palm Beach, FL 33409-3287
Telephone No.: 561-683-0507
Fax: 561-683-0507 (call first)
The SITE Program assesses but does not
approve or endorse technologies.
Page 37
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
HANBY ENVIRONMENTAL
LABORATORY PROCEDURES, INC.
(Test Kits for Organic Contaminants in Soil and Water)
TECHNOLOGY DESCRIPTION:
Hanby Environmental Laboratory Procedures,
Inc. (H.E.L.P), field test kits for soil and water
(as shown in the figure below) provide rapid,
sensitive analyses for a broad range of organic
contaminants. The kits have been used at spill
and leak sites for petroleum substances including
fuels, solvents, oils, pesticides, herbicides, and
indirectly wood preservatives such as
pentachlorophenols (PCP). The test kit methods
are based on simple extraction and colorimetric
procedures using Friedel-Crafts (F-C) chemical
reactions. During analyses for PCPs suspended
in diesel fuel carrier solvent, where the actual
analyte does not undergo F-C reactions, it is
necessary to perform other analyses to determine
the ratio of the target compound to the detected
carrier solvent. At locations where the type of
contaminant is known, such as gasoline or diesel
fuel sites, the appropriate calibration photograph
for the substance is used which provides precise
quantitative analytical information.
Alternatively, H.E.L.P. provides a portable
spectrophotometer which reads the sample
results, identifying a wider variety of chemicals.
The test kits provide the equipment and reagents
to perform 15 soil or water samples. Soil tests
are performed using the following steps:
• Using the electronic balance, weigh 5
grams of soil into a beaker.
• Empty one solvent ampule into the
beaker.
, • Stir the sample for 2 minutes (extraction).
. • Pour extract from the beaker into one of
the sample test tubes.
Hanby Test Kit
Page 38
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February
Completed Pi
1999
'roiect
• Empty one catalyst powder vial into the
test tube, cap and shake for 3 minutes.
• Compare the developed color of the
sample to the appropriate calibration
photograph, or insert the test tube into the
spectrophotometer for readout.
Water testing is performed in a similar manner,
except that the extraction procedure is performed
on a 500-milliliter water sample in a separatory
funnel which comes with the water test kit.
WASTE APPLICABILITY:
H.E.L.P. field test kits analyze aromatic,
halogenated, and other compounds which
participate in F-C reactions. These compounds
include the complete range of fuel types such as
gasoline, diesel fuel, and jet fuel, as well as all
types of crude oils. The test kits are also used
for the measurement of many other types of
substances such as new and used motor oils,
transformer oils, hydraulic fluids, and other types
of organic liquids which contain only small
amounts of F-C reacting compounds. The
intense color of these reactions allows
sensitivities of detection from 1 to 25 parts per
million (ppm).
The availability of two solvent types for the kits
provides a range from 1 ppm (with the lower
range solvent) to 100,00 ppm (with the high
range solvent).
STATUS:
The H.E.L.P. test kit was used to indirectly
screen and quantify PCP contamination in soils
for a SITE demonstration hi Morrisville, North
Carolina in August 1993, using samples collected
from a wood preserving site in Winona,
Missouri. These samples contained PCP in a
diesel carrier solvent. When the ratio of carrier
solvent to PCP was constant, the PCP
concentration data obtained using the H.E.L.P.
test kit correlated well with sample splits
analyzed at an off-site laboratory. Results from
the demonstration have been published in an
Innovative Technology Evaluation Report
(EPA/540/R-95/514), which is available from
EPA.
The field test kits and the associated
spectrophotometer, the H.E.L.P. MATE 2000,
were selected by the U.S. Department of
Commerce and EPA Rapid Commercialization
Initiative (RCI) as representative of "best
available demonstrated technology" in March
1996. The technologies selected for RCI was
demonstrated and assessed by EPA, the U.S.
Departments of Energy, Commerce, and
Defense, the California EPA, the Western
Governor's Association, and the Southern States
Energy Board throughout 1996 and 1997.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Eric Koglin
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2432 V :
Fax: 702-798-2261 . " "•, '-.,'/-
TECHNOLOGY DEVELOPER CONTACT:
JohnHanby
Hanby Environmental Laboratory
Procedures, Inc.
501 Sandy Point Road
Wimberley, TX 78676 : '
Telephone No.: 512-847-1212
Fax:512-847-1454
The SITE Program assesses but does not
approve or endorse technologies.
Page 39
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
HEWLETT-PACKARD COMPANY
(via acquisition of MTI Analytical Instruments, Inc.)
(Portable Gas Analyzer/HP Micro GC)
TECHNOLOGY DESCRIPTION:
The Hewlett-Packard (HP) portable gas analyzer,
shown below, is a multi-channel, high- speed,
portable micro gas chromatograph (GC) that
provides isothermal analysis of gas-phase
samples. The injector and thermal conductivity
detector (TCD) are micro-electromechanical
systems (MEMS). That is, they are fabricated
from silicon using micro-machining techniques
similar to that used to produce microprocessors,
microcircuits, etc. As a result these
chromatographic components are extremely small
and exhibit extremely high reliability and
performance. Depending on the analysis
requirements, * these two components are
combined with one of a series of high
performance/microbore capillary columns
(ranging from 0.25 to 14 meters in length and
0.150-0.32 mm inside diameter PD]) into an
individually programmable analysis channel. Up
to four independent, optimized analyses
(separations) of a single gas sample can be
performed simultaneously in a single instrument.
A gas sample is drawn into a sample loop with
an internal vacuum pump. An aliquot of the
sample is then introduced into the capillary
column using the microvalves contained within
the micro-machine injector. The maximum
analysis time for components up to CIO is 160
seconds or less, making the HP Micro kGC
oneof the fastest commercially available gas
chromatographs.
P200 Gas Analyzer
Page 40
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
The HP portable gas analyzer houses an internal
sealed lead acid battery and small refillable
carrier gas cylinder providing providing up to 8
hours of continuous operation. When combined
with a laptop computer and instrument
control/data analysis software, the HP portable
gas analyzer is fully capable of field operation.
WASTE APPLICABILITY:
The HP portable gas analyzer can detect many
volatile organic compounds (VOC) at
concentrations as low as 1 ppm. A heated
sample inlet system enables the gas analyzer to
detect higher boiling compounds like naphthalene
and hexachlorobutadiene. When combined with
an air sampler/pre-concentrator (ex. Entech,
Tekmar/Dohrmann) detection limits in the range
of 1 to 10 parts per billion for EPA Method TO-
14 compounds can be obtained.
The HP portable gas analyzer can be employed
for the analysis of soil gases, VOC contaminants
in groundwater, and, with the use of an air
sampler/pre-concentrator device, VOCs in
ambient air. The micro TCD is suitable for
analyzing many types of organic and inorganic
vapor-phase.compounds. The HP portable gas
analyzer can be used as part of a system to
monitor VOC emissions from hazardous waste
sites as part of first site assessment activities and
as part of a remediation program. Because of its
portability, high analytical speed, and relatively
low detection limit, the gas analyzer provides
results of comparable quality to laboratory based
analysis instruments, including gas
chromatography/mass spectrometry (GC/MS).
STATUS:
The P200 gas analyzer was evaluated during a
field study in August 1995. During the study,
downwind vapors from an artificial source
generator were analyzed. Preliminary results of
the demonstration were presented in an article
titled "Performance Comparison of Field-
Deployable Gas Chromatographs with Canister
TO-14 Analyses" in the Proceeding of the 1996
U.S. EPA/Air and Waste Management
Association International Symposium, VIP-64,
1996.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Richard Berkley
U.S. Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-2439
Fax: 919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
Hewlett-Packard
Telephone No.: 800-227-9770
OR
Bob Belair
Sr. Product Mgr.-Micro GC
2850 Cernterville Road
Wilmington, DE 19707
302-633-8487
Fax: 302-993-5935
The SITE Program assesses but does not
approve or endorse technologies.
Page 41
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
HNU SYSTEMS, INC.
(HNU Source Excited Fluorescence
Analyzer-Portable [SEFA-P] X-Ray Fluorescence Analyzer)
TECHNOLOGY DESCRIPTION:
HNU Systems, Inc. developed the Source
Excited Fluorescence Analyzer - Portable
(SEFA-P), a portable X-ray technology, to
selectively determine metals concentrations in
soils and other media at hazardous waste sites or
industrial locations. Three excitation sources are
offered with the SEFA-P X-ray fluorescence
(XRF) Analyzer: Iron-55, Cadmium-109, and
Americium-241. The SEFA-P is shown in the
photograph below.
The SEFA-P in its most basic form consists of
the following components: one main cabinet that
encloses the sample chamber; the excitation
sources; a liquid nitrogen-cooled Si(Li) detector;
a preamplifier; spectrometer electronics; a multi-
channel analyzer (MCA); and a battery charger.
The internal battery can power the MCA for 8
hours. The MCA has an RS-232 interface that
allows the SEFA-P to be externally controlled
through a PC or laptop computer. The SEFA-P
weighs approximately 50 pounds.
Source Excited Fluorescence Analyzer-Portable (SEFA-P) XRF Analyzer
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February 1999
Completed Project
The SEFA-P can be calibrated empirically or
using the Compton ratio. Quantitative results for
samples are displayed on the PC screen in units
of parts per million. The SEFA-P only analyzes
soil samples in the intrusive mode; soil samples
are placed in sample cups prior to analysis.
After calibrating the unit, analyzing quality
control samples, and preparing samples, it is
possible to analyze 30 to 50 samples in an 8- to
10-hour day.
The SEFA-P is sold with a general license, so the
operator does not have to be specifically licensed
in each state in which it is used. As of 1995, the
SEFA-P retailed for approximately $45,000,
depending on the options included. This price
includes one in-house operational training course.
WASTE APPLICABILITY:
The SEFA-P can detect elements from aluminum
through uranium in soil or other media, such as
those elements at mining and smelting sites, drum
recycling facilities, or plating facilities. The
instrument can provide real-time, on-site
analytical results during field screening and
remedial operations. XRF analysis is faster and
more cost-effective compared to conventional
laboratory analysis.
WASTE APPLICABILITY:
The SEPA-A has been used at a number of
Superfund sites across the country. A SITE
demonstration of the SEFA-P was conducted in
February 1995 and summarized in Technical
Report No. EPA/600/R-97/144, dated March
1998. The instrument was used to identify and
quantify concentrations of metals in soils. The
report gives field-based method detection limits,
accuracy, and precision data from the analysis of
standard reference materials and performance
evaluation samples. Comparability of the XRF
results to an EPA-approved reference laboratory
method was also assessed. The draft fourth
update to SW-846 includes Method 6200, dated
January 1998, which incorporates the results of
the SITE demonstration.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Jack Driscoll
HNU Systems, Inc.
160 Charlemont Street
Newton, MA 02161-9987
Telephone No.: 800-724-6690
Telephone No.: 617-964-6690
Fax: 617-558-0056
The SITE Program assesses but does not
approve or endorse technologies.
Page 43
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Technology Profile
MONITORING AND MEASUREMENTS.
TECHNOLOGIES PROGRAM
HNU SYSTEMS, INC.
(HNU GC 311D Portable Gas Chromatograph)
TECHNOLOGY DESCRIPTION:
The field-deployable HNU GC 31 ID portable
gas chromatograph monitors a wide range of
compound emissions from hazardous waste sites
and other emissions sources before and during
remediation (see photograph below). It has an
internal carrier gas supply, operates on 110-volt
line power, is microprocessor-controlled, and is
temperature programmable. An internal printer
plots chromatograms and prints data. Data can
also be reported to an external computer, which
is connected through an RS-232 outlet.
The instrument has simultaneous dual-detector
capability and allows the user to choose from
four interchangeable detectors: photoionization,
flame ionization, electron-capture, and far
ultraviolet absorbance. Capillary columns of all
sizes can be installed. The instrument is capable
of autosampling.
WASTE APPLICABILITY:
The HNU GC 31 ID is applicable to a wide
variety of vapor-phase pollutants. The
photoionization detector is sensitive to
HNU GC 31 ID Portable Gas Chromatograph
Page 44
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
compounds that ionize below 11.7 electron volts,
such as aromatic compounds and unsaturated
halocarbons. The flame ionization detector is
sensitive to hydrocarbons. The electron-capture
detector is sensitive to halocarbons and
polychlorinated biphenyls. The far ultraviolet
absorbance is a universal detector with
characteristics similar to that of a thermal
conductivity detector (TCD).
STATUS:
The instrument Was evaluated in January 1992 at
a Superfund site under remediation. Results
from the demonstration are presented in a peer-
reviewed article entitled "Evaluation of Portable
Gas Chromatographs" in the Proceedings of the
1993 U.S. EPA/Air and Waste Management
Association International Symposium, VIP-33,
Volume 2, 1993. A final report will not be
prepared.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Richard Berkley
U.S. Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-2439
Fax: 919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
Jack Driscoll
HNU Systems, Inc.
160 Charlemont Street
Newton, MA 02161-9987
Telephone No.: 800-724-6690
Telephone No.: 617-964-6690
Fax:617-558-0056
The SITE Program assesses but does not
approve or endorse technologies.
Page45
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
IDETEK, INC.
(formerly BINAX CORPORATION, ANTOX DIVISION)
(Equate® Immunoassay)
TECHNOLOGY DESCRIPTION:
The Equate® immunoassay (see photograph
below) uses an anti-benzene, toluene, and xylene
(BTX) polyclonal antibody to facilitate analysis of
BTX in water. A hapten-enzyme conjugate
mimics free BTX hydrocarbons and competes for
binding to the polyclonal antibody immobilized
on a test tube. After the test tube is washed to
remove unbound conjugate, a substrate
chromogen mixture is added and a colored
enzymatic reaction product forms. The
enzymatic reaction is stopped by adding a few
drops of sulfuric acid, which colors the
enzymatic product yellow.
As with other competitive enzyme-linked
immunosorbent assays, the color intensity of the
enzymatic product is inversely proportional to the
sample analyte concentration. Each sample is
run with a reference sample of deionized water.
The optical density of the colored enzymatic
product is read on a portable digital colorimeter
equipped with a filter that passes light at a peak
wavelength of 450 nanometers. The ratio of the
sample to the reference optical density values is
used to estimate the aromatic hydrocarbon level
in the low parts per million (ppm) range. The
test is sensitive to about 1 ppm and requires 5 to
10 minutes per analysis.
WASTE APPLICABILITY:
The Equate® immunoassay is designed
measure BTX in water.
to
" ""'
Equate® Immunoassay Kit
Page 46
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February 1999
Completed Project
STATUS:
The National Exposure Research Laboratory-Las
Vegas evaluated several versions of the Equate®
immunoassay. The evaluation focused on cross-
reactivity and interference testing and on analysis
of benzene, toluene, ethylbenzene, and xylene
and gasoline standard curves.
As a preliminary field evaluation, the Equate®
immunoassay was used to analyze in duplicate
five well samples and a creek sample, both in the
field and the laboratory. Confirmatory analysis
was conducted using purge-and-trap gas
chromatography with an electron-capture
detector, in parallel with a photoionization
detector.
A SITE demonstration of the Equate®
immunoassay was conducted in 1992. Results
from this demonstration were published in June
1994 in an EPA report entitled "Superfund
Innovative Technology Evaluation (SITE)
Program Evaluation Report for Antox BTX
Water Screen (BTX Immunoassay)"
(EPA/540/R-93/518).
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Jeanette Van Emon
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2154
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Richard Lankow
Idetek, Inc.
1245 Reamwood Avenue
Sunnyvale, CA 94089
Telephone No.: 408-752-1353
Fax: 408-745-0243
The SITE Program assesses but does not
approve or endorse technologies.
Page 47
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Technology Profile
MONITORING AND MEASUREMENTS^
TECHNOLOGIES PROGRAM
METOREX, INC.
(Field Portable X-Ray Fluorescence Analyzers)
TECHNOLOGY DESCRIPTION:
Metorex, Inc. (Metorex), manufactures, sells,
leases, and provides analytical and repair services
for its X-MET line of field portable X-ray
fluorescence (FPXRF) analyzers. The latest X-
MET models in this series of instruments are the
X-MET 920 and X-MET 2000 systems. The X-
MET 920 series includes the X-MET 920-P and
920-MP. The X-MET analyzers are specifically
calibrated for on-site or in situ hazardous waste
analysis. These analyzers provide rapid,
nondestructive measurements of inorganic
contaminants in soil, thin film such as lead in
paint, or water matrices.
Each X-MET 920 series analyzer is built from
modules into systems based on customers'
analytical and logistical needs. The X-MET PC
System (XPCS) can either be built into the
expansion slot of the computer or is provided as
a standalone, battery-operated XPCS module for
direct interface to a computer's RS-232 port.
The X-MET 920-P is equipped with either a
solid state Si(Li) gas-filled proportional counter
detector or the other new SIPS detector contained
in a hand-held probe. The X-MET 920 MP is
equipped with a gas-filled proportional counter
detector contained in a hand-held probe.
The 920 X-MET, equipped with a Si(Li)
detector, dual radioisotope sources, and a
portable sealed computer, sells for $47,950. The
X-MET 920 MP sells for $36,325 and the X-
MET 2000 sells for $62,430. These prices
include factory training for two people at the
Metorex facility. The X-MET can also be leased
from Metorex.
The basic analyzer configuration includes the PC,
XRF software, XPCS, and the analysis probe
with excitation source. The XPCS contains a
2,048-channel multichannel analyzer that
collects, analyzes, and displays the X-ray pulse-
height spectrum. The high-resolution Si(Li)
detector is liquid-nitrogen cooled by a 0.5-liter
dewar built into the probe. The gas-filled
proportional detector and SIPS intrinsic silicon
pin diode detector operates at ambient
temperatures. Metorex offers iron-55, cadmium-
109, and americium-241 radioisotope excitation
sources. Dual source configurations are
available.
The X-MET 940 was tested as a prototype,
which evolved into the X-MET 2000. It is
essentially the same instrument as the X-MET
920-P but has a smaller, lighter physical
configuration.
The X-MET 2000 is a custom, miniaturized,
field-hardened, battery-operated, DOS-based
computer that is dedicated to field XRF
application. The system uses a flash or electronic
hard disk to provide extreme durability under
field operating conditions. It is among the
smallest, lightest commercially available FPXRF
with the full range of analytical capabilities.
All software is menu driven. These instruments
are factory-calibrated and can be field-calibrated
using either empirical calibration (all probes) or
standardless-fundamental parameters (FP). For
the Si(Li) probe, empirical calibration requires a
set of site-typical or analyzed site-specific
samples for the initial calibration. FP calibration
requires one certified standard. Metorex claims
that 50 or more soil samples can be analyzed in
Page 48
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February1999
Completed Project
an 8- to 10-hour day with intrusive sampling,
rigorous sample preparation, and long
measurement times (200 to 300 seconds per
sample) and up to 200 samples per day with in
situ screening and short (10 to 100 seconds per
sample) measurement times. The 920 X-MET,
equipped with a Si(Li) detector, dual radioisotope
sources, and a portable sealed computer, sells for
$47,950. The X-MET 920 MP sells for $36,325
and the X-MET 2000 sells for $62,430. These
prices include factory training for two people at
the Metorex facility. The X-MET can also be
leased from Metorex.
WASTE APPLICABILITY:
The X-MET 2000 technology is designed to
identify more than 60 elements in soil or other
matrices, such as those at mining and smelting
sites, drum recycling facilities, or plating
facilities. The instrument can provide real-time,
on-site analytical results during field screening
and remediation operations. FPXRF analysis is
faster and more cost-effective compared to
conventional laboratory analysis.
STATUS:
The X-MET 920-P, 920-MP, and 940 were
evaluated under the SITE Program in April 1995.
The evaluation is summarized in technical reports
EPA/600/R-97/146 for the 920-P and 940 and
EPA/600/R-97/151 for the 920-MP, both dated
March 1998. The instruments were used to
identify and quantify concentrations of metals in
soils. Evaluation of the results yielded field-
based method detection limits, accuracy, and
precision data from the analysis of standard
reference materials and performance evaluation
samples. Comparability of the FPXRF results to
an EPA-approved reference laboratory method
was also assessed. The draft fourth update to
SW-846 includes Method 6200, dated January
1998, which incorporates the results of the SITE
study.
FOR FURTHER INFORMATION:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
E-mail: billets.stephen@epamail.epa.gov
TECHNOLOGY DEVELOPER CONTACT:
James Pasmore
Metorex, Inc.
1900 N.E. Division Street, Suite 204
Bend, OR 97701
Telephone No.: 800-229-9209
Telephone No.: 541-385-6748
Fax: 541-385-6750
The SITE Program assesses but does not
approve or endorse technologies.
Page 49
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
MICROSENSOR SYSTEMS, INCORPORATED
(MSI-301A Vapor Monitor)
TECHNOLOGY DESCRIPTION:
The MSI-301A vapor monitor is a portable,
temperature-controlled gas chromatograph with
a highly selective surface acoustic wave detector
and an on-board computer (see photograph
below). The MSI-301A vapor monitor performs
the folio whig functions:
• Preconcentrates samples and uses
scrubbed ambient air as a carrier gas
• Analyzes a limited group of preselected
compounds, such as benzene, toluene, and
xylenes, at part per billion levels
• Operates by battery and includes an
RS-232 interface
• Operates automatically as a stationary
sampler or manually as a mobile unit
WASTE APPLICABILITY:
The MSI-301A vapor monitor can monitor many
volatile organic compound emissions from
hazardous waste sites and other sources before
and during remediation. Some specific
applications of the microsensor technology
include OSHA compliance monitoring,
environmental ambient air analysis, carbon bed
breakthrough analysis, and industrial
manufacturing area emission monitoring.
MSI-301A Vapor Monitor
Page SO
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approve or endorse technologies.
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February 1999
Completed Project
STATUS:
In January 1992, the MSI-301A vapor monitor
was evaluated in the field at a Superfund site.
Results from the demonstration are presented in
a peer-reviewed article entitled "Evaluation of
Portable Gas Chromatographs" in the
Proceedings of the 1993 U.S'. EPA/Air and Waste
Management Association International
Symposium, VIP-33, Volume 2, 1993.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Richard Berkley
U.S. Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-2439
Fax: 919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
Norman Davis
Microsensor Systems, Incorporated '.
62 Corporate Court
Bowling Green, KY 42103
Telephone No.: 502-745-0099
Fax: 502-745-0095
E-mail: ndavis@msi.sawtek.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 51
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
NITON CORPORATION
(XL Spectrum Analyzer)
TECHNOLOGY DESCRIPTION:
NITON Corporation (Niton) manufactures and
services the XL Spectrum Analyzer, the XL-309
Lead Detector, the TOOSeries multi-element
analyzers, and the SOOSeries alloy analyzers. All
are hand-held, field portable X-ray fluorescence
(FPXRF) instruments.
The XL Spectrum Analyzer allows in situ and
prepared-sample, on-site measurement of lead in
paint, soils, dust wipes, coatings and air. Lead
paint analysis is accepted by EPA, and NIOSH
Method 7702 is in place for airborne lead
analysis. The 700Series is the multi-element
analyzer. This instrument analyzes many
elements, including all eight RCRA metals, in
soils, filter media, and coatings (see photograph
below).
The NITON XL-309 lead detector includes a
cadmium-109 radioactive source (10 millicurie)
that provides the excitation energy that produces
characteristic fluorescent X-rays from a sample
The 700Series can be equipped with a cadmium-
109 source, americium-241 source, or both.
Future releases will also provide an iron-55
source or curium-244 source. All XL-309
instruments can be upgraded to any 700Series
instrument at any time. The SOOSeries alloy
analyzers are designed for rapid sorting and
identification of metal alloys and scrap metals.
The instrument includes a silicon Pin-diode
detector (or a silicon diode plus cadmium-zinc-
telluride detector for lead paint analysis), cooled
by the thermoelectric Peltier effect. The
instrument also includes (1) a multichannel
analyzer of 1,024 channels, (2) an RS-232 serial
port for data transfer and printing, (3) an internal
memory for storing up to 3000 readings with
spectra, and (4) a back-lit graphic liquid crystal
display.
XL Spectrum Analyzer
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February 1999
Completed Project
The instrument self-calibrates its energy scale and
uses a Compton backscatter calibration technique
for soil testing. Alloy analysis is performed
using fundamental parameters. The backscatter
calibration compensates for X-ray absorption in
the soil matrix. The instrument is equipped with
a removable battery pack that provides up to
8 hours of continuous use. It can analyze 20 to
25 samples per hour, based on a 60-second
analysis time and minimal sample preparation.
The complete instrument, shown in the
photograph above, weighs less than 3 pounds.
NITON requires a 1-day operator training and
radiation safety at no charge. The course awards
a certification maintenance point to Certified
Industrial Hygienists who attend. NITON
manufactures the Spectrum Analyzers under
both general and specific licenses with the State
of Rhode Island.
Instrument costs range between $14,000 and
$37,000, depending on number of applications
and radioactive sources. Prices include two
battery packs and charger, automotive power
adapter, cable for serial data downloading,
waterproof carrying case, operating and safety
manual, barcode wand, personal computer
software, all necessary hardware accessories and
calibration check standards, and a 15-month
warranty.
WASTE APPLICABILITY:
The NITON Spectrum Analyzer can detect more
than 20 elements in soil samples, such as those
obtained from lead-contaminated residences,
mining and smelting sites, drum recycling
facilities, and plating facilities.
The instrument can provide real-time, on-site
analytical results during field screening and
remediation operations. FPXRF analysis is faster
and more cost effective compared to laboratory
analysis.
STATUS:
The NITON Spectrum Analyzer was
demonstrated under the SITE Program in April
1995. The results are summarized in Technical
Report No. EPA/600/R-97/150, dated March
1998. The instrument was used to identify and
quantify concentrations of metals in soils. A
preliminary evaluation of the results yielded
field-based method detection limits, accuracy,
and precision data from the analysis of standard
reference materials and performance evaluation
samples. Comparability of the FPXRF results to
an EPA-approved reference laboratory method
was also assessed. The Draft Fourth Update to
SW-846 includes Method 6200, dated January
1998, which is based on this work.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478.,
Telephone No.: 702-798-2232 :
Fax:702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Don Sackett, Ph.D.
Vice President, Sales and Marketing
NITON Corporation
74 Loomis Street
P.O. Box 368
Bedford, MA 01730-0368
Telephone No.: 781-275-9275
Fax: 781-275-1917
The SITE Program assesses but does not
approve or endorse technologies.
Page 53
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
PHOTOVAC MONITORING INSTRUMENTS
(formerly PHOTOVAC INTERNATIONAL, INC.)
(PE Photovac Voyager Portable Gas Chromatograph)
TECHNOLOGY DESCRIPTION:
The PE Photovac Voyager Portable Gas
Chromatograph (GC) is a lightweight, battery
powered, isothermal GC (see figure below). The
Voyager GC is designed to replace the Photovac
10S Plus GC and incorporates the following
advanced features:
• A miniature analytical engine containing a
precolumn with backflush capability; three
analytical columns dedicated for "light",
"middle", and "heavy" compounds; an
isothermal oven with an operating
temperature range of 30-80 °C; a miniature
all-stainless steel valve array; and a
syringe/valve injection port. The whole
engine is maintained at the set isothermal
temperature.
• The Voyager photoionization detector (PID)
provides superior sensitivity to volatile
organic compounds (VOC) such as
benzene, toluene, xylenes, and chlorinated
ethylenes.
High sensitivity to chlorinated compounds is
achieved using a Voyager equipped with an
electron capture detector (BCD).
A VOC function acts as a fast screening tool
for pre-GC analysis; the VOC mode
supports either syringe or automatic "sample
injections."
A factory-programmed assay for analysis of
up to 40 VOCs listed in EPA Method 601,
602, 624, and 8260.
A "simplified" operating mode designed to
detect a subset of VOCs selected from the
preprogrammed assay.
A user mode, simple point-and-press
operation, to analyze preselected
compounds from the factory programmed
assay.
Total weight with PID is 15 pounds.
PE-Photovac Portable Gas Chromatograph
Page 54
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February 1999
Completed Project
WASTE APPLICABILITY:
The Voyager GC can monitor VOC emissions
from hazardous waste sites and other emission
sources before, during, and after remediation.
PC Sitechart LX software provides the user with
data downloading, integration and GC
customization capabilities. This enables a user to
generate data onsite, with confidence.
STATUS:
The Photovac 10S PLUS GC was evaluated in
January 1992 at a Superfund site under
remediation. Results from this demonstration are
presented in a peer-reviewed article entitled
"Evaluation of Portable Gas Chromatographs" in
the Proceedings of the 1993 U.S. EPA/Air and
Waste Management Association International
Symposium, VIP-33, Volume 2, 1993.
The Voyager GC was evaluated during a field
study in August 1995. During the study,
downwind vapors from an artificial source
generator were analyzed. Preliminary results of
the demonstration were presented in an article
titled "Performance Comparison of Field-
Deployable Gas Chromatographs with Canister
TO-14 Analyses" in the Proceeding of the 1996
U.S. EPA/Air and Waste Management
Association International Symposium, VIP-64,
1996.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Richard Berkley
U.S: Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-2439
Fax: 919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
Kevin Scully
Photovac Monitoring Instruments
50 Danbury Road
Wilton, CT 06897
Telephone No.: 203-761-2867
Fax: 203-761-2892
The SITE Program assesses but does not
approve or endorse technologies.
Page 55
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
QUADREL SERVICES, INC.
(Emflux® Soil-Gas Survey System)
TECHNOLOGY DESCRIPTION:
Quadrel's EMFLUX® System is a fully
operational, passive, near-surface investigative
technology capable of identifying buried VOCs
and SVOCs at concentrations in the low parts-
per-billion range.
EMFLUX® exploits the crustal effects of gravity
(generally referred to as "earth tides") through a
predictive computer model. These geophysical
forces dominate vertical soil-gas velocities,
increasing them by three to five orders of
magnitude. The ability to predict such velocity
changes (which dwarf influences of barometric
pressure, temperature, moisture, and other
phenomena) allows EMFLUX® to take advantage
of maximum gas emissions at ground surface
through simultaneous, cumulative sampling,
thereby enhancing detection accuracy and
survey reliability. As a result, EMFLUX®
survey results are reproducible in excess of 90
percent of the time in terms of both correct
identification of individual VOCs and SVOCs
and proportional duplication at ground surface of
changes in subsurface concentrations of targeted
compounds.
Deployment, by individuals or two-person teams,
takes less than two minutes per point (exclusive
of initial sample location survey ing); retrieval
requires half that time; and collectors remain in
the field for 72 hours. Field components of the
system (9-inch stainless steel shells used above
ground, or 3.5-inch glass vials for shallow
subsurface placement) are completely portable.
Available analytical methods range from EPA
Methods 8020 and 8021, using gas
chromatography and a variety of detectors, to
Methods 8260 and 8270, using mass
spectrometry.
EMFLUX® COLLECTOR
DEPLOYMENT THROUGH SOILS
DEPLOYMENT THROUGH AN ASPHALT/CONCRETE CAP
Page 56
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February 1999
Completed Project
WASTE APPLICABILITY:
The EMFLUX® System has been employed with
great effectiveness in detecting a broad range of
VOCs and SVOCs (from vinyl chloride through
hexachlorobutadiene) in soil, groundwater and
air. The technology has also been successful in
identifying and mapping methane, non-methane
landfill gases, mercury, certain types of high
explosives, and chemical surety materials.
STATUS:
Quadrel participated in the SITE Program
(Environmental Technology Verification
Program) hi May and June 1997, when
EMFLUX® was deployed at two sites (one in
Colorado, the other hi Iowa) to detect, among
other VOCs, vinyl chloride, 1,2-DCE, 1,1-DCA,
1,1,1-TCA, TCE and PCE. The demonstration
results indicate that the EMFLUX® system can
provide useful, cost-effective data for
environmental problem-solving. The EMFLUX®
system successfully collected soil gas samples in
clay and sandy soils. The sampler provided
positive identification of target VOCs and may be
able to detect lower concentrations of VOCs in
the soil gas than the reference method. The
results of the demonstration did not indicate
consistent proportional comparability between the
EMFLUX® data and the reference method's
data. Currently, the final report and verification
statement is being completed by the National
Risk Management Research Laboratory in Las
Vegas, Nevada. The EMFLUX® system has
been commercially operational since 1990.
EMFLUX® has been used on 350 major projects
in 46 U.S. states, in Guam, Canada, Great
Britain, South America, Poland, and the Czech
Republic.
FOR FURTHER INFORMATION:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702) 798-2232
Fax No.: (702)798-2261
E-mail: billets. stephen@epamail. epa.gov
TECHNOLOGY DEVELOPER CONTACT:
Bruce Tucker or Paul Henning
Quadrel Services, Inc.
1896 Urbana Pike, Suite 20
Clarksburg, MD 20871
Telephone No.: (301)874-5510
Fax No.: (301) 874-5567
The SITE Program assesses but does not
approve or endorse technologies.
Page 57
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
RADIOMETER ANALYTICAL GROUP
(Anodic Stripping Voltammetry for Mercury in Soil)
TECHNOLOGY DESCRIPTION:
The Radiometer Analytical Group (Radiometer)
anodic stripping voltammetry (ASV) method is a
field-portable technique that uses a programmed
electrochemical apparatus to measure total
mercury in soil and sediment. The Radiometer
method is more complex than immunoassay
methods, but it can generate quantitative results,
while immunoassay methods generate only
semiquantitative or screening level results. Each
Radiometer ASV apparatus can analyze up to
about 40 samples per day for mercury.
Mercury hi soil or sediment samples is first
extracted using a heated 1:6:17 mixture of
hydrochloric acid, nitric acid, and deionized
water. The extract is then cooled, buffered, and
centrifuged. The extracted samples are then
analyzed by ASV using a Radiometer PSU 20
unit.
The ASV method has two steps. In the first step,
mercury ions are plated out of solution onto a
glassy carbon electrode that is coated with a gold
film and placed under a negative potential. In the
second step, the negative potential is removed
and the mercury is stripped off the electrode.
The change hi electrode potential is measured
with a high impedance voltmeter and is
proportional to the mercury concentration.
WASTE APPLICABILITY:
The Radiometer method has been used to analyze
soil and sediment samples containing mercury.
The effect of soil texture on this method's
performance is unknown. Soil moisture content
of up to 31 percent had minimal to no effect on
performance. The ASV method can measure
mercury in soil or sediment at the parts per
million (ppm) level.
STATUS:
The Radiometer ASV method was field
demonstrated in August 1995 at two southwestern
state sites: the Carson River Mercury site in
Reno, Nevada; and the Sulphur Bank Mercury
Mine site in Clear Lake, California. During the
demonstration, the method was used to analyze
145 samples (55 samples from each site and 35
archived samples), 20 field duplicate samples, 17
weak digestion samples, and 13 performance
evaluation samples. Duplicate samples
underwent confirmatory analysis using
inductively coupled plasma with mass
spectrometry (ICP-MS) at an off-site laboratory.
The ASV method provided reproducible
quantitative results comparable to those generated
by ICP-MS down to 2 ppm. Additional results
from the field demonstration will be available in
the Innovative Technology Evaluation Report.
According to Radiometer, the PSU 20 unit has
been improved to achieve detection limits at the
parts per billion level (Radiometer PSU 22 unit).
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February 1999
Completed Project
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Mark Nighman
Radiometer Analytical Group :'
810 Sharon Drive
Westlake, OH 44145
Telephone No.: 800-998-8110, Ext. 213
Fax: 440-899-1139
The SITE Program assesses but does not
approve or endorse technologies.
Page59
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
SENTEX SYSTEMS, INC.
(Scentograph Plus II Portable Gas Chromatograph)
TECHNOLOGY DESCRIPTION:
The Scentograph Plus II Portable Gas
Chromatograph is designed to monitor volatile
organic compound (VOC) emissions from
hazardous waste sites and other emission sources.
It operates by drawing air through a sorbent bed,
followed by rapid thermal desorption into the
carrier stream. The instrument operates in either
Micro Argon lonization or Micro Electron
Capture modes.
The Scentograph Plus II Portable Gas
Chromatograph can operate for several hours on
internal batteries and has internal carrier gas and
calibration tanks. It can be fitted with capillary
columns (30 meters, 0.32 or 0.53 millimeter) or
packed columns. The instrument can be operated
isothermally at temperatures ranging from
ambient to 179 °C. Oven temperatures can be
programmed at a desired rate. The 11.7-
electron-yolt ionization energy allows a detection
limit of about 1 part per billion. The instrument
is controlled by a detachable IBM compatible
laptop computer (see photograph below). Purge
and Trap Accessories enable on-site, on-line
determinations of various VOCs in water.
WASTE APPLICABILITY:
The Scentograph Plus II portable gas
Chromatograph can monitor VOC emissions from
hazardous waste sites and other emission sources.
Scentograph Plus II Portable Gas Chromatograph
Page 6O
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February 1999
Completed Project
STATUS:
The Scentograph Plus II portable gas
chromatograph was evaluated in January 1992 at
a Superfund site under remediation. Results
from this demonstration are presented hi a
peer-reviewed article titled "Evaluation of
Portable Gas Chromatographs" in the
Proceedings of the 1993 U.S. EPA/Air and Waste
Management Association International
Symposium, VIP-33, Volume 2, 1993.
The technology was also evaluated in June 1994
at a landfill adjacent to a residental area. Results
from this demonstration are presented in a peer-
reviewed article titled "On-Site Monitoring of
Vinyl Chloride at Parts Per Trillion Levels in Air"
in the Proceedings of the 1995 U.S. EPA/Air and
Waste Management Association International
Symposium, VIP-47, Volume 1, 1995.
The Scentograph Plus II portable gas
chromatograph was also evaluated during a field
study in August 1995. During the study,
downwind vapors from an artificial source
generator were analyzed. Preliminary results of
the demonstration were presented in an article
titled "Performance Comparison of Field-
Deployable Gas Chromatographs with Canister
TO-14 Analyses" in the Proceeding of the 1996
U.S. EPA/Air and Waste Management
Association International Symposium, VIP-64,
1996.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Richard Berkley
U.S. Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-2439
Fax:: 919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
Amos Linenberg
Sentex Systems, Inc.
553 Broad Avenue
Ridgefield, NJ 07657
Telephone No.: 201-945-3694
Fax: 201-941-6064
The SITE Program assesses but does not
approve or endorse technologies.
Page 61
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
SIMULPROBE® TECHNOLOGIES, INC.
(Core Barrel Soil Sampler)
TECHNOLOGY DESCRIPTION:
The SimulProbe® Technologies, Inc.
(SimulProbe®), core barrel sampler consists of a
split core barrel similar to a split-spoon sampler,
a drive shoe, and a core barrel head.
The sampler is constructed of steel, has a
uniform 2-inch outer diameter, and is 27 inches
long. It is capable of recovering a discrete
sample 1.25 inches in diameter and 27 inches
long. Multiple 5.25-inch-long stainless-steel
liners or a single full-length plastic liner can be
used inside the sampler to contain the soil core.
The drive shoe of the sampler is equipped with a
slide mechanism and has an optional drive tip for
direct-push, discrete sampling applications.
The drive tip, known as the SimulProbe® Latch
Activated Tip (SPLAT™), seals the sample
chamber until the target depth is reached. The
SPLAT™ is then released at the target depth to
collect the sample.
The core barrel sampler decreases the likelihood
of cross-contamination, preserves sample
intergrity when used with a liner, can collect
either discrete or continuous soil samples of
unconsolidated materials, does not need
specialized training to use, and does not generate
drill cuttings.
WASTE APPLICABILITY:
The SimulProbe® core barrel sampler can be
used to collect unconsolidated, subsurface soil
samples at depths that depend on the capability of
the advancement platform. The sampler can be
advanced into the subsurface using a direct-push
platform, drill rig, or manual methods. The
sampler has been used to collect samples of
sandy and clayey soil contaminated with high
concentrations of volatile organic compounds
(VOC). It can also be used to collect samples for
semivolatile organic compounds, metals, general
minerals, and pesticides analyses.
CORE BARREL HEAD
BEED VALVE
(OPTIONAL FOR SATURATED ZONE)
- (NON-ESSENTIAL FOR VADOSE ZONE)
Simulprobe Core Barrel Sampler
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February
Completed Pi
1999
'roiect
STATUS:
The SimulProbe® core barrel sampler was
demonstrated under the Superfund Innovative
Technology Evaluation (SITE) program in May
and June 1997 at two sites: the Small Business
Administration (SBA) site in Albert City, Iowa,
and the Chemical Sales Company (CSC) site in
Denver, Colorado. Samples collected during the
demonstrations were analyzed for VOCs to
evaluate the performance of the samplers.
Demonstration results indicate that the core
barrel sampler had higher sample recoveries and
yielded samples with higher VOC concentrations
in the clayey soil present at the SBA site than the
standard methods. Conversely, the sampler had
lower recoveries and yielded samples with lower
VOC concentrations than the standard methods in
the sandy soil present at the CSC site. Sample
integrity using the core barrel sampler was not
preserved in highly contaminated soil, and the
use of sample liners was found to be required to
preserve sample integrity. The core barrel
sampler's reliability and throughput were not as
good as those of the standard methods; however,
the developer claims that the sampler used during
the demonstrations was incorrectly manufactured.
Costs for the core barrel sampler were lower than
costs related to the standard sampling method.
Demonstration results are documented in the
"Environmental Technology Verification" report
for the sampler dated August 1998 (EPA/600/E-
98/094).
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702)798-2232
Fax No.: (702) 798-2261
E-mail: billets. stephen@epamail.epa. gov
TECHNOLOGY DEVELOPER CONTACT:
Dr. Richard Laton
SimulProbe® Technologies, Inc.
354 Bel Marin Keys Boulevard, Suite F
Novato, CA 94949
Telephone No.: (415) 883-8787
Fax No.: (415)883-8788
E-mail: sprobe@simulprobe.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 63
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
SPACE AND NAVAL WARFARE SYSTEMS CENTER
(formerly Naval Command, Control and Ocean Surveillance Center)
(SCATS Cone Penetrometer)
TECHNOLOGY DESCRIPTION:
The Site Characterization and Analysis
Penetrometer System (SCAPS) was developed by
the space and naval warfare systems center.
SCAPS is mounted on a cone penetrometer
testing (CPT) platform for field use; it can be
fitted with a laser-induced fluorescence (LIF)
sensor to provide in situ field screening of
petroleum hydrocarbons in subsurface soils.
CPT technology has been widely used in the
geotechnical industry for determining soil
strength and soil type from measurements of tip
resistance and sleeve friction on an instrumented
probe. The SCAPS CPT platform equipped with
LIF sensors can provide real-time field screening
of the physical characteristics of soil and
chemical characteristics of petroleum
hydrocarbon contamination at hazardous waste
sites.
SCAPS is primarily designed to quickly and cost-
effectively distinguish hydrocarbon-contaminated
areas from uncontaminated areas. SCAPS also
provides geologic information and reduces the
amount of investigation-derived waste. This
capability allows further investigation and
remediation decisions to be made more efficiently
and reduces the number of samples that must be
submitted for laboratory analysis.
The LIF system uses a pulsed laser coupled with
an optical detector to measure fluorescence
through optical fibers. Fluorescence is measured
through a sapphire window on a probe that is
pushed into the ground with a truck-mounted
CPT. LIF provides data on the in situ
distribution of petroleum hydrocarbons, measured
by the fluorescence response induced in the
polynuclear aromatic hydrocarbons (PAH) that
comprise the petroleum hydrocarbon. LIF
detects PAHs in the bulk soil matrix throughout
the vadose, capillary fringe, and saturated zones.
LIF also provides a detect-nondetect field
screening capability relative to a specified
detection limit derived for a specific fuel product
on a site-specific soil matrix. In addition, LIF
provides qualitative data derived from
spectrographic data at depths up to 150 feet.
WASTE APPLICABILITY:
SCAPS CPT technology equipped with LIF
sensors can provide real-time qualitative analysis
of subsurface soils. This technology may be
useful in screening soils at oil refineries, tank
farms, and shipyards. The combined
technologies provide substantial cost savings and
quicker analyses compared to conventional
laboratories.
STATUS:
The SCAPS CPT and LIF technologies were
demonstrated at two hydrogeologically distinct
field sites under the SITE Characterization and
Monitoring Program. The demonstrations were
conducted at the Hydrocarbon National Test Site
at the Naval Construction Battalion Center in
Port Hueneme, California in May 1995, and the
Steam Plant Tank Farm, Sandia National
Laboratories in Albuquerque, New Mexico in
November 1995. An Innovative Technology
Evaluation Report (ITER) (EPA/540/R-95/520)
was published by EPA.
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February 1999
Completed Project
The SCAPS project is meeting the Navy's goals
of (1) expedited development and regulatory
acceptance, (2) performance of urgently needed
petroleum, oil, and lubricant (POL) field
. screening at Navy facilities, and (3) technology
transfer to industry for widespread use. The
SCAPS LIF technology is certified and verified.
The technology has matured to become a
platform with state-of-the-art sensor technology
and a suite of the latest CPT tools for sampling
and direct push well installations. On August 5,
1996, the California EPA Department of Toxic
Substance Control certified the SCAPS LIF as a
site characterization technology for real-time, in
situ subsurface field screening for' POL
contaminants, pursuant to California Health and
Safety Code, Section 25200.1.5.
Three SCAPS units are performing POL field
screenings, at Navy facilities on a prioritized
basis. These screenings include plume chasing
and plume edge delineation on a finer scale than
has been feasible in the past.
DEMONSTRATION RESULTS:
The results of the SCAPS demonstrations at Port
Hueneme and Sandia National Laboratories were
presented hi the ITER and are summarized
below:
• SCAPS met the demonstration
objective of providing real-time
screening of the physical characteristics
of soil and chemical characteristics of
petroleum hydrocarbon contamination.
• SCAPS achieved better than 90 percent
agreement with the discrete soil
samples and analytical results.
• SCAPS is capable of mapping the
relative magnitude and the vertical and
horizontal extent of subsurface
fluorescent petroleum hydrocarbon
contaminant plumes hi soil and
groundwater.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Bob Lien
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478 .'
Telephone No.: 702-798-2232 -..-
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Stephen Lieberman, Ph.D.
Space and Naval Warfare Systems Center,
San Diego
53560 Hull St., D361
San Diego, CA 92152-5001
Telephone No.: 619-553-2778
Fax: 619-553-6553
The SITE Program assesses but does not
approve or endorse technologies.
Page 65
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
SRI INSTRUMENTS
(Compact Gas Chromatograph)
TECHNOLOGY DESCRIPTION:
The SRI Instruments (SRI) line of compact
single- and dual-oven portable gas
chromatographs (GC) are designed for on-site
and laboratory analysis of organic compounds in
soil, water, air, and other matrices. SRI GCs are
equipped with ambient-to-400 °C programmable
column ovens and electronic pressure/pneumatic
control (EPC) of all system gases. These GCs
include built-in, serially interfaced (RS-232) data
acquisition unit that permits use of desktop,
notebook, and palmtop PCs and software
versions for Windows 3.1 I/Windows NT 4.00,
and Windows '95/'98 (Y2K compliant). SRI
GCs are equipped with a standard on-column
injection port that accepts packed and capillary
columns, and systems may be equipped with
multiple injectors and detectors for series or
independent operation, as required by the
application. Automated gas sampling,
split/splitless injection, Method 5035/5030
compliant purge-and-trap concentration, and
liquid autosampling carousels are available as
options. SRI also manufactures external detector
units that may be connected to other host GCs by
means of a heated transfer line (provided), or
used in stand-alone monitoring applications such
as continuouis monitoring of stack THC
emissions and chlorinated compounds.
WASTE APPLICABILITY:
The SRI GCs can monitor airborne emissions
from hazardous waste sites and other emission
sources before, during, and after remediation.
They can also analyze soil, water, and gas
samples for organic contaminants such as
benzene, toluene, ethylbenzene, xylene,
polychlorinated biphenyls, and pesticides. Their
performance characteristics in the field have been
proven by a large private, commercial, and
government user base.
Compact Gas Chromatograph
Page 66
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February 1999
Completed Proiect
STATUS:
The SRI model 8610 GC was evaluated in
January 1992 at a Superfund site under
remediation. Results from this demonstration are
presented in a peer-reviewed article entitled
"Evaluation of Portable Gas Chromatographs" in
the Proceedings of the 1993 U.S. EPA/Air and
Waste Management Association International
Symposium, VIP-33, Volume 2, 1993.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Richard Berkley
U.S. Environmental Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-2439
Fax: 919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
Douglas Gavilanes
SRI Instruments
20720 Earl Street
Torrance, CA 90503
Telephone No.: 310-214-5092
Fax: 310-214-5097
E-Mail: site@srigc.com
Internet: http://www.srigc.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 67
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
STRATEGIC DIAGNOSTICS, INC,
(formerly ENSYS ENVIRONMENTAL PRODUCTS,
(EnSys Penta Test System)
INC.)
TECHNOLOGY DESCRIPTION:
The Ensys Penta Test System is designed to
quickly provide semiquantitative results for
pentachlorophenol (PCP) in soil and water
samples. The system is shown in the photograph
below. The technology uses immunoassay
chemistry to produce compound-specific
reactions that detect and quantify PCP.
Polyclonal antibodies are fixed to the inside wall
of a test tube, where they offer binding sites for
PCP. An enzyme conjugate containing a PCP
derivative is added to the test tube to compete
with sample PCP for antibody binding sites.
Excess sample and enzyme conjugate are washed
from the test tube. Reagents are then added to
the test tube to react with the enzyme conjugate,
forming a color. After a designated time period,
a solution is added to the test tube to stop color
formation. The sample color is compared to the
color formed by a PCP standard. A differential
photometer compares the colors. The results
obtained from soU samples are compared against
a standard to determine the detection levels.
The system can be affected by extremes of
naturally occurring matrix effects such as humic
acids, pH, or salinity. Site-specific matrix effects
that can affect the system include PCP carriers
such as petroleum hydrocarbons or solvents; and
other chemicals used in conjunction with PCP,
including creosote, copper-chromium-arsenate,
or herbicides. Specific chemicals similar in
structure to PCP can provide positive results, or
cross reactivity.
WASTE APPLICABILITY:
The PCP immunoassay measures PCP concen-
trations in soil and water. For semiquantitative
soil analysis, the concentration ranges are as
follows: greater than 50 parts per million (ppm),
EnSys Penta Test System
Page 68
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approve or endorse technologies.
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February 1999
Completed Proiect
between 50 and 5 ppm, between 5 and 0.5 ppm,
and less than 0.5 ppm. For water-analysis, the
concentration ranges are as follows: greater than
5,000 parts per billion (ppb), between 5,000 and
500 ppb, between 500 and, 5 ppb, and less than 5
ppb. These ranges can be customized to a user's
needs. --
STATUS:
The SITE demonstration occurred in summer
1993 at Morrisville, North Carolina. Samples
collected from Winona, Missouri were
transported to the demonstration location for
testing. Samples from both sites were analyzed
to evaluate the effects of different sample
matrices and of different PGP carriers such as
diesel fuel and isopropyl ether-butane. During
the demonstration, the PENTA RISc Test System
analyzed 112 soil samples and 16 water samples.
The Innovative Technology Evaluation Report
(EPA/540/R-95/514), which details results from
the demonstration, is available from EPA.
The PENTA RISc Test System has been accepted
under Solid Waste Method 4010 (SW-846, third
edition, second update). In the 4 years that it has
been available, more than 12,000 immunoassay-
based tests have been used on wood preserving
sites.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Jeariette Van Emori
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2154
Fax:702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Tim,Lawruk
Strategic Diagnostics, Inc.
Ill Pencader Drive
Newark, DE 19702
Telephone No.: 800-544-8881
Telephone No.: 302-456-6789
Fax:302-456-6782
Web: www.sdix.com
Email: techservice@sdix.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 69
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
STRATEGIC DIAGNOSTICS INC.
(Formerly EnviroGard Corporation)
(EnviroGard™ PCB Immunoassay Test Kit)
TECHNOLOGY DESCRIPTION:
The EnviroGard™ polychlorinated biphenyl
(PCB) immunoassay test kit rapidly analyzes for
PCB concentrations in samples of soil or
sediment. The operating procedure for this
competitive enzyme-linked immunoassay kit is
shown in the figure below.
Soil sample extracts are prepared using the
EnviroGard™ Soil Extraction Kit and methanol.
These extracts and assay calibration solutions are
added to plastic test tubes coated with antibodies.
PCB-enzyme conjugate is added to each test tube.
The test tubes then stand for 15 minutes. The
antibodies in each test tube bind with either PCB
molecules or enzyme conjugate. Next, the tubes
are washed to remove any material not bound to
the antibodies. A clear substrate/chromogen
solution is then added to each tube, and the tubes
are allowed to stand for 5 minutes. Any enzyme
conjugate bound to the tubes colors the clear
substrate blue. A deeper shade of blue in the test
tube indicates a lower PCB concentration. The
color intensity in the test tubes is measured at 450
nanometers using a small portable photometer.
The color intensity is compared to one or more
of the four calibrator solutions included in the kit
Principles of the Test
Incubation 1:
Sample and conjugate are added
to the tube and compete for a
limited number of specific
binding sites on the
immobilized antibodies.
Wash:
Unbound Compounds are washed
away, leaving only analyte and
conjugate bound to antibodies.
Incubation 2:
Colorless substrate and chromogen
are converted to color in proportion
to amount of bound enzyme.
Less color means more analyte.
E-> <
. 4-E
_V^
HI H>-
HN »-
S^ ,C°lor
HI Hh-
A. ~ Analyte
V =Anti-Analyte
1 Antibody
E-^ = Enzyme
Conjugate
S = Substrate
C = Chromogen
Test Kit Procedure
Page 70
The SITE Program assesses but does not
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February 1999
Cdm-bleted Prniect
to yield data allowing classification above or
below 1, 5, 10, or 50 parts per million (ppm).
Up to 18 sample extracts can be analyzed in less
than 30 minutes. Millipore Corporation
(Millipore) can provide optional protocols for
quantitative analysis of specific Aroclors or for
testing sediment, water, or soil samples.
WASTE APPLICABILITY:
The EnviroGard™ PCB test kit measures PCB
concentrations in soil or sediment. The test is
calibrated to screen for Aroclors 1016, 1232,
1242, 1248, 1254, and 1260 at greater than
95 percent confidence interval.
STATUS:
In 1991, the EnviroGard™ PCB test kit was used
to screen and quantify PCB contamination in soils
at a SITE demonstration of a solvent extraction
system in Washburn, Maine. Soil containing over
50 ppm PCB was required for the demonstration
at the Washburn, Maine site. Calibrators at the
5 and 50 ppm level were used to evaluate the
kit's potential for segregating soils. Additional
tests were performed on dilutions of the soil
extracts to evaluate quantitative performance.
Highly contaminated soils were easily identified,
and quantitative tests provided correlation to
contaminant levels obtained by off-site laboratory
analysis using EPA Method 8080.
The Innovative Technology Evaluation Report
(EPA/540/R-95/517) is available from EPA. The
kit was also demonstrated at a U.S. Department
of Energy (DOE) site in Kansas City, Missouri.
Soils contaminated with Aroclor 1242 in ranges
from nondetectable to greater than 1,000 ppm
were analyzed with the test kit at the DOE
facility. Over 200 assays of environmental
samples and calibrators were performed to
evaluate correlation with both on-site and off-site
laboratory gas chromatograph data. Final
evaluation of the data is presented in the
Technology Evaluation Report.
The EnviroGard™ PCB test kit has been accepted
by the EPA Office of Solid Waste for inclusion in
SW-846 as Method 4020.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGERS:
Stephen Billets or Jeanette Van Emon
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
702-798-2232 or 702-798-2154
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Barbara Young
Analytical Division
Millipore Corporation
80 Ashby Road
Bedford, MA 01730
617-533-5207
Fax: 617-533-3135
The SITE Program assesses but does not
approve or endorse technologies.
Page 77
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
STRATEGIC DIAGNOSTICS,INC.
(formerly OHMICRON CORPORATION)
(RaPID Assay®)
TECHNOLOGY DESCRIPTION:
The RaPID Assay® kit is designed to quickly
provide quantitative results for pentachlorophenol
(PCP) concentrations in soil and water samples.
The kit uses immunoassay chemistry to produce
detectable and quantifiable compound-specific
reactions for PCP, as shown in the figure below.
Polyclonal antibodies bound to paramagnetic
particles are introduced into a test tube where
they offer binding sites for PCP. An enzyme
conjugate containing a PCP derivative is added to
the test tube, where it competes with PCP from
samples for antibody binding sites. A magnetic
field is applied to each test tube to hold the
paramagnetic particles containing PCP and
enzyme conjugate, while excess sample and
enzyme conjugate are washed from the test tube.
Reagents are then added to the test tube, where
they react with the enzyme conjugate and form a
color. The color formed in the sample is
compared to the color formed by PCP calibration
standards. The comparison is made with a
spectrophotometer. Samples with PCP
concentrations above the calibration range can be
diluted and reanalyzed.
The RaPID Assay® kit has several advantages
and limitations when used under field conditions.
The method is field portable, easy and fast to
operate, and inexpensive. The RaPID Assay® kit
is limited hi that (1) electricity is required to
operate the spectrophotometer, (2) the
immunoassay method may be affected by
temperature fluctuations, and (3) cross-reactivity
may occur for compounds similar to PCP.
Legend
O (
0—•
A
n
Magnetic Particle with
Antibody Attached
Pentachlorophenol
Enzyme Conjugate
Pentachiorophenol
Chromogen/Substrate
Colored Product
« - *
A
1. Immunplogical Fleaction
2. Separation
3. Color Development
RaPID Assay®
Page 72
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approve or endorse technologies.
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February 1999
Completed Prniect
WASTE APPLICABILITY:
The RaPID Assay® kit can be used to identify
and quantify PCP in soil and water samples. The
developer reports the detection limit for soils at
0.1 part per million and water samples at 0.06
part per billion.
STATUS:
The RaPID Assay® kit was evaluated during a
SITE field demonstration in Morrisville, North
Carolina hi August 1993. A photograph of the
kit is shown below. In addition, samples
collected from a location in Winona, Missouri
were analyzed to evaluate the effects of different
matrices and PCP carriers. The Innovative
Technology Evaluation Report (EPA/540/R-95/514),
which details results from the demonstration, is
available from EPA.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Jeanette Van Eriion
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2154
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACT:
Craig Kostyshyn
Strategic Diagnostics,Inc.
375 Pheasant Run
Newtown, PA 18940
Telephone No.: 215-860-5115, ext. 634
Fax: 215-860-5213
RaPID Assay Used During the SITE Demonstration
The SITE Program assesses but does not
approve or endorse technologies.
Page 73
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
TN SPECTRACE
(TN 9000 and TN Pb X-Ray Fluorescence Analyzers)
TECHNOLOGY DESCRIPTION:
The TN 9000 X-ray Fluorescence (XRF)
Analyzer (see photograph below) is a field
portable unit that simultaneously analyzes
elements ranging from sulfur to uranium. The
TN Pb Analyzer was designed to analyze for lead
in soil, paint and paint chips, and other matrices.
It can also measure arsenic, chromium, iron,
copper, manganese, and zinc in soils. Both
instruments are compact, lightweight, and do not
require liquid nitrogen. A rechargeable battery
allows the XRF analyzers to be used at remote
sites where electricity is unavailable.
The TN 9000 Analyzer and the TN Pb Analyzer
both use a high-resolution mercuric iodide
detector to provide elemental resolution and low
detection limits. The TN 9000 Analyzer is
equipped with the radioisotope sources iron-55,
cadmium-109, and americium-241, which allow
for identification and quantification of 26
elements. The TN Pb Analyzer is equipped only
with the cadmium-109 source, which allows for
the quantification and identification of the seven
elements listed above.
The TN 9000 Analyzer and TN Pb Analyzer
consist of two main components: a probe and an
electronics unit. The probe is connected to the
electronics unit by a flexible cable that allows
analysis of soil samples in the in situ or intrusive
modes. The probe contains the detector and
excitation sources and weighs approximately
4 pounds. The electronics unit contains a 2,048-
multichannel analyzer for spectral analysis. A
maximum of 300 sets of results and 120 spectra
can be stored in the TN 9000 before downloading
TN 9000 X-Ray Fluorescence Analyzer
Page 74
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Comuleted Prniprt
to a personal computer (PC). A maximum of
600 sets of results and 100 spectra can be stored
in the TN Pb Analyzer before downloading to a
PC.
All elemental concentrations are displayed in
parts per million on the liquid crystal display
(LCD) of the electronic console. The electronics
unit weighs approximately 15 pounds and can be
carried in the field in a water- repellant carrying
case. The electronic unit is battery-powered and
can run up to 8 hours on a full charge.
Both instruments incorporate user-friendly,
menu-driven software to operate the instrument.
The TN 9000 Analyzer and TN Pb Analyzer are
calibrated using fundamental parameters, which
is a standardless calibration technique. At the
time of the SITE demonstration, the TN 9000 and
TN Pb Analyzers cost $58,000 and $39,500,
respectively. These costs included all equipment
necessary to operate the instrument. Leasing and
rental options are also available. The TN 9000
Analyzer, using all three excitation sources, is
capable of analyzing 100 samples per day. The
TN Pb Analyzer is capable of analyzing 20 to 25
samples per hour using a 60-second count time
for the cadmium-109 source.
WASTE APPLICABILITY:
The TN 9000 and TN Pb Analyzers can detect
select elements in soil, sediment, filter, and wipe
samples. The TN Pb Analyzer can also detect
lead in paint. Both units can identify select
elements at concentrations ranging from parts per
million to percentage levels in soil samples
obtained from mining and smelting sites, drum
recycling facilities, and plating facilities. These
instruments can provide real-time, on-site
analytical results during field screening and
remediation,operations. XRF analysis is faster
and more cost-effective compared to conventional
laboratory analysis. ,
STATUS:
The TN 9000 and TN Pb Analyzers were
demonstrated under the SITE Program in April
1995. The results were summarized in Technical
Report No. EPA/600/R-97/145, dated March
1998. The instruments were used to identify and
quantify concentrations of metals in soils.
Evaluation of the results yielded field-based
method detection limits, accuracy, and precision
data, from the analysis of standard reference
materials and performance evaluation samples.
Comparability of the XRF results to an EPA-
approved reference laboratory method was also
assessed. The draft fourth update to SW-846
includes Method 6200, dated January 1998,
which is based on this demonstration.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax:702-798-2261
E-mail: billets. stephen@epamail. epa. gov
TECHNOLOGY DEVELOPER CONTACT:
Peter Berry
TN Spectrace
2555 North IH 35
P.O. Box 800
Round Rock, TX 78680-0800
Telephone No.: 512-388-9100
Fax: 512-388-9200
The SITE Program assesses but does not
approve or endorse technologies.
Page 75
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
TRI-SERVICES
(Site Characterization and Analysis Penetrometer System [SCAPS])
TECHNOLOGY DESCRIPTION:
The Tri-Services Site Characterization and
Analysis Penetrometer System (SCAPS) was
developed by the U.S. Army (U.S. Army Corps
of Engineers, Waterways Experiment Station
[WES] and the Army Environmental Center
[AEC]), Navy (Naval Command, Control and
Ocean Surveillance Center), and the Air Force
(Armstrong Laboratory). The U.S. Army holds
a patent for the application of laser sensors
combined with cone penetrometry. The laser-
induced fluorescence (LIF) system used in the
SCAPS was modified from a design developed
by the Navy to detect petroleum, oil, and
lubricant fluorescence in seawater.
A complete cone penetrometer (CPT) truck
system consists of a truck, hydraulic rams
andassociated controllers, and the CPT itself (see
photograph below). The weight of the truck
provides a static reaction force, typically 20 tons,
to advance the CPT. The hydraulic system,
working against the static reaction force,
advances 1-meter-long, 3.57-centimeter-diameter
threaded push rod segments into the ground. The
CPT, which is mounted on the end of the series
of push rods, contains LIF sensors that
continuously log tip stress and sleeve friction.
The data from these sensors are used to map
subsurface stratigraphy. Conductivity or pore
pressure sensors can be driven into the ground
simultaneously. The 20-ton truck is designed
with protected work spaces.
The SCAPS has been modified to provide
automatic grouting of the penetrometer hole
during retraction of the CPT. It can also
decontaminate the push rods as they are retracted
from the soil. The 20-ton CPT system is capable
of pushing standard push rods to depths of
approximately 50 meters.
The main LIF sensor components are as follows:
Nitrogen (N-^) laser
Fiber optic cable
Monochromator to resolve the
fluorescence emission as a function
of wavelength
Photodiode array (PDA) to detect
the fluorescence emission spectrum
and transduce the optical signal into
an electrical signal
optical multichannel analyzer
(OMA) to interface between the
optic system and the computer
system
Computer system
Site Characterization and Analysis Penetrometer System (SCAPS)
Page 76
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
To operate the SCAPS LIP sensor, the CPT is
positioned over a designated penetration point.
The LIP sensor response is checked using a
standard rhodamine solution held against the
sapphire window; sensor response is checked
before and after each penetration. The CPT is
then advanced into the soil.
The SCAPS LIP system is operated with a N2
laser. The PDA accumulates the fluorescence
emission response over 10 laser shots, and the
PDA retrieves an emission spectrum of the soil
fluorescence and returns this information to the
OMA and computer system. The LIP sensor and
stratigraphy data collection are interpreted by the
on-board computer system.
The spectral resolution of the LIP system under
these operating conditions is 2 centimeters. The
fluorescence intensity at peak emission
wavelength for each stored spectrum is displayed
along with the soil classification data.
WASTE APPLICABILITY:
The Tri-Services SCAPS was designed to
qualitatively and quantitatively identify classes of
petroleum, polynuclear aromatic hydrocarbon,
and volatile organic compound contamination in
subsurface soil samples.
STATUS:
The technology field demonstration was held in
EPA Region 7 during September 1994. The
Innovative Technology Evaluation Report
(EPA/540/R-95/520) is available from EPA.
Since the SITE demonstration in 1994, the U.S.
Army has developed the SCAPS Petroleum
Seasor (for detection of fluorescing petroleum,oil
and lubricant contaminants in groundwater and
soil), SCAPS Explosives Sensor (for detection of
nitrogen-based explosive compounds), SCAPS
Hybrid VOC Sensor/Sampler (for detection of
VOCs in soil), SCAPS Metals Sensor (for in situ
detection of meal contaminants in subsurface
media), and a SCAPS Radionuclide Sensor (for
detection of gamma emitting radionuclides in
groundwater, mixed tank wastes, and soil).
These technologies have not been demonstrated
in the SITE Program.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2232
Fax: 702-798-2261
TECHNOLOGY DEVELOPER CONTACTS:
George Robitaille
Army Environmental Center
Building 4430
Aberdeen Proving Ground, MD 21010
Telephone No.: 410-612-6865
Fax: 410-612-6836
JbhriBallard
Waterways Experiment Station
3909 Halls Ferry Road
Vicksburg, MS 39810
Telephone No.: 601-634-2446
Fax: 601-634-2732
The SITE Program assesses but does not
approve or endorse technologies.
Page 77
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
UNITED STATES ENVIRONMENTAL
PROTECTION AGENCY
(Field Analytical Screening Program - PCB method)
TECHNOLOGY DESCRIPTION:
The field analytical screening program (FASP)
polychlorinated biphenyl (PCB) method uses a
temperature-programmable gas chromatograph
(GC) equipped with an electron-capture detector
(BCD) to identify and quantify PCBs in soil and
water. Gas chromatography is an EPA-approved
method for determining PCB concentrations.
The FASP PCB method is a modified version of
EPA SW-846 Method 8080.
In the FASP PCB method for soil samples, PCBs
are extracted from the samples, injected into a
GC, and identified and quantified with an BCD.
Soil samples must be extracted before analysis
begins. Hexane and sulfuric acid are used during
the extraction process, which removes potential
interferences from the soil sample.
Chromatograms for each sample are compared to
the chromatograms for PCB standards. Peak
patterns and retention times from the
chromatograms are used to identify and quantify
PCBs in the soil sample extract. In addition to
the GC, the operator may use an autosampler that
automatically injects equal amounts of the sample
extract into the GC column. The autosampler
ensures that the correct amount of extract is used
for each analysis and allows continual analysis
without an operator. The FASP PCB method
quickly provides results with statistical accuracy
and detection limits comparable to those achieved
by formal laboratories. The method can also
identify individual Aroclors.
Instrumentation and equipment required for the
FASP PCB method are not highly portable.
When mounted in a mobile laboratory trailer,
however, the method can operate on or near most
sites relatively easily. Use of this method
requires electricity, and Aroclor standards
require refrigeration. An exhaust hood and
carrier gases also are needed.
WASTE APPLICABILITY:
The FASP PCB method can identify and quantify
PCBs in soil and water samples.
STATUS:
The FASP PCB method was demonstrated under
the SITE Program at a well-characterized, PCB-
contaminated site. During the demonstration, the
method was used to analyze 112 soil samples, 32
field duplicates, and two performance evaluation
samples. Split samples were submitted to an off-
site laboratory for confirmatory analysis by SW-
846 Method 8080. Data generated by the FASP
PCB method were directly compared with the
data from the off-site laboratory to evaluate the
method's accuracy and precision. In addition,
the operational characteristics and performance
factors of the FASP PCB method were evaluated.
The stated detection limit for the FASB PCB
method is 0.4 parts per million (ppm). During the
demonstration, the method achieved a detection
limit as low as 0.1 ppm. In addition, up to 21
samples were analyzed by the method in an 8-hour
period. The Innovative Technology Evaluation
Report (EPA/540/R-95/516) contains additional
details on the method's demonstration and
evaluation and is available from EPA.
Page 78
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
Completed Project
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Eric Koglin
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2432
Fax: 702-798-2692
TECHNOLOGY DEVELOPER CONTACT:
Howard Fribush
U.S. Environmental Protection Agency
Mail Code 5204G
401 M Street, S.W.
Washington, DC 20460
Telephone No.: 703-603-8831
Fax: 703-603-9112
Fax: 512-388-9200
The SITE Program assesses but does not
approve or endorse technologies.
Page 79
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
UNITED STATES ENVIRONMENTAL
PROTECTION AGENCY
(Field Analytical Screening Program - PCP method)
TECHNOLOGY DESCRIPTION:
The field analytical screening program (FASP)
pentachlorophenol (PCP) method uses a gas
chromatograph (GC) equipped with a megabore
capillary column and either a flame ionization
detector (FID) or an electron-capture detector
(BCD) to identify and quantify PCPs. Gas
chromatography is an EPA-approved method for
determining PCP concentrations in soil, water,
and waste samples. The FASP PCP method is an
abbreviated, modified version of these methods.
Soil and water samples require extraction before
GC analysis. To remove interferences caused by
petroleum hydrocarbons, including PCP carriers
such as mineral spirits, kerosene, diesel fuel, and
fuel oil, an acid-base partition clean-up step is
used. In this step, the method includes petroleum
hydrocarbons that are removed from the reagent
water, while potassium phenates remain in the
reagent water. Sample extracts are injected onto
a GC, separated with a DB-5 megabore capillary
column, and the PCP is identified and quantified
using a FID. The sample extracts are then
compared to standards to determine whether PCP
is present in the sample and, if so, at what
concentration. The FASP PCP method will only
provide high parts per billion detection levels of
PCP in water when an FID is used. To achieve
a lower detection limit, the sample extracts are
reanalyzed using an BCD.
The FASP PCP method is field-portable only in
a mobile laboratory. It should be used indoors in
a temperature-controlled environment. Reagents
required for soil and water sample analyses
require refrigeration and the GC extraction fume
hood requires electricity.
WASTE APPLICABILITY:
The FASP PCP method is designed to provide
quantitative screening results for PCP in water
and soil samples. The FASP PCP method is best
used at sites where PCP is a known contaminant,
where petroleum products are not the carrier
solvents, and where large concentrations of other
organic chemicals are not present in the sample.
STATUS:
The FASP PCP method was demonstrated under
the SITE Program at a well-characterized PCP-
contaminated site. During the demonstration, the
method was used to analyze 98 soil samples, 14
soil field duplicates, 10 water samples, and six
water sample field duplicates. Split samples were
submitted to an on-site laboratory for
confirmatory analysis by the standard EPA-
approved analytical methods. Data generated by
the FASP PCP method were directly compared
with the data from the off-site laboratory to
evaluate the method's accuracy and precision. In
addition, the specificity of the technology was
evaluated.
Page 80
The SITE Program assesses but does not
approve or endorse technologies.
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February 1999
'roiect
Jfevruary
Completed Pi
The demonstration results indicate that the FASP
PCP method requires experienced GC operators
to produce reliable results. The average number
of demonstration samples extracted,
concentrated, and analyzed in one 10-hour day
during the demonstration was 14. The detection
limit reported by this method for soil samples is
0.8 parts per million and 1.0 ppb for water
samples. Generally, if 10 to 20 percent of the
soil samples (not contaminated with petroleum)
are sent to a confirmatory laboratory, the results
from the other 80 to 90 percent can be corrected.
This approach could yield significant savings in
analytical costs. The water analysis portion of
this demonstration produced similar results.
The FASP PCP method was found to be most
affected by the diesel fuel used as a PCP carrier
solvent. A specificity study performed during
the demonstration showed that diesel fuel would
provide a positive response when present at a
concentration of 10 ppm. The Innovative
Technology Evaluation report (EPA/540/R-
95/528) contains additional details on the
method's demonstration and evaluation and is
available from EPA.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Jeanette Van Emon
U.S. Environmental Protection Agency
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
TECHNOLOGY DEVELOPER CONTACT:
Larry Jack
U.S. Environmental Protection Agency
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: (702) 798-2373
Fax: 512-388-9200
The SITE Program assesses but does not
approve or endorse technologies.
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
W.L. GORE AND ASSOCIATES, INC.
(GORE-SORBER® Screening Survey)
TECHNOLOGY DESCRIPTION:
The GORE-SORBER® Screening Survey employs
the use of patented passive soil vapor sampling
devices (GORE-SORBER Modules), which are
made of an inert, hydrophobic, microporous
expanded polytetrafluoroethylene (ePTFE,
similar to Teflon® brand PTFE) membrane. The
membrane transfer of soil and liquid, but allows
the soil gases to move across the membrane for
collection onto engineered sorbents. These
sorbents are designed to minimize the affects of
water vapor and to detect a broad range of VOCs
and SVOCs.
GORE-SORBER® Screening Surveys have been
used successfully at thousands of sites for
determining subsurface areas impacted by VOCs
and SVOCs. Organic compounds commonly
detected include halogenated solvents, straight-
and branched-chain aliphatics, aromatics, and
poly cyclic aromatic hydrocarbons (PAH). Many
of these compounds are associated with a wide
range of petroleum products, including gasoline,
mineral spirits, heating oils, creosotes, and coal
tars. GORE-SORBER® Screening Surveys have
also been used successfully to screen
fornitroaromatic explosives, chemical warfare
agents, precursors, breakdown products, and
pesticides.
The GORE-SORBER® Screening Survey is a
service that includes the manufacturing of the
samplers, the analysis of the samplers (through
thermal desorption, gas chromatography, and
mass selective detection), and a final report that
includes color contour plots of the compounds
detected.
Expanded
PTFE
Insertion
and
Retrieval Soil Surface
Cord
Expanded
PTFE Sorbent
Container
Granular
Sorbent
Insertion
Tool
Sealed Pinch
Pocket for
Insertion Tool
Sealed Bottom End
GORE-SORBER®
Page 82
The SITE Program assesses but does not
approve or endorse technologies.
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February1999
Completed Project
STATUS:
Common applications of the GORE-SOKBER®
Screening Surveys include detection of
compounds to (1) trace soil and groundwater
plumes in porous and fractured media, (2)
monitor progress of subsurface in situ remedial
actions, (3) provide baseline data for real estate
transfer assessments, and (4) reduce groundwater
monitoring costs. Prudent use of this technology
can optimize and reduce soil and groundwater
sampling efforts, resulting in significant cost
savings over the life of site assessment and
remedial action programs.
The GORE-SORBER® Screening Survey was
accepted into the SITE Demonstration Program
in November 1996. The SITE field
demonstration was completed in May 1997.
Since this technology has been accepted into the
SITE program, water quality monitoring and the
design of the GORE-SORBER Module have been
improved.
The SITE demonstration showed that the GORE-
SORBER® Screening Survey is more sensitive
than active soil gas sampling, and therefore more
accurate in terms of detecting and reporting low
concentrations of some compounds. The
technology demonstration also revealed that this
survey is more accurate when the soil conditions
would otherwise restrict the use of active soil gas
methods, for example, where the soil is very
dense or nearly saturated. Additionally, this
sorbent based method provides a more robust
system for sample collection and analysis for
thdse projects that have more stringent data
quality objectives.
Demonstration results are documented in the
"Environmental Technology Verification" report
for the sampler dated August 1998 (EPA/600/R-
98/095).
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Stephen Billets
U.S. Environmental Protection Agency
National Exposure Research Laboratory
Characterization Research Division
P.O. Box 93478
Las Vegas, NV 89193-3478
Telephone No.: 702-798-2261
Fax: 702-798-2261
E-mail: billets.stephen@epamail.epa.gov
TECHNOLOGY DEVELOPER CONTACT:
Ray Fenstermacher
W.L. Gore & Associates, Inc.
100 Chesapeake Boulevard
Elkton, MD 21921
Telephone No.: 410-392-7600
Fax: 410-506-4780
E-mail: rfenster@wlgore.com
The SITE Program assesses but does not
approve or endorse technologies.
Page 83
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Technology Profile
MONITORING AND MEASUREMENTS
TECHNOLOGIES PROGRAM
XONTECH INCORPORATED
(XonTech Sector Sampler)
TECHNOLOGY DESCRIPTION:
The XonTech Incorporated (XonTech) sector
sampler collects time-integrated whole air
samples in Summa™-polished canisters (see
diagram below). The wind sensor directs whole
air, sampled at a constant rate, into either an "in"
sector canister or an "out" sector canister. When
wind velocity exceeds 0.37 meter per second
(m/s) from the direction of the suspected
emissions area (the target), the first canister is
filled. When the wind velocity exceeds 0.37 m/s
from any other direction, the other canister is
filled. When the wind velocity falls below 0.37
m/s, either canister or neither canister may
receive the sample. Over an extended period of
time, a target sample and a background sample
are collected. This method is analogous to
upwind-downwind sampling but does not require
two distinct sites or manual sampler control.
The sampler is portable and can be battery- or
AC-powered. The air samples are analyzed by
gas chromatograph (EPA Method TO-14) for
volatile organic compounds (VOC). The use of
sector samplers enables identification of VOCs
originating from the source and differentiation
between other sources in the vicinity.
WASTE APPLICABILTY:
The XonTech sector sampler can monitor VOC
emissions from hazardous waste sites and other
emission sources before and during remediation.
Short-term sampling can determine which high
concentration compounds are emitted from a site.
Long-term monitoring can assess an emission
source's potential effects on the local population,
providing data to support risk analyses.
OUT SECTOR CANJSTER PRESSURE GAUGE.
30" HQ VACUUM - 30 PSIG
EXHAUSQ
-BUT. SECTOR OUTLET
IN SECTOR CANISTER PRESSURE GUAGE.
30" HG VACUUM - 30 PSIG
Schematic Diagram of the XonTech Sector Sampler
Page 84
The SITE Program assesses but does not
approve or endorse technologies.
-------�
February 1999
Completed Project
STATUS:
The XonTech sector sampler's usabililty has been
demonstrated in two short-term field studies.
This technology has been applied to industrial
emissions as well as emissions from landfill sites*
Mathematical methods for processing data have
been developed and shown to be appropriate.
The sampler is now commercially available.
FOR FURTHER INFORMATION:
EPA PROJECT MANAGER:
Joachim Pleil
U.S. Environmental Protection Agency
National Exposure Research Laboratory
MD-44
Research Triangle Park, NC 27711
Telephone No.: 919-541-4680
Fax:919-541-3527
TECHNOLOGY DEVELOPER CONTACT:
MattYoong
XonTech Incorporated
6862 Hayvenhurst Avenue
VanNuys,CA 91406
Telephone No.: 818-787-7380
Fax; 818-787-8132
The SITE Program assesses but does hot
approve or endorse technologies.
Page &5
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-»«. PRO?
Documents Available from the
US EPA National Risk Management Research Laboratory
Superfund Technology Demonstration Division
General Publications
• SITE Program: Annual Report to Congress 1994 (EPA/540/R-95/522)
• SITE Profiles, Seventh Edition (EPA/540/r-94/526)
• Survey of Materials Handling Technologies Used at Hazardous Waste
Sites (EPA/540/2-91/010)
Interim Status Report U.S. and German bilateral Agreement on Remediation of Hazardous Waste Sites (EPA/540/R-
94/500)
Demonstration Project Results
Accutech Remedial Systems, Inc.--Pneumatic
Fracturing Extraction and Hot Gas Injection,
Phase 1
• Technology Evaluation (EPA/540/R-93/509) PB93-
216596
• Technology Demo. Summary
(EPA/540/SR-93/509)3
• Demonstration Bulletin (EPA/540/MR-93/509)3
• Applications Analysis (EPA/540/AR-93/509)3
PB94-117439
Advanced Remediation Mixing, Inc. (formerly
Chemfix)-Chemical Fixation/Stabilization
• Technology Evaluation Vol. 1
(EPA/540/5- 89/01 la)3 PB91-127696
• Technology Evauation Vol.11
(EPA/540/5-89/011 b)3 PB90-274127
• Applications Analysis (EPA/540/A5-89/011)
• Technology Demo. Summary (EPA/540/S5-89/011)3
• Demonstration Bulletin (EPA/540/M5-89/011 )3
American Combustion, Inc.-Oxygen Enhanced
Incineration
• Technology Evaluation (EPA/540/5-89/008)
• Applications Analysis (EPA/540/A5-89/008)
• Technology Demo. Summary (EPA/540/S5-89/008)3
• Demonstration Bulletin (EPA/540/M5-89/008)3
AWD Technologies, Inc.- Integrated Vapor Extraction
and Steam Vacuum Stripping
• Applications Analysis (EPA/540/A5-91/002)
PB92-218379
• Demonstration Bulletin (EPA/540/M5-91/002)3
Babcock & Wilcox Co-Cyclone Furnace Vitrification
• Technology Evaluation Vol. 1 (EPA/540/R-92/017A)3
PB92-222215
• Technology Evaluation Vol. 11 (EPA/540/R-92/017B)3
PB92-222223
• Applications Analysis (EPA/540/AR-92/017)
PB93-122315
• Technology Demo. Summary (EPA/540/SR-92/017)3
• Demonstration Bulletin (EPA/540/MR-92/011)
Bergman USA-Soil and Sediment Washing System
• Demonstration Bulletin (EPA/540/MR-92/075)
• Applications Analysis (EPA/540/AR-92/075)
Biogenesis Enterprises, Inc.-Soil and Sediment Washing
Processes
• Demonstration Bulletin (EPA/540/MR-93/510)
• Innovative Technology Evaluation Report
(EPA/540/R-93/510)
• SITE Technology Capsule (EPA/540/SR-93/510)3
Bio-Rem, Inc. - Augmented In-Situ Subsurface Biorem
Process
• Demonstration Bulletin (EPA/540/MR-93/527)
BioTroI - Biological Aqueous Treatment System
• Technology Evaluation (EPA/540/5-91/001)3 PB92-
110048
• Applications Analysis (EPA/540/A5-91/001)
PB91-227983
• Technology Demo. Summary (EPA/540/S5-91/001)
• Demonstration Bulletin (EPA/540/M5-91/001)
'Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 87
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Demonstration Project Results (Continued)
BioTrol - Soil Washing System
• Technology Evaluation Vol. 1
fEPA/540/5-91/003a)3PB92-115310
• Technology Evaluation Vol. 11 Part A
fEPA/540/5-91/003b)3 PB92-115328
• Technology Evaluation Vol. 11 Part B
(EPA/540/5-91/003c)3 PB92-115336
• Applications Analysis (EPA/540/A5-91/003)
• Technology Demo. Summary (EPA/540/S5-91/003)
• Demonstration Bulletin (EPA/540/M5-91/003)
Brice Environmental Services Corporation-Bescorp
Soil Washing System Battery Enterprises Site
• Demonstration Bulletin (EPA/540/MR-93/503)
• Applications Analysis (EPA/540/A5-93/503)
Brown and Root Environmental-Subsurface
Volatilization and Ventilation System
• Demonstration Bulletin (EPA/540/MR-94/529)
• Capsule (EPA/540/R-94/529a)
• Innovative Tech. Eval. Report (EPA/540/R-94/529)
Canonic Environmental Services Corporation-Low
Temperature Thermal Aeration (LTTA)
• Demonstration Bulletin (EPA/540/MR-93/504)
• Applications Analysis (EPA/540/AR-93/504)
CeTech Resources, Inc., formerly Chemfix
Technologies, Inc. - Chemical Fixation/Stabilization
• Technology Evaluation Vol. 1
(EPA/540/5-89/01 la) PB91-127696
• Technology Evaluation Vol. 11
(EPA/540/5-89/01 Ib) PB90-274127
• Applications Analysis (EPA/540/A5-89/011)
• Technology Demo. Summary (EPA/540/S5-89/011)3
PB91-921373
• Demonstration Bulletin (EPA/540/M5-89/011)3
CF Systems Corporation-Liquified Gas Solvent
Extraction
• Technology Evaluation Vol. 1 (EPA/540/5-90/002)
• Technology Evaluation Vol. 11 (EPA/540/5-
90/002a)3 PB90-186503
• Applications Analysis (EPA/540/A5-90/002)
• Technology Demo. Summary (EPA/540/S5-90/002)
Chemfix Technologies, Inc. (Now Advanced Remediation
Mixing, Inc.) - Chemical Fixation/Stabilization
• Technology Evaluation Vol. 1 (EPA/540/5- 89/011 a)
PB91-1276962
• Technology Evauation Vol.11 (EPA/540/5-89/0lib)
PB90-2741272
• Applications Analysis (EPA/540/A5-89/011)
• Technology Demo. Summary (EPA/540/S5-89/011)
PB91-9213732
• Demonstration Bulletin (EPA/540/M5-89/0II)3
i , • .
Chemical Waste Management, Inc.-X-TRAX Thermal
Desorption System
• Demonstration Bulletin (EPA/540/MR-93/502)
Clean Berkshires, Inc. (Now Maxymillian Technologies)-
Thermal Desorption System
• Demonstration Bulletin (EPA/540/MR-94/507)
• Capsule (EPA/540/R-94/507a)3
Cognis, Inc. Removal of Lead from Soils
• Demonstration Bulletin (EPA/540/MR-95/535)
Dehydro-Tech Corporation-Carver-Greenfield Process
• Technology Evaluation (EPA/540/R-92/002)3 PB92-
217462
• Applications Analysis (EPA/540/AR-92/002)
• Technology Demo. Summary (EPA/540/SR-92/002)
• Demonstration Bulletin (EPA/540/MR-92/002)
Dupont/Oberlin-Membrane Microfiltration System
• Technology Evaluation (EPA/540/5-90/007)3
PB92-153410
• Applications Analysis (EPA/540/A5-90/007)
• Technology Demo. Summary (EPA/540/S5-90/007)
• Demonstration Bulletin (EPA/540/M5-90/007)
Dynaphore, Inc.- Forager Sponge Technology
• Demonstration Bulletin (EPA/540/MR-94/522)
• Capsule (EPA/540/R-94/522a)
• Innovative Tech. Eval. Rept. (EPA/540/R-94/522)
ECOVA Corporation - Bioslurry Reactor [Pilot-Scale
Demonstration of Slurry-Phase Biological Reactor for
Creosote-Contaminated Wastewater]
• Technology Evaluation Vol. 1
(EPA/540/5-91/009)3 PB93-205532
• Applications Analysis (EPA/540/A5-91/009)
• Technology Demo. Summary (EPA/540/S5-91/009)
• Demonstration Bulletin (EPA/540/M5-91/009)
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
'Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 88
-------�
Demonstration Project Results (Continued)
ELI Eco Logic International, Inc.
- GasPhase Chemical Reduction
• Demonstration Bulletin (EPA/540/MR-93/522)
• Technology Evaluation Vol. 1
(EPA/540/R-93/522a) PB95-100251
• Technology Evaluation Appendices
(EPA/540/R-93/522b)3 PB95-100251
• Applications Analysis (EPA/540/AR-93/522)
• Technology Demo. Summary (EPA/540/SR-93/522)
- Thermal Desorption Unit
• Demonstration Bulletin (EPA/540/MR94/504)
• Applications Analysis (EPA/540/AR-94/504
EnviroMetal Technologies, Inc.-Metal-Enhanced
Abiotic Degradation Technology
• Demonstration Bulletin (EPA/540/MR95/510)
EPOC Water, Inc. - Microfiltration Technology
• Demonstration Bulletin (EPA/540/MR93/513)
• Applications Analysis (EPA/540/AR-93/513)
Filter Flow Technology, Inc. - Colloid Polishing Filter
Method
• Demonstration Bulletin (EPA/540/MR95/501)
• Capsule (EPA/540/R-94/501 a) PB95-122792
• Innovative Tech. Eval. Rept. (EPA/540/R-94/501)
B95-122792
Geo-Con, Inc.-In-Situ Solidification and Stabilization
Process
• Technology Evaluation Vol. 1 (EPA/540/5-89/004a)
• Technology Evaluation Appendices (EPA/540/R-
93/522b)3 PB95-100251
• Technology Evaluation Vol. 11 (EPA/540/5-
89)004b)3 PB89-194179
• Technology Evaluation Vol. Ill (EPA/540/5-
89/004c)3 PB90-269069
• Technology Evaluation Vol. IV (EPA/540/5-
89/004d)3 PB90-269077
• Applications Analysis (EPA/540/A5-89/004)
• Technology Demo. Summary (EPA/540/S5-89/004)
• Technology Demo. Summary, Update Report
(EPA/540/S5-89/004a)
• Demonstration Bulletin (EPA/540/M5-89/004)3
Geosafe Corporation - In-Situ Vitrification
• Demonstration Bulletin (EPA/540/MR94/520)
• Capsule (EPA/540/R-94/520a)3 PB95-177101
• Innovative Tech. Eval. Rept. (EPA/540/R-94/520)
GeoTech Development Corporation - Cold Top
Vitrification
• Demonstration Bulletin (EPA/540/MR-97/506)
GIS/Solutions, Inc. - GIS/KEY Environmental Data
Management System
• Demonstration Bulletin (EPA/540/MR94/505)
• Capsule (EPA/540/SR-94/505)
• Innovative Tech. Eval. Rept. (EPA/540/R-94/505)
PB95-138319
Grace Dearborn Bioremediation Technology
• Demonstration Bulletin (EPA/540/MR-95/536)
• Capsule (EPA/540/R-95/536a)
• Innovative Tech. Eval. Rept. (EPA/540/R-95/536)
Gruppa Italimpresse (developed by Shirco Infrared
Systems, Inc.) - Infrared Incineration
• Technology Evaluation -Peake Oil
(EPA/540/5-88/002a)
• Technology Evaluation Report - Peake Oil Vol. 11
(EPA/540/5-88/002b) PB89-116024
• Technology Evaluation - Rose Township (EPA/540/5-
89/007a) PB89-125991
• Technology Evaluation- Rose Township Vol. 11
(EPA/540/5-89)007b) PB89-167910
• Applications Analysis (EPA/540/A5-89/010)
PB89-233423
• Technology Demo Summary (EPA/540/S5-89/007)3
• Demonstration Bulletin (EPA/540/M5-88/002)3
Hazcon, Inc. (now Funderburk and Assoc.) -
Solidification Process
• Technology Evaluation Vol. 1 (EPA/540/5-89/00la)
PB89-1588103
• Technology Evaluation Vol. 11 (EPA/540/5-89)001b)
PB89-1588283
• Applications Analysis (EPA/540/A5-89/001)
• Technology Demo Summary (EPA/540/S5-89/001 )3
• Demonstration Bulletin (EPA/540/M5-89/001)3
High Voltage Environmental Applications, Inc.
• Demonstration Bulletin (EPA/540/MR-96/504)
• Innovative Tech. Eval. Rept. (EPA/540/R-96/504)
Horsehead Resource Development Co., Inc. - Flame
Reactor
• Technology Evaluation Vol. 1 (EPA/540/5-91/005)
PB92-205855
• Applications Analysis (EPA/540/A5-91/005)
• Technology Demo Summary (EPA/540/S5-91/005)
• Demonstration Bulletin (EPA/540/M5-91/005)
1 Order documents free of charge fay calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 89
-------�
Demonstration Project Results (Continued)
Hrubetz Environmental Services, Inc. - HRUBOUT
Process
• Demonstration Bulletin (EPA/540/MR-93/524)
Huges Environmental Systems, Inc. - Steam Enhanced
Recovery Process
• Demonstration Bulletin (EPA/540/MR94/510)
• Capsule (EPA/540R-94/510a)
• Innovative Tech. Eval. Kept. (EPA/540/R-94/510)
IT Research Institute (Brown and Root
Environmental, Inc.) - Radio Frequency Heating
• Demonstration Bulletin (EPA/540/MR94/527)
• Capsule (EPA/540/R-94/527a)
• Innovative Tech. Eval. Kept. (EPA/540/R-94/527)
International Waste Technologies/Geo-Con, Inc. - In-
Situ Solidification and Stabilization Process
• Technology Evaluation Vol. 1 (EPA/540/5-89/004a)
PB90-1941612
• Technology Evaluation Appendices
(EPA/540/R-93/522b) PB95-1002512
• Technology Evaluation Vol. 11 (EPA/540/5-89/004b)
PB89-1941792
• Technology Evaluation Vol. 111
(EPA/540/5-89/004c) PB90-2690692
• Technology Evaluation Vol. IV (EPA/540/5-89/004d)
PB90-2690772
• Applications Analysis (EPA/540/A5-89/004)
PB90-2690852
• Technology Demo. Summary (EPA/540/S5-89/004)3
• Technology Demo. Summary, Update Report
(EPA/540/S5-89/004a)3
• Demonstration Bulletin (EPA/540/M5-89/004)3
KAI Technologies Inc./Brown and Root
Environmental Radio Frequency Heating
• Demonstration Bulletin (EPA/540/MR-94/528)
• Capsule (EPA/540/R-94/528a)
• Innovative Tech. Eval. Report (EPA/540/R-94/528)!
Magnum Water Technology - CAV-OX Ultraviolet
Oxidation Process
• Demonstration Bulletin (EPA/540/MR-93/520)
• Applications Analysis (EPA/540/AR-93/520)
PB94-189438
• Technology Evaluation Rep. (EPA/540/R-93/520)3
PB95-166161
• Technology Demo Summary (EPA/540/SR-93/520)
Matrix Photocatalytic Ltd. - Photocatalytic Aqueous
Phase Organics Destruction Process
• Innovative Tech. Eval. Report (EPA/540/R-97/503)
Maxymillian Technologies (formerly Clean Berkshires,
Inc.) - Thermal Desorption System
• Demonstration Bulletin (EPA/540/MR-94/507)
• Capsule (EPA/540/R-94/507a)
PB95-12280Q2
New Jersey Institute of Technology - Cold Top
Vitrification Process
• Demonstration Bulletin (EPA/540/MR-97/506)
New York State Multi-Vendor Bioremediation:
- ENSR Consulting & Engineering/Larson Engineers -
Ex-Situ Biovault
• Demonstration Bulletin (EPA/540/MR-95/524)
- R.E. Wright Environmental Inc. - In-Situ
Bioremediation System
• Demonstration Bulletin (EPA/540/MR-95/525)
-SBP Technologies, Inc. And Env. Laboratories, Inc. -
Vacuum-Vaporized Well (UVB) System
• Demonstration Bulletin (EPA/540/MR-96/506)
North American Technologies Group, Inc. - SFC
Oleofiltration System
• Demonstration Bulletin (EPA/540/MR-94/525)
• Capsule (EPA/540/R-94/525a)3 PB95-167227
• Innovative Tech. Eval. Rept. (EPA/540/R-94/525)
Ogden Environmental Services, Inc. (now General
Atomics) - Ogden Circulating Bed Combustor
« Demonstration Bulletin (EPA/540/MR-92/001)
• Technology Evaluation Rep. (EPA/540/MR-92/001)
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
'Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 90
-------�
Demonstration Project Results (Continued)
Peroxidation Systems, Inc. (now Vulcan) - Perox-
Pure™ Chemical Oxidation
• Demonstration Bulletin (EPA/540/MR-93/501)
• Applications Analysis (EPA/540/AR-93/501)
• Technology Evaluation Rep. (EPA/540/R-93/501 )3
PB93-213528
• Technology Demo Summary (EPA/540/SR-93/501)
Resources Conservation Company - The Basic
Extractive Sludge Treatment (B.E.S.T.) - Solvent
Extraction
• Demonstration Bulletin (EPA/540/MR-92/079)
• Applications Analysis (EPA/540/AR-92/079)
• Technology Evaluation-Vol. 1
(EPA/540/R-92/079a) PB93-227122
• Technology Evaluation Vol. 11, Part 1
(EPA/540/R-92/079b)3 PB93-227130
• Technology Evaluation Vol. 11, Part 2
(EPA/540/R-92/079c)3 PB93-227148
• Technology Evaluation Vol. 11, Part 3
(EPA/540/R-92)079d)3 PB93-227155
• Technology Demo Summary (EPA/540/SR-92/079)
Retech, Inc. - Plasma Centrifugal Furnace (Plasma
Arc Vitrification)
• Demonstration Bulletin (EPA/540/M5-91/007)
• Technology Evaluation -Vol. 1
(EPA/540/5-91/007a)3 PB92-216035
• Technology Evaluation Vol. 11 (EPA/540/5-
91/007b)3
PB92-216043
• Applications Analysis (EPA/540/A5-91/007)
PB92-218791
• Technology Demo Summary (EPA/540/S5-91/007)
Risk Reduction Engineering Laboratory
- and IT Corporation - Debris Washing System
• Technology Evaluation-Vol. 1 (EPA/540/5-9 l/006a)
• Technology Evaluation Vol. 11 (EPA/540/5-
91/006b)3
PB91-231464
• Technology Demo Summary(EPA/540/S5-91/006)
- and University of Cincinnati-Hydraulic
Fracturing of Contaminated Soil
• Demonstration Bulletin (EPA/540/MR-93/505)
• Technology Evaluation and Applications Analysis
Combined (EPA/540/R-93/505)
• Technology Demo Summary (EPA/540/SR-93/505)
-and USDA-Forest Products Technology - Fungal
Treatment Technology
• Demonstration Bulletin (EPA/540/MR-93/514)
-Mobile Volume Reduction Unit at the Sand Creek
Superfund Site
• Treatability Study Bulletin (EPA/540/MR-93/512)
-Mobile Volume Reduction Unit at the Escambia
Superfund Site
• Treatability Study Bulletin (EPA/540/MR-93/511)
-Volume Reduction Unit
• Demonstration Bulletin (EPA/540/MR-93/508)
• Applications Analysis (EPA/540/AR-93/508)
• Technology Evaluation (EPA/540/R-93/508)3
PB94-136264
• Technology Demo Summary (EPA/540/SR-93/508)
Rochem Separations Systems, Inc. - Disc Tube Modle
Technology
• Demonstration Bulletin (EPA/540/MR-96/507)
• Capsule (EPA/540/R-96/507a)
• Innovative Tech. Eval. Report (EPA/540/R-96/507)
Roy F. Weston, Inc.
-and IEG Technologies-Unterdruck-Verdampfer-
Brunner Technology (UVB) Vacuum Vaporizing Well
• Demonstration Bulletin (EPA/540/MR-95/500)
• Capsule (EPA/540/R-95/500a)
-Low Temperature Thermal Treatment (LT3) System
• Demonstration Bulletin (EPA/540/MR-92/019)
• Applications Analysis (EPA/540/AR-92/019)
Sandia National Labs - In Situ Electrokinetic Extraction
System
• Demonstration Bulletin (EPA/540/MR-97/509)
SBP Technologies, Inc.^Membrant Filtration and
Bioremediation
• Demonstration Bulletin (EPA/540/MR-92/014)
« Applications Analysis (EPA/540/AR-92/014)
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 91
-------�
Demonstration Project Results (Continued)
Corporation-
Organic/Inorganic
SilicateTechnology
Solidification/Stabilization of
Contaminants
. Demonstration Bulletin (EPA/540/MR-92/010)
• Applications Analysis (EPA/540/AR-92/010)3
PB93-172948
• Technology Evaluation (EPA/540/R-92/010)3
PB95-255709
• Technology Demo Summary (EPA/540/SR-92/010)
Simplot, J.R. - Ex Situ Anaerobic Bioremediation
Technology: TNT
« Demonstration Bulletin (EPA/540/MR-95/529)
• Capsule (EPA/540/MR-95/529a)
• Innovative Tech. Eval. Report (EPA/540/R-95/529)
Simplot, J.R. - Ex-Situ Anaerobic Bioremediation
System (The SABRE Process)
• Demonstration Bulletin (EPA/540/MR-94/508)
. Capsule (EPA/540R-94/508a)
• Innovative Tech. Eval. Report (EPA/540/R-94/508)
Soiltech ATP Systems, Inc.
-Aostra-SoilTech Anaerobic Thermal Process
• Demonstration Bulletin (EPA/540/MR-92/008)
-SoilTech Anaerobic Thermal Processor
• Demonstration Bulletin (EPA/540/MR-92/078)
Soliditech, Inc. - Solidification and Stabilization
• Technology Evaluation -Vol. 1
(EPA/540/5-89/005a)3 PB90-191750
. Technology Evaluation Vol. 11 EPA/540/5-89/005b)3
PB90-191768
• Applications Analysis (EPA/540/A5-89/005)
• Technology Demo Summary (EPA/540/S5-89/005)3
• Demonstration Bulletin (EPA/540/M5-89/005)3
Solucorp - Molecular Bonding System
• Innovative Tech. Eval. Report (EPA/540/R-97/507)
Sonotech, Inc. - Cello Pulse Combustion Burner
System
• Demonstration Bulletin (EPA/540/MR-95/502)
• Capsule (EPA/540/R-95/502a)
TerraKleen Response Group, Inc. - Solvent Extraction
Treatment System
. Demonstration Bulletin (EPA/540/MR-94/521)3
• Capsule (EPA/540/R-94/521a)
Terra Vac, Inc. - In Situ Vacuum Extraction
• Demonstration Bulletin (EPA/540/M5-89/003)3
• Technology Evaluation -Vol. 1
(EPA/540/5-89/003a)3 PB89-192025
• Technology Evaluation Vol. 11 (EPA/540/5-89/003b)3
PB89-192033
• Applications Analysis (EPA/540/A5-89/003)
• Technology Demo Summary(EPA/540/S5-89/003)
Texaco, Inc. - Entrained-Bed Gasification Process
• Demonstration Bulletin (EPA/540/MR-94/514)
• Capsule (EPA/540/R-94/514a)
• Innovative Tech. Eval. Report (EPA/540/R-94/514)
Thorneco, Inc. - Enzyme - Activated Cellulose Technology
. Treataability Study Bulletin (EPA/540/MR-92/018)3
Toronto Harbour Commission - Soil Recycling Treatment
Train
• Demonstration Bulletin (EPA/540/MR-92/015)
• Applications Analysis (EPA/540/AR-93/517)
• Technology Evaluation (EPA/540/R-93/517)3
PB93-216067
• Technology Demo Summary (EPA/540/SR-93/517)
Toxic Treatments USA, Inc. (Now NOVATERRA, Inc.) -
In-Situ Steam/Hot Air Stripping
• Demonstration Bulletin (EPA/540/M5-90/003)
• Applications Analysis (EPA/540/A5-90/008)
Ultrox, a Division of Zimpro Environmental, Inc. - UV
Ozone Treatment for Liquids
• Demonstration Bulletin (EPA/540/M5-89/012)
• Applications Analysis (EPA/540/A5-89/012)
• Technology Evaluation (EPA/540/5-89/012)3
PB90-198177
• Technology Demo Summary (EPA/540/S5-89/012)
U.S. EPA - McColI Superfund Site - Demonstration of a
Trial Excavation
• Technology Evaluation (EPA/540/5-92/015)3
PB92-226448
• Applications Analysis (EPA/540/AR-92/015)
• Technology Demo Summary (EPA/540/SR-92/015)
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
'Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 92
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Demonstration Project Results (Continued)
Wheelabrator Clean Air Systems, Inc. (formerly
Chemical Waste Management, Inc.) -PO*WW*ER™
Technology
• Demonstration Bulletin (EPA/540/MR-93/506)
• Applications Analysis (EPA/540/AR-93/506)
• Technology Evaluation -Vol. 1
(EPA/540/R-93/506a)3 PB94-160637
• Technology Evaluation Vol. 11
(EPA/540/R-93506b)3 PB94-160660
• Technology Demo Summary (EPA/540/SR-93/506)
Zenon Environmental, Inc. - Zenon Cross-Flow
Pervaporation Technology
• Demonstration Bulletin (EPA/540/MR-95/511)
• Capsule (EPA/540/R-95/51 la)
Zenon Environmental Systems - Zenogem Wastewater
Treatment Process
• Demonstration Bulletin (EPA/540/MR-95/503)
• Capsule (EPA/540/R-95/503a)
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
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Telephone 703-487-4650
3 Out of stock
Page93
-------�
Emerging Technologies Program Reports
General Publications
i
Superfund Innovative Technology Evaluation Program: - Innovation Making a Difference
Emerging Tech. Brochure (EPA/540/F-94/505)
Superfund Innovative Technology Evaluation Program: - Technology with an Impact Emerging
Tech. Brochure (EPA/540/F-93/500)
SITE Emerging Technology Program (Brochure) (EPA/540/F-95/502)
ABB Environmental Services, Inc. - Two Zone PCE Bioremediation System
Emerging Tech. Bulletin (EPA/540/F-95/510)
Extraction Treatment System for Treatment of Metal
Contaminated Soils
• Emerging Tech. Report (EPA/540/R-94/513)3 PB94-
188109
• Emerging Tech. Summary (EPA/540/SR-94/513)
Aluminum Company of America (Now Media &
Process Technology) - Bioscrubber for Removing
Hazardous Organic Emission from Soil, Water, and
Air Decontamination Process
• EmergingTech. Report (EPA/540/R- 93/521)3
PB93-227025
• Emerging Tech. Bulletin (EPA/540/F-93/507)
• Emerging Tech. Summary (EPA/540/SR-93/521)
• Journal Article AWMA Vol. 44, No. 3, March 1994
Atomic Energy of Canada, Limited - Chemical
Treatment and Ultrafiltration
• Emerging Tech. Bulletin (EPA/540/F-92/002)
Babcock & Wilcox Co. - Cyclone Furnace (Soil
Vitrification)
• EmergingTech. Report (EPA/540/R- 93/507)
PB93-163038
• Emerging Tech. Bulletin (EPA/540/F-92/010)
• Emerging Tech. Summary (EPA/540/SR-93/507)
Batelle Memorial Institute - In Situ Elecroacoustic
Soil Decontamination
• Emerging Technology (EPA/540/5-90/004)3
PB90-204728
• Emerging Tech. Summary (EPA/540/S5-90/004)3
Bio-Recovery Systems, Inc. - Removal and Recovery
of Metal Ions from Groundwater (AlgaSORB)
• Emerging Technology (EPA/540/5-90/005a)
• Emerging Tech. - Appendices
(EPA/540/5-90/005b)3 PB90-252602
• Emerging Tech. Summary (EPA/540/S5-90/005)
Emerging Tech. Bulletin (EPA/540/F-92/003)
Biotrol, Inc. - Mehanotrophic Bioreactor System
• Emerging Tech. Bulletin (EPA/540/F-93/506)
• Emerging Tech. Summary (EPA/540/SR-93/505)
• Journal Article AWMA Vol. 45, No. 1, Jan. 1995
Center for Hazardous Materials Research - Acid
- Reclamation of Lead from Superfund Waste Material
Using Secondary Lead Smelters
• Emerging Tech. Bulletin (EPA/540/F-94/510)
Emerging Tech. Summary (EPA/540/SR-95/504)
• Emerging Tech. Report (EPA/540/R-95/504)3
PB9-199022
-Simulatanious Destruction of Organics and Stabilization
of Metals in Soils
• Emerging Tech. Summary (EPA/540/SR-98/500)
• Emerging Tech. Report (EPA/540/R-98/500)
PB98-133150
Colorado School of Mines - Constructed Wetlands-Based
Treatment
• Emerging Tech. Bulletin (EPA/540/F-92/001)
• Emerging Tech. Summary (EPA/540/SR-93/523)
• Emerging Tech. Report (EPA/540/R-93/523)3
PB93-233914
University of Dayton Research Institute - Development of
a Photothermal Detoxification Unit
• Emerging Tech. Bulletin (EPA/540/F-95/505)
• Emerging Tech. Summary (EPA/540/SR-95/526)
Emerging Tech. Report (EPA/540/R-95/526)3
PB95.255733
Electro-Pure Systems, Inc. - Alternating Current
Electrocoagulation Technology
• Emerging Tech. Bulletin (EPA/540/F-92/011)
• Emerging Tech. Summary (EPA/540/S-93/504)
. Journal Article AWMA V43, No. 43, May 1993
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
'Out of stock
Page 94
-------�
Emerging Technologies Program Reports
Electokinetics Inc. -Theoretical and Experimental
Modeling of Multispecies.-.Electrokinetic Soil
Processing
• Emerging Tech. Bulletin (EPA/540/F-95/504)
Emerging Tech. Summary (EPA/600/SR-97/054)
Emerging Tech. Report (EPA/600/R-97/054)
PB97-1930562
Energy and Environmental Engineering - Laser-
Induced Photochemical Oxidative Destruction
• Emerging Tech. Bulletin (EPA/540/F-92/004)
Emerging Tech. Summary (EPA/540/SR-92/080)
Emerging Tech. Report (EPA/540/R-92/080)3
PB93-131431
Energy and Environmental Research Corporation -
Hybrid Fluidized Bed System
Emerging Tech. Bulletin (EPA/540/F-93/508)
FERRO Corporation - Waste Vitrification Through
Electric Melting
• Emerging Tech. Bulletin (EPA/540/F-95/503)
Florida International University (or Electron Beam
Research Facility)
- Electron Beam Treatment for Removal of Benzene
and Toluene from Aqueous Streams and Sludge
• Emerging Tech. Bulletin (EPA/540/F-93/502)
- Electron Beam Treatment for the Trichloroethylene
and Tetrachloroethylene from Aqueous Stream
Emerging Tech. Bulletin (EPA/540/F-92/009)
-Removal of Phenol from Aqueous Solutions Using
High Energy Electron Beam Irradiation
• Emerging Tech. Bulletin (EPA/540/F-93/509)
Institute of Gas technology
-Chemical and Biological Treatment (CBT)
• Emerging Tech. Bulletin (EPA/540/F-94/504)
-Fluid Extraction-Biological Degradation Process
Emerging Tech. Bulletin (EPA/540/F-94/501)
IT Corporation - Innovative Methods for Bioslurry
Treatment
• Emerging Tech. Bulletin (EPA/540/F-96/505)
Emerging Tech. Summary (EPA/540/SR-96/505)
• Emerging Tech. Report (EPA/540/ R-96/505)
PB97-1768202
IT Corporation - Photolysis/Biodegradation of PCB and
PCDD/PCDF Contaminated Soils
Emerging Tech. Bulletin (EPA/540/F-94/502)
• Emerging Tech. Summary (EPA/540/SR-94/531)
Emerging Tech. Report (EPA/540/R-94/531)3
PB95-159992
IT Corporation - Process for the Treatment of Volatile
Organic Carbon & Heavy-Metal Contaminated Soil
• Emerging Tech. Bulletin (EPA/540/F-95/509)
J.R, Simplot - Anaerobic Destruction of Nitroaromatics
(the SABRE Process)
Journal Article App.Env.Micro, Vol. 58, pp. 1683-89
Matrix Photocatalytic, Inc. - Photocatalytic Water
Treatment
Journal Article (EPA/600/A-93/282)3
PB94-130184
Membrane Technology and Research, Inc. - Volatile
Organic Compound Removal from Air Streams by
Membrane Separation
• Emerging Tech. Bulletin (EPA/540/F-94/503)
M.L. Energia- Reductive Photo-Dechlorination Process
for Safe Conversion of Hazardous Chlorocarbon Waste
Streams
• Emerging Tech. Bulletin (EPA/540/F-94/508)
New Jersey Institute of Technology - GHEA Associates
Process for Soil Washing and Wastewater Treatment
Emerging Tech. Bulletin (EPA/540/F-94/509)
PURUS, Inc. - Photolytic Oxidation Process [Destruction
of Organic Contaminants in Air Using Advanced
Ultraviolet Flashlamps]
Emerging Tech. Bulletin (EPA/540/F-93/501)
• Emerging Tech. Summary (EPA/540/SR-93/si6)
• Emerging Tech. Report (EPA/540/R-93/516)
PB93-205383
Roy F. Weston, Inc. - Ambersorb 563 Adsorbent
Emerging Tech. Bulletin (EPA/540/F-95/500)
Emerging Tech. Summary (EPA/540/SR-95/516)
Emerging Tech. Report (EPA/540/R-95/516) 3
PB95-264164
' Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 95
-------�
Emerging Technologies Program Reports
University of Washington - Metals Treatment at
Superfund Sites by Adsorptive Filtration
• Emerging Tech. Bulletin (EPA/540/F-92/008)
• Emerging Tech. Summary (EPA/540/SR-93/515)
• Emerging Tech. Report (EPA/540/R-93/515)3
PB94-170230
Vortec Corporation - Vitrification
• Published Paper, Glass Production Technol
International, 1994, p. 103 - 106
• Emerging Tech. Summary (EPA/540/S-97/501)4
Wastewater Technology Centre - [A] Cross-Flow
Pervaporation System [for Removal of VOC's from
Contaminated Water]
• Emerging Tech. Bulletin (EPA/540/F-93/503)
• Emerging Tech. Summary (EPA/540/SR-94/512)
• Emerging Tech. Report (EPA/540/R-94/512)3
PB95-170230
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
1 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
Page 96
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
-------�
Measuring and Monitoring Program Reports
Cone Penetrometers
Portable Gas Chromatographs
Loral Rapid Optical Screening Tool (HOST)
• Demonstration Bulletin (EPA/540/MR-95/519)
Innovative Tech. Eval. Report (EPA/540/R-95/519)
Site Characterization Analysis Penetrometer System
(SCAPS)
Demonstration Bulletin (EPA/540/MR-95/520)
Innovative Tech. Eval. Report (EPA/540/R-95/520)
Field Portable X-Ray Fluorescence
HNU Systems SEFA-P Field Portable X-ray Fluorescence
• Innovative Tech. Eval. Report (EPA/600/R-97/144)
Metorex X-Met 920P and 940 Field Portable X-ray
Fluorescence
• Innovative Tech. Eval. Report (EPA/600/R-97/146)
Metorex X-Met 920MP Field Portable X-ray Fluorescence
Innovative Tech. Eval. Report (EPA/600/R-97/151)
Niton XL Spectrum Field Portable X-ray Fluorescence
• Innovative Tech. Eval. Report (EPA/600/R-97/150)
SciTec MAP Spectrum Field Portable X-ray Fluorescence
• Innovative Tech. Eval. Report (EPA/600/R-97/147)
TN Spectrace TN9000 and TN Pb Field Portable X-ray
Fluorescence Analyzers
Innovative Tech. Eval. Report (EPA/600/R-97/145)
Analytical & Remedial Technology Purge and Trap Gas
Chromatographic Manifod System (AVOS)
• Technology Evaluation Report (EPA/600/R-93/109)
Briuker Mobiel Environmental Monitor
Technology Evaluation Report (EPA/600/X-91/079)
Field Analytical Screening Program (FASP) Method for
PCP
Demonstration Bulletin (EPA/540/R-95/528)
Innovative Tech. Eval. Report (EPA/540/MR-95/528)
Field Analytical Screening Program (FASP) Method for
PCB
Demonstration Bulletin (EPA/540/R-95/521)
Innovative Tech. Eval. Report (EPA/540/MR-95/521)
HNU Portable Gas Chromatograph
• Results reported in the Proceedings of the U.S. EPA
Third International Field Screening Symposium
Volume 2, Pages 682-693 (1993)
Photovac Portable Gas Chromatograph
• Results reported in the Proceedings of the U.S. EPA
Third International Field Screening Symposium
Volume 2, Pages 682-693 (1993)
Sentex Portable Gas Chromatograph
• Results reported in the Proceedings of the U.S. EPA
Third International Field Screening Symposium
Volume 2, Pages 682-693 (1993)
SRI Instruments Low Temperature Thermal Desorption
System
• Results reported in the Proceedings of the U.S. EPA
Third International Field Screening Symposium
Volume 2, Pages 682-693 (1993)
1 Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
2 Documents with a PB number are but of stock and
must be ordered by that number at cost from:
National Technical Information Service
5285 Port Royal Road
Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
Page 97
-------�
Measuring and Monitoring Program Reports
Spectrometers
MDA Scientific Long-Path Fourier Transform Infrared
Spectrometer
• Technology Evaluation Report (EPA/600/S3-91'/071)
Xontech, Inc. Canister-based,Sector Sample
• Report (EPA/600/S3-91/071) , '
PCP/PCB Immunoassay Test Kits
Char-N-Soil PCB Test Kit - Dexel
Demonstration Bulletin (EPA/540/MR-95/518) .
• Innovative Tech. Eval. Report (EPA/540/ R-95/518)
EnviroGard PCB Test Kit - Millipore Inc.
• Demonstration Bulletin (EPA/540/MR-95/517)
• Innovative Tech, Eval, Report (EPA/540/ R-95/517)
Millipore Immunoasay Test Kit for PCB
• Demonstration Bulletin (EPA/540/MR-95/517).
• Innovative Tech. Eval. Report (EPA/540/ R-95/517)
PCP Immunoassay Technologies: Ensys Inc. - PENTA
Rise: Ohmicron Corp., - Penta RaPid; Millipore Inc. -
Demonstration Bulletin (EPA/540/MR-95/514)
• Innovative Tech. Eval. Report (EPA/540/R-95/514)
Envirogard
• Demonstration Bulletin (EPA/540/MR-95/515)
Innovative Tech. Eval. Report (EPA/540/ R-95/514)
U-Hanby PCP Test Kit
• Demonstration Bulletin (EPA/540/MR-95/515)
• Innovative Tech. Eval. Report (EPA/540/ R-95/515)
YVestinghouse PCP Test Kit
Technology Evaluation Report (EPA/600/X-90/146)
Soil & Soil Gas Samples
Art's Manufacturing Soil Sampler
• Innovative Tech. Eval. Report (EPA/600/R-98/093)
Clements & Associates Soil Sampler
• Innovative Tech. Eval. Report (EPA/600/R-98/097)
Geoprobe® Soil Sampler
Innovative Tech. Eval. Report (EPA/600/R-98/092)
Simulprobe® Soil Sampler
• Innovative Tech. Eval. Report (EPA/600/R-98/094)
Quandrel Soil Gas Sampler
i : Innovative Tech. Eval. Report (EPA/600/R-98/096)
W.L. Gore & Associates Soil Gas Sampler
• Innovative Tech. Eval. Report (EPA/600/R-98/095)
i Order documents free of charge by calling EPA's
Center for Environmental Research Information
(CERI) at 513-569-7562 or Fax 513-569-8695.
1 Documents with a PB number are out of stock and
must be ordered by that number at cost from:
Page 98
National Technical Information Service
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Springfield VA 22161
Telephone 703-487-4650
3 Out of stock
-------�
O
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I
SITE/NRMRL
SUPERFUND VIDEOTAPE LIBRARY
ORDERING INSTRUCTIONS
To obtain your choice of tapes, complete the order
form on the opposite side of this page. Enclose
the form with your check, made out to Foster
Wheeler Environmental Corporation and mail to:
Foster Wheeler Environmental Corporation
Attn: Ms. Maria Witkowski
8 Peach free Hill Road
Livingston, New Jersey 07039
only PREPAID orders can Be Accepted
For further information, contact
Ms. MtkowsHat 1-800-580^3765
These composite videotapes contain a
number of EPA-produced documentaries
on specific Superiund Innovative lech-
nology Evaluation (SITE) Program dem-
onstrations.
51 Site Program
(€ Technology Demonstrations):
\ECOVA {SHIRCO) Infrared Inciriera-
tion.System, Brandon, EL -3/87
ECOVA (SHIRCO) Infrared Incinera-
tion System, Eose Twp., MI - 3/89
EMTECH (HAZCON) SoHdification
Process, Douglassville, PA -10/87
IWT/GEO-CON In-Situ Stabilization
and Solidification, Hialeah, FL - 4/88
TERRA VAC Vacuum Extraction
System, Groveland, MA- 1/88
CF SYSTEMS Solvent Extraction
Unit, New Bedford, MA - 3/89
52 Site Program
(4 Technology Demonstrations):
OLTUQXUltravioletBadiation and
Oxidation, San Jose, CA - 3/89
BIOTROL Biological Aqueous Ireat-
ment, New Brighton, MN - 9/89
IsrorJEOLSoil WasHng System, New
Brighton, MN- 9/89
aF/KKBLBebrisWasMng System,
HopMnsvifle, KY- 12/89
S3 site Program
<4 Technology Demonstrations):
SOLIDTECH Solidification and
Stabifization, Morganville, NJ - 12/88
zation, daclcamas, OR - 3/89
NOVATERRA (TTUSA) In Situ Steam
and Air Stripping, SanlPedro, €A- 9/
89
AWD Integrated Vapor Extraction/
Steam Vacuum Stripping, Burbank,
<3A-9/90
-------�
I
54 Site program
(4 Technology Demonstrations):
EJ. DUPONTIOBERLIN FILER
Membrane Mcrofiltration, Palmerton,
PA-5/90
HORSEHEAD Flame Reactor, Atlanta,
GA-3/91
RETECH Plasma Centrifugal Fur-
nace, Butte,MT- 7/91
BABCOCK& WILCOX Cyclone Fur-
nace, Alliance, OH -11/91
ss Site Program
(4 Technology Demonstrations):
STC Immobilization of Organic/ Inor-
ganic Contaminants in Soils, Selma, CA
-11/90
TEC Soil Recycle Treatment Train at
Toronto Harbor, Tbronto, Ont., Canada -
5/92
R.C.C. Basic Extractive Sludge Treat-
ment (B.E.S.T.), Grand Calumet River,
Gary, IN-7/92
PEROXWATION SYSTEMS INC.
Purox-Pure Chemical Oxidation Treat-
ment, Altamont Hills, CA - 9/92
56 Site Program
(4 Technology Demonstrations):
BERGMANN Soil/Sediment Washing
Technology, Saginaw Bay, MI - 2/93
BESCORP Soil Washing System,
Fairbanks, AK-8/92
ELI Eco Logic International Inc., Hy-
drogen Reduction Gas-Phase Chemical
Reduction Process, Bay City, ML -11/93
MAGNUM Water Technology CAV-OX
Ultraviolet Oxidation Process, Edwards
AFB,CA-l/94
57 Site Program
(4 Technology Demonstrations):
TEXACO Gasification Process, South El
Monte, CA-6/95
SFC 0.5 Oleofiltration System, Pem-
broke, FL -1/95
ITT Radio Frequency Heating Process,
Kelly AFB, San Antonio, TX - 3/95
KAI Radio Frequency Heating Process,
Kelly Air Force Base, San Antonio, TX-
4/95
R1 RREURCB Research Programs
This composite videotape contains five
documentaries conducted under the
auspices of the Risk Reduction Engi-
neering Laboratory's Releases Control
Branch:
<*> Synthetic Soils Matrix (SSM) Pro-
gram
^> Dioxin and the Mobile Incineration
System
^> Mobile Carbon Regeneration System
•^ Mobile Soils Washing System
^> Mobile In Situ Containment/ Treat-
ment Unit
Mail this form (with check) to:
Foster Wheeler Environmental Corporation
Attn: Ms. Maria WitkowsM
8 Pea ch Tree Hill Road
Livingston, NJ 07039
Videotape Request Form
SI SHE Program Tape
S2 SITE Program Tape
S3 SITE Program Tape
S4 SITE Program Tape
S5 SITE Program Tape
S6 SITE Program Tape
S7 SITE Program Tape
Rl RREI/RCB
Research Programs
Tape
$30.00
$30.00
$30.00
$30.00
$30.00
$30.00
$30,00
$30.00
Shipping &
Handling
Intl
Orders
$5.01) charge
per tape
International
surcharge per tape
$5.00
$10.00
Total Cost ^H
— — '— ^~ ••
Ship to:
Name
Company
Address
City/State/Zip
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-------�
Trade Name Index and Applicability Index
The following pages contain the Trade Name Index and the Applicability Index. The Trade Name Index
cross-references all technologies that are registered or have a copyright, registered trademark, or service
mark. Former company names and former technology names are also cross-referenced in the index. The
volume number is given for each entry, followed by the page number. In addition, all former technology
names are shown with their current names in parentheses.
The Applicability Index is organized by three different levels. The first level is media, the second is waste,
and the third is technology type. The 12 media categories include the following: (1) air, (2) gas, (3)
leachate, (4) liquid, (5) mine tailings, (6) other, (7) sediment, (8) sludge, (9) soil, (10) solids, (11) water,
and (12) wastewater. The 19 contaminant categories include the following: (1) aromatic VOCs, (2)
cyanide, (3) dioxins, (4) explosives, (5) furans, (6) halogenated VOCs, (7) heavy metals, (8) herbicides,
(9) hydrocarbons, (10) metals, (11) other, (12) PAHs, (13) PCBs, (14) PCPs, (15) pesticides, (16)
petroleum hydrocarbons, (17) radionuclides, (18) SVOCs, and (19) VOCs. The 14 technology type
categories include the following: (1) biological degradation, (2) cone penetrometers, (3) field portable x-ray
fluorescence, (4) materials handling, (5) other, (6) physical/chemical, (7) physical/chemical biological
degradation, (8) physical/chemical radioactive waste treatment, (9) physical/chemical thermal desorption,
(10) portable gas chromatographs, (11) solidification/stabilization, (12) spectrometers, (13) test kits, and
(14) thermal destruction.
To use the Applicability Index, a three-step search must be completed. For example, to search for thermal
desorption technologies that clean up soil contaminated with polychlorinated biphenyls, (PCB), first look
under soil, then PCBs, and finally physical/chemical thermal desorption.
Page 101
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-------�
TRADE NAME INDEX
Company/Technology Name
Volume. Page Number
2-PHASE™ EXTRACTION Process V1 180
ABB Environmental Services, Inc. (see Harding Lawson Associates) '. V2 50
Accutech Remedial Systems, Inc. (see ARS Technologies) Vl' 24
Acid Extraction Treatment System " y2' 30
Acoustic Barrier Particulate Separator y2' 43
Active Environmental, Inc yj' 2«
Adsorption-Integrated-Reaction Process y2' 74
Adsorptive Filtration V2 110
AEA Technology Environment y2 jg
AIR-II(Adsorption-Integrated-Reaction)Process '.'.'.'.'.'. VI,200
AIR-II (Adsorption-Integrated-Reaction) Process y2 74
Air-Sparged Hydrocyclone y2' g2
AirSentry Fourier Transform Infrared Spectrometer y3' 2g
ALCOA Separation Technology, Inc. (see Media & Process Technology) V2* 78
AlgaSORB© Biological Sorption " y2' pg
Alternating Current Electrocoagulation Technology y2' g2
Aluminum Company of America (see Media & Process Technology) V2' 78
Ambersorb® 563 Adsorbent ' y2 n6
American Combustion, Inc VI 22
AMS™ Dual-Tube Liner Soil Sampler ................. V3, 16
Anaerobic-Aerobic Sequential Bioremediation of PCE y2' 50
Anaerobic Thermal Processor y 1 \$Q
Analytical and Remedial Technology, Inc y3 ^4
Anodic Stripping Voltammetry for Mercury in Soil.. yj' 55
Arctic Foundations, Inc yi '^Q
Arizona State University/Zentox Corporation y2 jg
ARS Technologies, Inc yi' 24
ART International, Inc y2' 2Q
Art's Manufacturing and Supply V3' jg
Atomic Energy of Canada, Limited (Chemical Treatment and Ultrafiltration) V2^ 22
Atomic Energy of Canada, Limited (Ultrasonic-Aided Leachate Treatment) V2^ 24
Augmented In Situ Subsurface Bioremediation Process yi' 34
Automated Sampling and Analytical Platform ','.'.'.'.'.. V3, 14
Base-Catalyzed Decomposition Process y 1 \ jg
Batch Steam Distillation and Metal Extraction y2 54
Battelle Memorial Institute y2' 2g
Bergmann, A Division of Linatex, Inc yj' 2g
Berkeley Environmental Restoration Center yj' 2g
B.E.S.T. Solvent Extraction Technology yj \Q4
Billings and Associates, Inc VI 30
BiMelze® Mercury Immunoassay y3' jg
Binax Corporation, Antox Division (see Idetek, Inc.) V3;' 45
Bio-Recovery Systems, Inc y2' pg
Bio-Rem, Inc yj' 34
Biofihn Reactor for Chlorinated Gas Treatment y2' 94
BioGenesis Enterprises, Inc Vl' 32
BioGenesisSM Soil and Sediment Washing Process Vl' 32
Biological Aqueous Treatment System , y l' 33
Biological/Chemical Treatment y2' 3g
Page 103
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TRADE NAME INDEX (continued)
Biomineralization of Metals V2, 130
Bionebraska, Inc * V3,18
Bioscrubber V2> 78
Bioslurry Reactor VI, 64
Biotherm Process™ VI, 36
Biotherm, LCC V1> 36
Biotrol® (Biological Aqueous Treatment System) VI, 38
Biotrol® (Soil Washing System) • VI, 40
Biotrol® (Methanotrophic Bioreactor System) V2,28
Bioventing • VI, 208
Brice Environmental Services Corporation VI, 42
Bruker Analytical Systems, Inc V3,20
BWX Technologies, Inc VI,44
Calgon Carbon Advanced Oxidation Technologies VI, 46
Cambell Centrifugal Jig (CCJ) V2> 84
Canonie Environmental Services Corporation (see Smith Environmental Technologies Corporation) VI, 148
Carver-Greenfield Process® for Solvent Extraction of Wet, Oily Wastes (see Biotherm Process™) VI, 36
CAV-OX® Process VI, 108
Center for Hazardous Materials Research (Acid Extraction Treatment System) V2, 30
Center for Hazardous Materials Research (Organics Destruction and Metals Stabilization) V2,32
Center for Hazardous Materials Research (see Concurrent Technologies) V2, 34
Center Pivot Spray Irrigation System VI, 170
CF Systems Corporation. VI, 48
Chelation/Electrodeposition of Toxic Metals from Soils V2, 66
Chemfix Technologies, Inc VI, 50
Chemical and Biological Treatment • • V2, 56
Chemical Treatment and Ultrafiltration V2,22
Chemical Waste Management, Inc. (see OHM Remediation Services Corp.) VI, 178
Chemical Waste Management, Inc. (see Wheelabrator Clean Air Systems, Inc.). VI, 136
Chromated Copper Arsenate Soil Leaching Process V2, 76
Circulating Bed Combustor VI, 80
Clay-Based Grouting Technology • VI, 114
Clean Berkshires, Inc. (see Maxymillian Technologies, Inc.) VI, 112
Clements, Inc V3,24
Cognis, Inc. (TERRAMET® Soil Remediation System) 1 VI, 52
Cognis, Inc. (Biological/Chemical Treatment) V2, 36
Cold-Top Ex Situ Vitrification of Chromium-Contaminated Soils VI, 86
Colloid Polishing Filter Method® (CPFM®) VI, 76
Colorado School of Mines • • VI, 54
Colorado Department of Public Health and Environment VI, 54
Commodore Applied Technologies, Inc • • VI, 56
Compact Gas Chromatograph V3, 66
Concentrated Chloride Extraction and Recovery of Lead V2, 136
Concurrent Technologies ' V2,34
Constructed Wetlands-Based Treatment VI, 54
Coordinate, Chemical Bonding, and Adsorption Process V2, 114
Core Barrel Soil Sampler • • V3, 62
Cross-flow Pervaporation System • VI, 182
Cryogenic Barrier • VI, 190
C-THRU Technologies Corporation V3,22
CURE International, Inc • VI, 58
Page 104
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TRADE NAME INDEX (Continued)
CURE® - Electrocoagulation Wastewater Treatment System VI 58
Cyclone Furnace. Vl' 44
DARAMEND™ Bioremediation Technology Vl' 90
Debris Washing System '.'.'.'.'.'.'.'.'.'. VI 122
Dechlorination and Immobilization VI 78
Dehydro-Tech Corporation (see Biotherm, LCC) '..'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'..VI 36
Desorption and Vapor Extraction System (DAVES) yi 220
Dexsil Corporation V3 26
DOW Environmental, Inc. (See Radian International LLC) '.'.'.'.'.'.'.'.'.'.'.'..VI 138
Duke Engineering and Services, Inc Vj' ^
E.I. Dupont de Nemours and Company, and Oberlin Filter Company ;'.'.'.'.'.'.. VI 60
Dynaphore, Inc yj' g2
Ecova Corporation V1' g4
EET, Inc. (see Active Environmental, Inc.). , Vl' 20
EG&G Environmental, Inc. (See Mactec-SBP Technologies Company, L.L.C.) '.'.','.'.'.'.'.'.'.'.'.'. VI 204
Electro-Pure Systems, Inc '.'.'.'.'.'.'.'. V2 92
Electrochemical Peroxidation of PCB-Contaminated Sediments and Waters '.'.'.'.'.'.'.'.'.'.'.• V2, 98
Electroheat-EnhancedNonaqueous-Phase Liquids Removal VI 196
Electrokinetic Soil Processing VI 66
Electrokinetics, Inc. (Electrokinetic Soil Processing) '....'.'.'.'.'.'.'.'.';'. Vl' 66
Electrokinetics, Inc. (In Situ Bioremediation by Electrokinetic Injection) V2 120
Electron Beam Research Facility, Florida International University and University of Miami
(see High Voltage Environmental Applications, Inc.). VI 94
Eli Eco Logic Inc y/ go
Eli Eco Logic International Inc V1' 7Q
Emflux® Soil-Gas Survey System '.'.'.'.'.'.'.'.'.'.'. V3 54
Energia, Inc. (Reductive Photo-Dechlorination Treatment) ; '.'.'.'.'.'.'. V2 38
Energia, Inc. (Reductive Thermal and Photo-Thermal Oxidation Processes for Enhanced
Conversion of Chlorocarbons) _ V2 J22
Energy and Environmental Engineering, Inc y2' i \i
Energy and Environmental Research Corporation (Hybrid Fluidized Bed System) V2,40
Energy and Environmental Research Corporation (Reactor Filter System) V2' 42
Ensys Penta Test System '.'.'.'.'.'.'.'.'. V3 68
Ensys Environmental Products, Inc. (see Strategic Diagnostic) :'.'.'.'.'.'.'.'. V3 68
Enviro-Sciences Systems, Inc V2' 2o
Envirobond™ Solution y, 222
EnviroGard Corporation (see Strategic Diagnostic) '. V3 70
EnviroGard™ PCB Immunoassay Test Kit '.'.'.'.'.'.'.'.'.'.'.'. V3 70
EnviroMetal Technologies, Inc. (In Situ and Ex Situ Metal-Enhanced Abiotic Degradation of
Dissolved Halogenated Organic Compounds in Groundwater) VI 72
EnviroMetal Technologies, Inc. (Reactive Barrier) VI 194
Environmental Technologies Group, Inc V3 28
Environmental BioTechnologies, Inc y2' 44
Environmental Test Kits " V3' 2g
EPOC Water, Inc Vl' 74
Equate® Immunoassay y3' 4g
Excavation Techniques and Foam Suppression Methods VI 166
Ex Situ Biovault y,' 126
EXXFLOW VI 74
Page 105
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TRADE NAME INDEX (Continued)
Ferro Corporation • V2,46
Field Analytical Screening Program- PCB method ', V3, 78
Field Analytical Screening Program- PCP method V3, 80
Field Portable X-Ray Fluorescence Analyzers , V3,48
Filter Flow Technology, Inc VI, 76
Flame Reactor VI, 96
Fluid Extraction-Biological Degradation Process V2, 58
Fluidized-Bed/Cyclonic Agglomerating Combustor V2, 60
FORAGER® Sponge , VI, 62
Frequency-Tunable Pulse Combustion System VI, 154
Fugro Geosciences, Inc V3, 30
Funderburk & Associates VI, 78
Fungal Degradation Process ,... V2,44
Fungal Treatment Technology VI, 120
Gas-Phase Chemical Reduction Process VI, 68
General Atomics, Nuclear Remediation Technologies Division V2,48
General Atomics VI, 80
Geo-Con, Inc VI, 82
Geo-Microbial Technologies, Inc V2,124
Geokinetics International, Inc ...,., VI, 196
GeoMelt Vitrification VI, 84
Geoprobe Systems (Large Bore Soil Sampler) V3, 32
Geoprobe Systems (Geoprobe Soil Conductivity Sensor) V3, 34
Geoprobe Soil Conductivity Sensor V3, 34
Geosafe Corporation VI, 84
GeoTech Development Corporation VI, 86
GHEA Associates Process V2, 86
GIS\KEY™ Environmental Data Management System VI, 88
GIS\Solutions, Inc VI, 88
GORE-SORBER® Screening Survey V3, 82
Grace Bioremediation Technologies VI, 90
Graseby Ionics, Ltd., and PCP, Inc V3, 36
Gruppo Italimpresse VI, 92
Hanby Environmental Laboratory Procedures, Inc V3, 38
Harding Lawson Associates V2, 48
Hazardous Substance Management Research Center at New Jersey Institute of Technology
and Rutgers, The State University of New Jersey V2, 52
Hazcon, Inc. (see Funderburk & Associates) VI, 78
Hewlitt-Packard Company V3,40
High Voltage Environmental Applications, Inc. (High-Energy Electron Irradiation) VI, 94
High Voltage Environmental Applications, Inc. (High-Energy Electron Beam Irradiation) V2, 54
High-Energy Electron Beam Irradiation V2, 54
High Energy Electron Irradiation VI, 94
HNU Systems Inc. (HNU Source Excited Flourescence Analyzer-Portable [SEFA-P] X-Ray
Fluorescence Analyzer) V3,42
HNU Systems Inc. (HNU GC 311D Portable Gas Chromatograph) V3,44
HNU Source Excited Fluorescence Analyser-Portable [SEFA-P] X-Ray Fluorescence Analyzer V3,42
HNU GC 311D Portable Gas Chromatograph V3,44
Horsehead Resource Development Co., Inc VI, 96
HRUBETZ Environmental Services, Inc VI, 98
Page 106
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TRADE NAME INDEX (Continued)
HRUBOUT® Process V1 9g
Hughes Environmental Systems, Inc VI 100
Hybrid Fluidized Bed System '..'.'.'.'.'.'.'.'.'.'.'.'. V2 40
Hydraulic Fracturing VI 124
Idetek, Inc "" '"".............. V3,46
IIT Research Institute/Brown Root Environmental yj \Q2
In Situ and Ex Situ Metal-Enhanced Abiotic Degradation of Dissolved Halogenated Organic
Compounds in Groundwater VI 72
In Situ and Ex Situ Vacuum Extraction , yj \$Q
In Situ Bioremediation by Electrokinetic Injection , ; Vz' 120
In Situ Bioventing Treatment System V1', 130
In Situ Electrokinetic Extraction System , , yj 224
In Situ Electroacoustic Soil Decontamination V2 26
In Situ Enhanced Bioremediation of Groundwater. . . . VI 198
In Situ Mitigation of Acid Water ..... V2' 108
In Situ Soil Treatment (Steam and Air Stripping).. Vl' 134
In Situ Solidification and Stabilization Process ; .. y'l §2
In Situ Steam Enhanced Extraction Process. y j' 25
In Situ Thermally Enhanced Extraction (TEE) Process VI 216
In Situ Vitrification VI 84
Infrared Thermal Destruction y}' 92
Institute of Gas Technology (Chemical and Biological Treatment) V2? 56
Institute of Gas Technology (Fluid Extraction-Biological Degradation Process) .. '. V2^ 58
Institute of Gas Technology (Fluidized-Bed/Cyclonic Agglomerating Combustor) V2' 60
Institute of Gas Technology (Supercritical Extraction/Liquid Phase Oxidation) V2' 62
Integrated AquaDetox Steam Vacuum Stripping and Soil Vapor Extraction/Reinjection VI, 138
Ion Mobility Spectrometry V3 36
Ionics RCC '.'.'.'.'.'.'.'.'.'.'.'.'..'.'.'.'.'. VI, 104
IT Corporation (Batch Steam Distillation and Metal Extraction) [[ V2 64
IT Corporation (Chelation/Electrodeposition of Toxic Metals from Soils). V2, 66
IT Corporation (Mixed Waste Treatment Process). V2? 68
IT Corporation (Photolytic and Biological Soil Detoxification) "..'..! V2 70
IT Corporation (Tekno Associates Bioslurry Reactor) V2? 72
IT Corporation (Oxygen Microbubble In Situ Bioremediation) V2, 126
ITT Night Vision _ V1' 19g
JMC Environmentalist's Subsoil Probe y3 24
KAI Technologies, Inc./Brown and Root Environmental ,. VI 106
KSE>Inc VI, 200
KSE, Inc V2, 24
Large Bore Soil Sampler y3' 32
Lasagna™ In Situ Soil Remediation .. yj 202
Lasagna™ Public-Private Partnership VI 202
Lewis Environmental Services, Inc./Hickson Corporation. V2 76
Liquid and Soils Biological Treatment. yj \^Q
Liquified Gas Solvent Extraction (LG-SX) Technology . y'i 43
Loral Corporation (see Fugro Geosciences, Inc.) , y3' 3g
Low Temperature Thermal Aeration (LTTA®) VI 148
Low Temperature Thermal Treatment System (LT3®) vi' 174
Low-Energy Extraction Process (LEEP®) . . y2 20
Page 107
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TRADE NAME INDEX (Continued)
MAECTITE® Chemical Treatment Process VI, 228
Mactec-SBP Technologies Company, L.L.C VI, 204
Magnum Water Technology VI, 108
Matrix Photocatalytic Inc. (Photocatalytic Water Treatment) VI, 110
Matrix Photocatalytic Inc. (Photocatalytic Air Treatment) VI, 206
Maxymillian Technologies, Inc VI, 112
Media & Process Technology • • • • V2, 78
Membrane Filtration and Bioremediation VI, 144
Membrane Microfiltration VI, 60
Membrane Technology and Research, Inc V2, 80
Metal Analysis Probe (MAP®) Portable Assayer V3,22
Metal Analysis Probe (MAP®) Spectrum Assayer V3,22
Metals Immobilization and Decontamination of Aggregate Solids (MelDAS) V2, 88
Metals Release and Removal from Wastes • V2,124
Methanotrophic Bioreactor System V2,28
Metorex, Inc • • • V3,48
Microsensor Systems, Incorporated V3, 50
Mixed Waste Treatment Process V2, 68
Mobile Environmental Monitor V3,20
Montana College of Mineral Science and Technology (Air-Sparged Hydrocyclone) V2, 82
Montana College of Mineral Science and Technology (Cambell Centrifugal Jig) V2, 84
Morrison Knudsen Corporation/Spetstamponazhgeologia Enterprises VI, 114
MSI-301A Vapor Monitor '... '. V3, 50
MTI Analytical Instrument, Inc. (see Hewlitt-Packard Company) V3,40
National Risk Management Research Laboratory (Base-Catalyzed Decomposition Process) VI, 116
National Risk Management Research Laboratory (Volume Reduction Unit). VI, 118
National Risk Management Research Laboratory (Bioventing) VI, 208
National Risk Management Research Laboratory and Intech 180 Corporation VI, 120
National Risk Management Research Laboratory and IT Corporation VI, 122
National Risk Management Research Laboratory, University of Cincinnati, and FRX, Inc VI, 124
New Jersey Institute of Technology V2, 86
New York State Department of Environmental Conservation/ENSR Consulting and
Engineering and Larsen Engineers VI, 126
New York State Department of Environmental Conservation/SBP Technologies, Inc VI, 128
New York State Department of Environmental Conservation/R.E. Wright Environmental, Inc.. VI, 130
Niton Corporation V3, 52
North American Technologies Group, Inc VI, 132
Novaterra Associates.. • VI, 134
NoVOCs™ In-Well Stripping Technology '. VI, 204
OHM Remediation Services Corporation (X*TRAX™ Thermal Desorption) VI, 136
OHM Remediation Services Corporation (see IT Corporation) V2, 126
Ohmicron Corporation (see Strategic Diagnostic) V3, 72
Oleophilic Amine-Coated Ceramic Chip VI, 132
Organic Stabilization and Chemical Fixation/Solidification VI, 156
Organics Destruction and Metals Stabilization , V2, 32
Oxygen Microbubble In Situ Bioremediation • • V2, 126
PCB- and Organochlorine-Contaminated Soil Detoxification V2, 104
PE Photovac Voyager Portable Gas Chromatograph V3, 56
PENTA RISc Test System (see Ensys Penta Test System) V3, 68
perox-pure™ Chemical Oxidation Technology - • • • VI, 46
Page 108
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TRADE NAME INDEX (Continued)
Photocatalytic Air Treatment vi 206
Photocatalytic Oxidation with Air Stripping . V2 18
Photocatalytic Water Treatment VI, 110
PhotoCAT™ Process '..'.'.'.'.'.'.'.'.'.'.','. V2 112
Photoelectrocatalytic Degradation and Removal . V2* 138
Photolytic and Biological Soil Detoxification . V2 70
Photolytic Destruction of Vapor-Phase Halogens VI 218
Photolytic Oxidation Process ,.......: V2 102
Photothermal Detoxification Unit V2* 106
Photovac International, Inc (see Photovac Monitoring Instruments) . V3,56
Photovac Monitoring Instruments ... ; vs' 56
Phytokinetics, Inc. (Phytoremediation Process) •..'...- VI 210
Phytokinetics, Inc. (Phytoremediation of Contaminated Soils). vz' 128
Phytoremediation of Contaminated Soils ; ; V2* 128
Phytoremediation of TCE-Contaminated Shallow Groundwater. '.- vi[ 234
Phytoremediation Process , Vl' 210
Phytoremediation Technology VI 212
Phytotech .. _ VI, 212
Pintail Systems, Inc. (Spent Ore Bioremediation Process) vi| 214
Pintail Systems, Inc. (Biomineralization of Metals) V2* 130
Pneumatic Fracturing and Bioremediation Process i V2 52
Pneumatic Fracturing ExtractionSM and Catalytic Oxidation •...'. Vl' 24
PO*WW*ER™ Technology '...'.'.'.'.'.'.'.'.'.'.'.'.'.'. VI, 178
Portable Gas Analyzer/HP Micro GC .-.-' V3,40
Praxis Environmental Technologies, Inc VI 216
Precipitation, Microfiltration, and Sludge Dewatering. VI, 74
Process Technologies Incorporated . _ VI, 218
PSI Technologies, A Division of Physical Sciences Inc V2, 88
Pulse Sciences, Inc. (X-Ray Treatment of Aqueous Solutions) '. V2^ 90
Pulse Sciences, Inc. (X-Ray Treatment of Organically Contaminated Soils). ..." V2, 132
Purus, Inc. (see Thermatrix, Inc.) V2° 102
PYRETON® Thermal Destruction '.'.'.'.. VI, 22
PYROKILN THERMAL ENCAPSULATION Process '...'.'.'.'.'.'.'.'.'.'.'. V2, 100
Quadrel Services, Inc V3 54
Radian International LLC \ VI 138
Radio Frequency Heating (from ITT Research Institute/Brown and Root Environmental) VI, 102
Radio Frequency Heating (from KAI Technologies, Inc./Brown and Root Environmental). VI i 106
Radiometer Analytical Group V3 58
Rapid Optical Screening Tool. ; V3 30
RaPID Assay® .'..'..' V3 72
Reactive Barrier VI 194
Reactor Filter System '. V2 42
RECRA Environmental, Inc.. V2, 92
Recycling Sciences International, Inc.. . . > .'.' VI 220
Reductive Photo-Dechlorination Treatment ' V2, 38
Page 1O9
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TRADE NAME INDEX (Continued)
Reductive Thermal and Photo-Thermal Oxidation Processes for Enhanced
Conversion of Chlorocarbons V2, 122
Remediation Technologies, Inc. (Liquid and Solids Biological Treatment) VI, 140
Remediation Technologies, Inc. (Biofilm Reactor for Chlorinated Gas Treatment) V2, 94
Resource Management & Recovery V2, 96
Rochem Disc Tube™ Module System VI, 142
Rochem Separation Systems, Inc VI, 142
Rocky Mountain Remediation Services, L.L.C VI, 222
The SABRE™ (Simplot Anaerobic Biological Remediation) Process VI, 146
Sandia National Laboratories VI, 224
SBP Technologies, Inc VI, 144
SCAPS Cone Penetrometer | V3, 64
Scentograph Plus II Portable Gas Chromatograph V3, 60
SCITEC Corporation (see C-THRU Technologies Corporation) V3,22
SEFA-P (Source Excited Fluorescence Analyzer-Portable) V3,42
Segmented Gate System V2, 134
Selentec Environmental Technologies, Inc VI, 226
Selentec MAG*SEPSM Technology VI, 226
Sentex Systems, Inc V3, 60
Sevenson Environmental Services, Inc • • • • • VI, 228
Shirco Infrared Systems, Inc. (see Gruppo Italimpresse) VI, 92
Silicate Technology Corporation (see STC Remediation, Inc.) VI, 156
J.R. Simplot Company VI, 146
Simulprobe© Technologies, Inc V3, 62
Site Characterization and Analysis Penetrometer System (SCAPS) V3, 76
Sive Services VI, 230
Smelting Lead-Containing Waste V2, 34
Smith Environmental Technologies Corporation VI, 148
Soil and Sediment Washing VI, 26
Soil Recycling : VI, 164
Soil Rescue Remediation Fluid VI, 232
Soil Separation and Washing Process V2, 16
Soiltech ATP Systems, Inc ....... i. VI, 150
Soil Washing Process . VI, 42
Soil Washing System : VI, 40
Solidification and Stabilization (from Chemfix Technologies, Inc.) VI, 50
Solidification and Stabilization (from Soliditech, Inc.) VI, 152
Solidification and Stabilization (from Wastech, Inc.) VI, 172
Soliditech, Inc VI, 152
Solvated Electron Technology, SET™ Remediation System VI, 56
Solvent Extraction Treatment System VI, 158
Sonotech, Inc [ VI, 154
Space and Naval Warfare Systems Center V3,64
Spent Ore Bioremediation Process VI, 214
SRI Instruments V3, 66
Star Organics, L.L.C VI, 232
State University of New York at Oswego, Environmental Research Center. V2, 98
Steam Injection and Vacuum Extraction VI, 230
Page 110
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TRADE NAME INDEX (Continued)
STC Remediation, Inc . vi 155
Steam Enhanced Recovery Process Vl' 100
Strategic Diagnostic, Inc. (Ensys Penta Test System).. ; V3, 68
Strategic Diagnostic, Inc. (EnviroGard™ PCB Immunoassay Test Kit) V3,70
Strategic Diagnostic, Inc. (RaPid Assay®) , V3 • 72
Subsurface Volatilization and Ventilation System (SVVS®). Vl' 30
Supercritical Extraction/Liquid Phase Oxidation V2= 62
Surfactant Enhanced Aquifer Remediation of Nonaqueous Phase Liquids VI, 192
Svedala Industries, Inc V2 100
TECHXTRACT®Process , '.'.'.'.'.'.'.. VI 20
Tekno Associates Bioslurry Reactor V2* 72
, Terra-Kleen Response Group, Inc VI 158
TERRAMET® Soil Remediation System '..'.'.'.'.'.'.'.. V\, 52
Terra Vac VI, 160
Test Kits for Organic Contaminants hi Soil and Water V3 38
Texaco Gasification Process.. _ vi 162
Texaco Inc VI 162
THERM-O-DETOX® System VI, 116
Thermal Desorption System vi' 112
Thermal Desorption Unit VI 70
Thermatrix, Inc V2 102
Thermo Nutech, Inc ,.; V2' 134
TMA Thermo Analytical, Inc. (See Thermo Nutech, Inc.) V2^ 134
TN 9000 and TN Pb X-Ray Fluorescence Analyzers .... V3,74
TN Spectrace ; .. V3 74
Toronto Harbour Commission , VI 162
Tri-Services V3 76
Trinity Environmental Technologies, Inc V2 104
Two-Zone, Plume Interception, In Situ Treatment Strategy V2, 50
Ultrasonic-Aided Leachate Treatment V2^ 24
Ultraviolet Radiation and Oxidation VI, 168
Ultrox, A Division of Zimpro Environmental, Inc. (see U.S. Filter/WTS Ultrox) VI, 168
United States Environmental Protection Agency (Excavation Techniques and Foam
Suppression Methods) .... VI 166
United States Environmental Protection Agency (Field Analytical Screening Program-PCB Method) V3, 78
United States Environmental Protection Agency (Field Analytical Screening Program-PCP Method) V3^ 80
University of Houston. V2, 136
University of Dayton Research Institute. V2, 106
University of Nebraska-Lincoln Vl[ 170
University of South Carolina V2^ 108
University of Washington V2 110
University of Wisconsin-Madison V2, 138
U.S. Ah- Force , VI 234
U.S. Filter/WTS Ultrox ..'.'..............!.... Vl, 168
U.S. Filter/Zimpro Inc. (see U.S. Filter/WTS Ultrox) VI,' 168
UV Technologies, Inc V2 112
UVB System-Vacuum Vaporized Well VI, 176
Vacuum-Vaporized Well System Vl^ 128
VaporSep® Membrane Process V2 80
Vitrification Process , VI 236
Page 111
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TRADE NAME INDEX (Continued)
Volume Reduction Unit VI, 118
Vortec Corporation • • • • V1> 236
Vulcan Peroxidation Systems, Inc. (see Calgon Carbon Advanced Oxidation Technologies) VI, 46
W.L. Gore and Associates, Inc V3, 82
Waste Vitrification Through Electric Melting V2,46
Wastech, Inc • • • • VI, 172
Western Product Recovery Group, Inc V2,114
Roy F. Weston, Inc. (Low Temperature Thermal Treatment System). . VI, 174
Roy F. Weston, Inc. (Ambersorb® 563 Adsorbent) V2, 116
Roy F. Weston, Inc./IEG Technologies VI, 176
Wheelabrator Clean Air Systems, Inc VI, 178
Xerox Corporation VI, 180
X-Ray Treatment of Aqueous Solutions V2, 90
X-Ray Treatment of Organically Contaminated Soils V2, 132
X*TRAX™ ThepiialDesorption VI, 136
XL Spectrum Analyzer V3> 52
Xontech Incorporated V3» 84
XonTech Sector Sampler V3, 84
ZenoGem™ Process VI, 184
Zenon Environmental Inc. (ZenoGem™ Process) VI, 184
Zenon Environmental Inc. (Cross-flow Pervaporation System) VI, 182
Page 112
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APPLICABILITY I1MDEX
Media
Air
Contaminants
Aromatic VOCs
Dioxins
Treatment Type
Biological
Degradation
Materials Handling
Physical/ Chemical
5ortable Gas
Chromatographs
Spectrometers
thermal Destruction
Materials Handling
'hysical/ Chemical
>eatment
'ortable Gas
Chromatographs
Spectrometers
Technology Vendor
Media & Process
Technology
Remediation
Technologies, Inc.
U.S. EPA
ARS Technologies, Inc.
Energia, Inc.
KSE, Inc.
Matrix Photocatalytic
Inc.
VIembrane Technology
and Research, Inc.
Xerox Corporation
Jruker Analytical
Systems, Inc.
HNU Systems, Inc.
vficrosensor Systems,
hcorporated
lewlitt-Packard
Company Analytical
nstruments
'hotovac Monitoring
nstruments
Sentex Sensing
Technology, Inc.
SRI Instruments
Graseby Ionics, Ltd. and
PCP Inc.
XonTech, Inc.
Sonotech, Inc.
U. of Dayton Research
nstitute
U.S. EPA
Matrix Photocatalytic
nc.
5ruker Analytical
Systems, Inc.
Graseby Ionics Ltd., and
PCP, Inc.
Technology
Bioscrubber
Biofilm Reactor for Chlorinated Gas
Treatment
Excavation Techniques arid Foam
Suppression Methods
Pneumatic Fracturing Extraction and
Catalytic Oxidation ;
Reductive Thermal and
Photo-Thermal Oxidation for
Enhanced Conversion of
Chlorocarbons
Adsorption-Integrated-Reaction
Process
Photocatalytic Air Treatment
VaporSep® Membrane Process
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
'ortable Gas Analyzer
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
on Mobility Spectrometry
XonTech Sector Sampler
'requency-Tunable Pulse Combustion
System
Photothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
'hotocatalytic Air Treatment
VIobile Environmental Monitor
on Mobility Spectrometry
Volume, Page
N"umb Gr
V2.78
V2.94
VI, 166
VI ,24
V2,122
V1.200/
V2,24
VI, 206
V2,80
VI, 180
V3,20
V3.42
V3.50
V3,40
V3.56
V3,60
V3.66
V3,36
V3.84
VI, 154
V2.106
VI, 166
VI ,206
V3,20
V3.36
Page 113
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APPLICABILITY INDEX (continued)
Media
Air
(continued)
Contaminants
Dioxins
(continued)
Furans
Halogenated
VOCs
Treatment Type
Thermal Destruction
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Technology Vendor
Energy and
Environmental Research
Corp.
U. of Dayton Research
Institute
U.S. EPA
Matrix Photocatalytic
[nc.
Bruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Energy and
Environmental Research
Corp.
U. of Dayton Research
Institute
Remediation
Technologies, Inc.
U.S. EPA
Process Technologies,
Inc.
ARS Technologies, Inc.
Arizona State U./ Zentox
Corp.
Energia, Inc.
Energia, Inc.
KSE, Inc.
Matrix Photocatalytic
Inc.
Membrane Technology
and Research, Inc.
Thermatrix, Inc.
Roy F. Weston, Inc.
Xerox Corp.
Bruker Analytical
Systems, Inc.
Photovac Monitoring
Instruments
Sentex Sensing
Technology, Inc.
Technology
Reactor Filter System
Photothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Ion Mobility Spectrometry
Reactor Filter System
Photothermal Detoxification Unit
Biofilm Reactor for Chlorinated Gas
Treatment
Excavation Techniques and Foam
Suppression Methods
Photolytic Destruction of
Vapor-Phase Halogens
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Photocatalytic Oxidation with Air
Stripping
Reductive Photo-Dechlorination
Treatment
Reductive Thermal and
Photo-Thermal Oxidation Processes
for Enhanced Conversion of
Chlorocarbons
Adsorption-Integrated-Reaction
Process
Photocatalytic Air Treatment
VaporSep® Membrane Process
Photolytic Oxidation Process
Ambersorb® 563 Adsorbent
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatosraph
Volume, Page
Number
V2,42
V2,106
VI, 166
VI, 206
V3.20
V3.36
V2,42
V2.106
V2.94
VI, 166
V1.218
VI, 24
V2,18
V2,38
V2,122
V1.200/
V2,24
VI, 206
V2,80
V2.102
V2.116
VI, 180
V3.20
V3,56
V3,60
Page 114
-------�
APPLICABILITY INDEX (continued)
Media
Air
(continued)
Contaminants
Halogenated
VOCs
(continued)
Herbicides
Mercury
Metals
PAHs
PCBs
Treatment Type
Portable Gas
Chromatographs
(continued)
Spectrometers
Thermal Destruction
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Contaminant Survey
systems
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Thermal Destruction
Portable Gas
Chromatographs
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Technology Vendor
SRI Instruments
Graseby Ionics, Ltd.,
and PCP, Inc.
XonTech, Inc.
U. of Dayton Research
Institute
U.S. EPA
Matrix Photocatalytic
Inc.
Bruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
U. of Dayton Research
Institute
Quadrel Srvices, Inc.
U.S. EPA
General Atomics,
Nuclear Remediation
Technologies Division
Matrix Photocatalytic
Inc.
HNU Systems, Inc.
Microsensor Systems,
Incorporated
Hewlitt-Packard
Company
American Combustion,
Inc.
Energy and
Environmental Research
Corporation
Bruker Analytical
Systems, Inc. ,
SRI Instruments
U.S. EPA
Matrix Photocatalytic
Inc.
Bruker Analytical
Systems, Inc. .
HNU Systems, Inc.
Technology
Compact Gas Chromatograph
Ion Mobility Spectrometry
XonTech Sector Sampler
Photothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Ion Mobility Spectrometry
Photothermal Detoxification Unit
Emflux® Soil-Gas Survey System
Excavation Techniques and Foam
Suppression Methods
Acoustic Barrier Particulate
Separator
Photocatalytic Air Treatment
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
Portable Gas Analyzer
PYRETRON® Thermal Destruction
Reactor Filter Systems
Mobile Environmental Monitor
Compact Gas Chromatograph
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Volume, Page
Number
V3.66
V3,36
V3,84
V2.106
VI, 166
VI, 206
V3,20
V3.36
V2.106
V3.54
VI, 166
V2,48
VI, 206
V3.42
V3.50
V3,40
VI, 22
V2,42
V3,20
V3.66
VI, 166
VI, 206
V3.20
V3.42
Page 115
-------�
APPLICABILITY INDEX (continued)
Media
Air
(continued)
Contaminants
PCBs
(continued)
Pesticides
Petroleum
Hydrocarbons
SVOCs
Treatment Type
Portable Gas
Chromatographs
(continued)
Spectrometers
Thermal Destruction
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Portable Gas
Chromatographs
Contaminant Survey
Systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Technology Vendor
Microsensor Systems,
Incorporated
Hewlitt-Packard
Company
Sentex Technology, Inc.
SRI Instruments
Graseby Ionics, Ltd.,
and PCP Inc.
U. of Dayton Research
Institute
U.S. EPA
Matrix Photocatalytic
Inc.
Bruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
Graseby Ionics, Ltd.,
and PCP, Inc.
U. of Dayton Research
Institute
SRI Instruments
Quadrel Srvices, Inc.
U.S. EPA
Process Technologies,
tnc.
ARS Technologies, Inc.
Energia, Inc.
Xerox Corp.
Bruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
XonTech, Inc.
Sonotech, Inc.
'J. of Dayton Research
Institute
Technology
MSI-301A Vapor Monitor
Portable Gas Analyzer
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Ion Mobility Spectrometry
Photothermal Detojcification Unit
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
ton Mobility Spectrometry
Photothermal Detoxification Unit
Compact Gas Chromatographs
Emflux® Soil-Gas Survey System
excavation Techniques and Foam
Suppression Methods
Photolytic Destruction of
Vapor-Phase Halogens
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Reductive Thermal and
Photo-Thermal Oxidation Processes
tor Enhanced Conversion of
Chlorocarbons
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
on Mobility Spectrometry
XonTech Sector Sampler
'requency-Turnable Pulse
Combustion System
Photothermal Detoxification Unit
Volume, Page
Number
V3,50
V3,40
V3.60
V3,66
V3.36
V2.106
VI, 166
VI, 206
V3.20
V3.60
V3.66
V3,36
V2.106
V3,66
V3.54
V1.166
Vl,218
VI, 24
V2.122
VI, 180
V3.20
V3,36
V3.84
VI, 154
V2.106
Page 116
-------�
APPLICABILITY INDEX (continued)
Media
Air
(continued)
Contaminants
SVOCs
(continued)
Treatment Type
Biological
Degradation
Contaminant Survey
systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
'ortable Gas
Chromatographs
Spectrometers
liermal Destruction
Technology Vendor
Media & Process
Technology
Quadrel Srvices, Inc.
U.S. EPA
Process Technologies,
Inc.
ARS Technologies, Inc.
Arizona State U./ Zentox
Corp.
Energia, Inc.
Energia, Inc.
KSE, Inc.
Matrix Photocatalytic
tnc.
Membrane Technology
and Research, Inc.
Thermatrix, Inc.
Roy F. Weston, Inc.
Xerox Corp.
Bruker Analytical
Systems, Inc.
INU Systems, Inc.
tficrosensor Systems,
incorporated
•lewlitt-Packard
Company
'hotovac Monitoring
nstruments
Sentex Sensing
Technology, Inc.
SRI Instruments
Environmental
Technologies Group,
nc.
Graseby Ionics, Ltd.,
and PCP, Inc.
XonTech, Inc.
Sonotech, Inc.
Technology
Bioscrubber
Emflux® Soil-Gas Survey System
Excavation Techniques and Foam
Suppression Methods
Photolytic Destruction of
Vapor-Phase Halogens
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Photocatalytic Oxidation with Air
Stripping
Reductive Photo-Dechlorination
Treatment
Reductive Thermal and
Photo-Thermal Oxidation Processes
for Enhanced Conversion of
Chlorocarbons
Adsorption-Integrated-Reaction
Process
Photocatalytic Air Treatment
VaporSep® Membrane Process
Photolytic Oxidation Process
Ambersorb® 563 Adsorbent
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
'ortable Gas Analyzer
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus H Portable Gas
Chromatograph
Compact Gas Chromatograph
AirSentry Fourier Transform Infrared
Spectrometer
on Mobility Spectrometry
XonTech Sector Sampler
'requency-Tunable Pulse Combustion
System
Volume, Page
Number
V2.78
V3.54
VI, 166
Vl,218
VI, 24
V2.18
V2.38
V2.122
V1.200/
V2.24
VI ,206
V2.80
V2,102
V2.116
VI, 180
V3.20
V3.42
V3.50
V3.40
V3,56
V3,60
V3,66
V3.28
V3.36
V3,84
VI, 154
Page 117
-------�
APPLICABILITY INDEX (continued)
Media
Gas
Contaminants
Aromatic VOCs
Dioxins
Treatment Type
Biological
Degradation
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Technology Vendor
Media & Process
Technology
Remediation
Technologies, Inc.
U.S. EPA
ARS Technologies, Inc.
Energia, Inc.
KSE, Inc.
Matrix Photocatalytic
tnc.
Membrane Technology
and Research, Inc.
Xerox Corp.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Microsensor Systems,
Incorporated
Hewlitt-Packard
Company
Photovac Monitoring
[nstruments
Sentex Sensing
Technology, Inc.
SRI Instruments
Graseby Ionics, Ltd.
XonTech, Inc.
Sonotech, Inc.
U. of Dayton Research
Institute
U.S. EPA
Matrix Photocatalytic
Inc.
Bruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Energy and
Environmental Research
Corp.
Technology
Bioscrubber
Biofilm Reactor for Chlorinated Gas
Treatment
Excavation Techniques and Foam
Suppression Methods
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Reductive Thermal and
Photo-Thermal Oxidation Processes
For Enhanced Conversion of
Chlorocarbons
Adsorption-Integrated-Reaction
process
Photocatalytic Air Treatment
VaporSep® Membrane Process
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
Portable Gas Analyzer
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus n Portable Gas
Chromatograph
Compact Gas Chromatograph
ton Mobility Spectrometry
XonTech Sector Sampler
Frequency-Turnable Pulse
Combustion System
Photothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Ion Mobility Spectrometry
Reactor Filter System
Volume, Page
Number
V2.78
V2.94
VI, 166
VI, 24
V2.122
V1.200/
V2,24
VI ,206
V2,80
VI, 180
V3,20
V3.42
V3.50
V3,40
V3,56
V3.60
V3,66
V3,36
V3,84
VI, 154
V2.106
VI, 166
VI, 206
V3,20
V3.36
V2.42
Page 118
-------�
APPLICABILITY INDEX (continued)
Media
Gas
(continued)
Contaminants
Dioxins
(continued)
Furans
Halogenated
VOCs
Treatment Type
Thermal Destruction
(continued)
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
pectrometers
Technology Vendor
U. of Dayton Research
Institute
U.S. EPA
Matrix Photocatalytic
Inc.
Bruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Energy and
Environmental Research
Corp.
U. of Dayton Research
Institute
Remediation
Technologies, Inc.
U.S. EPA
Process Technologies,
Inc.
ARS Technologies, Inc.
Arizona State U./ Ziaitox
Corp.
Energia, Inc.
Energia, Inc.
KSE, Inc.
Matrix Photocatalytic
nc.
Membrane Technology
and Research, Inc.
Thermatrix, Inc.
loy F. Weston, Inc.
Xerox Corp.
Bruker Analytical
ystems, Inc.
'hotovac Monitoring
nstruments .
entex Sensing
technology, Inc.
RI Instruments
araseby Ionics, Ltd.,
nd PCP. Inc.
Technology
Photothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Ion Mobility Spectrometry
Reactor Filter System
Photothermal Detoxification Unit
Biofilm Reactor for Chlorinated Gas
Treatment
Excavation Techniques and Foam
Suppression Methods
Photolytic Destruction of
Vapor-Phase Halogens
'neumatic Fracturing Extraction™
and Catalytic Oxidation
'hotocatalytic Oxidation with Air
Stripping
Reductive Photo-Dechlorination
"reatment
leductive Thermal and
5hoto-Thermal Oxidation process for
Enhanced Conversion of
Chlorocarbons
Adsorption-Integrated-Reaction
'recess '
Photocatalytic Air Treatment
VaporSep® Membrane Process
hotolytic Oxidation Process
Ambersorb® 563 Adsorbent
-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
'E Photovac Voyager Portable Gas
Chromatograph
centograph Plus II Portable Gas
hromatograph
ompact Gas Chromatograph
on Mobility Spectrometry
Volume, Page
V2.106
VI, 166
VI, 206
V3,20
V3.36
V2.42
V2.106
V2.94
VI, 166
V1.218
VI, 24
V2.18
V2.38
V2.122
V1.200/
V2,24
VI ,206
V2,80
V2.102
V2,116
VI, 180
V3.20
V3.56
V3.60
V3,66
V3.36
Page 119
-------�
APPLICABILITY INDEX (continued)
Media
Gas
continued)
Contaminants
Halogenated
VOCs
continued)
Heavy Metals
Herbicides
Metals
PAHs
PCBs
Treatment Type
Spectrometers
continued)
Thermal Destruction
'ortable Gas
Chromatographs
Materials Handling
'hysical/ Chemical
Treatment
'ortable Gas
Chromatographs
Spectrometers
Thermal Destruction
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Thermal Destruction
Portable Gas
Chromatographs
Materials Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Technology Vendor
XonTech, Inc.
J. of Dayton Research
nstitute
Jruker Analytical
Systems, Inc.
U.S. EPA
Matrix Photocatalytic
Inc.
Jruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
U. of Dayton Research
nstitute
U.S. EPA
General Atomics,
Nuclear Remediation
Technologies Div.
Matrix Photocatalytic
Inc.
HNU Systems, Inc.
Microsensor Systems,
Incorporated
Hewlitt-Packard
Company
American Combustion,
Inc.
Energy and
Environmental Research
Corp.
Bruker Analytical
Systems, Inc.
SRI Instruments
U.S. EPA
Matrix Photocatalytic,
Inc.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Microsensor Systems,
Incorporated
Hewlitt-Packard
Company
Technology
XonTech Sector Sampler
Photothermal Detoxification Unit
Mobile Environmental Monitor
ixcavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Ion Mobility Spectrometry
'hotothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
Acoustic Barrier Particulate
Separator
Dhotocatalytic Air Treatment
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
Portable Gas Analyzer
PYRETRON® Thermal Destruction
Reactor Filter System
Mobile Environmental Monitor
Compact Gas Chromatograph
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
Portable Gas Analyzer
Volume, Page
Number
V3,84
V2.106
V3,20
VI, 166
VI, 206
V3.20
V3.36
V2,106
V1.166
V2.48
VI, 206
V3.42
V3,50
V3,40
VI, 22
V2.42
V3.20
V3,66
VI, 166
VI ,206
V3,20
V3.42
V3.50
V3.40
Page 120
-------�
APPLICABILITY INDEX (continued)
Media
Gas
(contnued)
Contaminants
PCBs
(continued)
Pesticides
Petroleum
Hydrocarbons
SVOCs
VOCs
Treatment Type
Portable Gas
Chromatographs
(continued)
Spectrometers
Thermal Destruction
Material Handling
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Portable Gas
Chromatograph
VTaterial Handling
Physical/ Chemical
Thermal Desorption
'hysical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Biological
)egradation
Materials Handling
"hysical/ Chemical
Thermal Desorotion
Technology Vendor
Sentex Sensing
Technology, Inc.
SRI Instruments
Graseby Ionics, Ltd.,
and PCP, Inc.
U. of Dayton Research
Institute
U.S. EPA
Matrix Photocatalytic,
[nc.
Bruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
Graseby Ionics, Ltd.,
and PCP, Inc.
J. of Dayton Research
hstitute
SRI Instruments
U.S. EPA
'rocess Technologies,
nc.
ARS Technologies, Inc.
inergia, Inc.
Xerox Corp.
Jruker Analytical
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
XonTech, Inc.
Sonotech, Inc.
U. of Dayton Research
Institute
Media & Process
Technology
U.S. EPA
•rocess Technologies,
[nc.
Technology
Scentograph Plus H Portable Gas
Chromatograph
Compact Gas Chromatograph
Ion Mobility Spectrometry
Photothermal Detoxification Unit
Excavation Techniques and Foam
Suppression Methods
Photocatalytic Air Treatment
Mobile Environmental Monitor
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
'an Mobility Spectrometry
Photothermal Detoxification Unit
Compact Gas Chromatograph
ixcavation Techniques and Foam
Suppression Methods
Photolytic Destruction of
Vapor-Phase Halogens
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Reductive Thermal and
'hoto-Thermal Oxidation Processes
br Enhanced Conversion of
Chlorocarbons
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
on Mobility Spectrometry
XonTech Sector Sampler
Frequency-Turnable Pulse
Combustion System
3hotothermal Detoxification Unit
Sioscrubber
ixcavation Techniques and Foam
Suppression Methods
'hotolytic Destruction of
Vapor-Phase Halogens
Volume, Page
NYimb Gr
V3,60
V3,66
V3,36
V2,106
VI, 166
VI, 206
V3,20
V3,60
V3,66
V3,36
V2.106
V3,66
VI, 166
Vl,218
VI, 24
V2,122
VI, 180
V3.20
V3,36
V3,84
VI, 154
V2,106
V2,78
VI, 166
V1.218
Page 121
-------�
APPLICABILITY INDEX (continued)
Media
Gas
(continued)
Ground
water
Contaminants
VOCs
continued)
Aromatic VOCs
Treatment Type
'hysical/ Chemical
Treatment
Portable Gas
Chromatographs
Spectrometers
Thermal Destruction
Biological
Degradation
Technology Vendor
ARS Technologies, Inc.
Arizona State U/ Zentox
Corp.
inergia, Inc.
Energia, Inc.
KSE, Inc.
Matrix Photocatalytic
nc.
Membrane Technology
and Research, Inc.
Thermatrix, Inc.
loy F. Weston, Inc.
Xerox Corp.
Jruker Analytical
Systems, Inc.
HNU Systems, Inc.,
Microsensor Systems,
incorporated
lewlitt-Packard
Company
?hotovac Monitoring
Instruments
Sentex Sensing
Technology, Inc.
SRI Instruments
Environmental
Technologies Group,
tnc.
Graseby Ionics, Ltd.,
and PCP, Inc.
XonTech, Inc.
Sonotech, Inc.
Harding Lawson
Associates
Billings and Associates,
Inc.
Bio-Rem, Inc.
Biotrol®
Technology
•neumatic Fracturing Extraction™
nd Catalytic Oxidation
'hotocatalytic Oxidation with Air
Stripping
Reductive Photo-Dechlorination
'reatment
Reductive Thermal and
Photo-Thermal Oxidation Processes
for Enhanced Conversion of
Chlorocarbons
Adsorption-Integrated-Reaction
'rocess
Photocatalytic Air Treatment
VaporSep® membrane Process
'hotolytic Oxidation Process
Ambersorb® 563 Adsorbent
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
MSI-301A Vapor Monitor
Portable Gas Analyser
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
AirSentry Fourier Transform Infrared
Spectrometer
Ion Mobility Spectrometry
XonTech Sector Sampler
Frequency-Turnable Pulse
Combustion System
Two-Zone, Plume Interception, In
Situ Treatment Technology
Subsurface Volatilization and
Ventilation Systems (SVVS®)
Augmented in Situ Subsurface
Bioremediation Process
Biological Aqueous Treatment
System
Volume, Page
Number
VI ,24
V2,18
V2.38
V2,122
V1.200/
V2,24
VI, 206
V2.80
V2.102
V2,116
VI, 180
V3,20
V3,42
V3.50
V3,40
V3.56
V3,60
V3,66
V3,28
V3,36
V3.84
VI, 154
V2.48
V1.30
V1.34
V1.38
Page 122
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Contaminants
Aromatic VOCs
(continued)
Treatment Type
Biological
Degradation
(continued)
Contaminant Survey
Systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
'reatment
Technology Vendor
Electrokinetics, Inc.
New York State
Department of
Environmental
Conservation/R.E.
Wright Environmental
Inc.
IT Corp.
ZENON Environmental
Inc.
W.L. Gore and
Associates, Inc.
National Risk
Vlanagement Research
Laboratory, The U. of
Cincinnati, and FRX,
inc.
Hughes Environmental
Systems, Inc.
NOVATERRA, Inc. .
lochem Separation
Systems, Inc.
SoilTech ATP Systems,
nc.
ARS Technologies, Inc.
CF Systems Corp.
ligh Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
KSE, Inc.
Matrix Photocatalytic
nc.
Pulse Sciences, Inc.
BP Technologies, Inc.
'erra Vac, Inc.
LT. of Nebraska - Lincoln
Roy F. Weston,
nc./IEG Technologies
Technology
In Situ Bioremediation by
Electrokinetic Injection
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
ZenoGem™ Process
GORE-SORBER Screening Survey
Hydraulic Fracturing
Steam Enhanced Recovery Process
n Situ Soil Treatments (Steam/ Air
Stripping)
Rochem Disc Tube™ Module System
Anaerobic Thermal Processor
Pneumatic Fracturing Extraction™
nd Catalytic Oxidation
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Beam
rradiation
High Energy Electron Irradiation
Adsorption-Integrated-Reaction
'recess
hotocatalytic Water Treatment
X-ray Treatment of Aqueous
olutions
Vlembrane Filtration and
ioremediation
n Situ and Ex Situ Vacuum
Extraction
Center Pivot Spray Irrigation System
LJYB - Vacuum Vaporizing Well
Volume, Page
V2,120
VI, 130
V2.126
VI ,184
V3.82
VI, 124
VI, 100
VI, 134
VI, 142
VI, 150
VI, 24
VI, 48
V2.54
VI, 94
V1.200/
V2,24
VI, 110
V2.90
VI, 144
VI, 160
VI, 170
VI, 176
Page 123
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Contaminants
Aromatic VOCs
continued)
Cyanide
Diesel
Dioxins
Treatment Type
'hysical/Chemical
Treatment
continued)
•ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Xerox Corp.
ZENON Environmental
Inc.
Analytical and Remedial
Technology, Inc.
3ruker Analytical
Systems, Inc.
HNU Systems, Inc.,
lewlitt-Packard
Company
Photovac Monitoring
nstruments
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
rlanby Environmental
Laboratory Procedure,
Inc.
Texaco Inc.
U. of Dayton Research
iistitute
Pintail Systems, Inc.
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
Inc.
Geokinetics
International, Inc.
STVE Services
ELI Eco Logic Inc.
SoilTech ATP Systems,
Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Technology
2-PHASE™ EXTRACTION Process
Cross-Flow Pervaporation System
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Portable Gas Analyzer
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
Texaco Gasification Process
Photothermal Detoxification Unit
Spent ore Bioremediation process
Hydraulic Fracturing
Electroheat-Enhanced Nonaqueous
Phase Liquids Removal
Steam Injection and Vacuum
Extraction
GAS-Phase Chemical Reduction
Process
Anaerobic Thermal Processor
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
Volume, Page
Number
VI ,180
VI, 182
V3.14
V3.20
V3.42
V3.40
V3.56
V3,60
V3,66
V3,78
VI, 178
V3.36
V3,38
VI, 162
V2,106
Vl,214
VI, 124
VI, 196
VI, 230
V1.68
VI, 150
VI, 48
VI, 94
Page 124
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Contaminants
Dioxins
(continued)
Explosives
Furans
Gasoline
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Contaminant Survey
Systems
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
'reatment
Portable Gas
Chromatographs
olidification/
tabilization
pectrometers
est Kits
hermal Destruction
ontaminant Survey
vstems
Technology Vendor
Matrix Photocatalytic.
Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
'nc. Corp.
BWX Technologies, Inc.
U. of Dayton Research
institute
W.L. Gore and
Associates, Inc.
New Jersey Institute of
Technology
U.S. Filter/WTS Ultrox
Eli Eco Logic Inc.
SoilTech ATP Systems,
nc.
CF Systems Corp.
High Voltage
invironmental
Applications, Inc.
Matrix Photocatalytic
nc.
BP Technologies, Inc.
Bruker Analytical
ystems, Inc.
Wheelabrator Clean Air
ystems, Inc.
Graseby Ionics, Ltd.,
nd PCP, Inc.
trategic Diagnostic,
nc. Corp.
WX Technologies, Inc.
CJ. of Dayton Research
nstitute
W.L. Gore and
Associates, Inc.
Technology
Photocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Photothermal Detoxification Unit
GORE-SORBER Screening Survey
GHEA Associates Process
Ultraviolet Radiation and Oxidation
Gas-Phase Chemical Reduction
'rocess
Anaerobic Thermal Processor
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
Photocatalytic Water Treatment
Membrane Filtration and
ioremediation
Mobile Environmental Monitor
O*WW*ERTM Technology
on Mobility Spectrometry
aPID Assay®
yclone Furnace
hotothermal Detoxification Unit
ORE-SORBER Screening Survey
Volume, Page
vi.no
VI, 144
V3.20
VI, 178
V3.36
V3.72
VI, 44
V2.106
V3.82
V2.86
VI, 168
V1.68
VI, 150
V1.48
VI, 94
VI, 110
VI, 144
V3,20
VI, 178
V3.36
V3.72
V1.44
V2.106
V3,82
Page 125
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
continued)
Contaminants
Gasoline
continued)
lalogenated
VOCs
Treatment Type
Materials Handling
Physical/ Chemical
Thermal Desorption
Biological
Degradation
Contaminant Survey
Systems
Materials Handling
Physical Chemical
Treatment -
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Technology Vendor
National Risk
Management Research
Moratory, The U. of
Cincinnati, and FRX,
nc.
IVE Services
ABB Environmental
ervices, Inc.
larding Lawson
Associates
Jio-Rem, Inc.
Biotrol®, Inc.
Electrokinetics, Inc.
New York State
Department of
3nvironmental
Conservation/R.E.
Wright Environmental
foe.
IT Corp.
U.S. Air Force
ZENON Environmental
foe.
W.L. Gore and
Associates, Inc.
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
Inc.
Lasagna™ Public-Private
Partnership
Hughes Environmental
Systems, Inc.
KAI Technologies,
Inc. /Brown and Root
Environmental
New Jersey Institute of
Technology
NOVATERRA, Inc.
SoilTech ATP Systems,
Inc.
Technology
Hydraulic Fracturing
team Injection and Vacuum
Extraction
Anaerobic-Aerobic Sequential
Bioremediation of PCE
Two-Zone, Plume Interception, foe
Situ Treatment Technology
Augmented in Situ Subsurface
Bioremediation Process
Methanotrophic Bioreactor System
n Situ Bioremediation by
Electrokinetic Injection
n Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Jioremediation
'hytoremediation of
TCE-Contaniinated Shallow
Groundwater
ZenoGem™ Process
GORE-SORBER Screening Survey
Hydraulic Fracturing
Lasagna™ In Situ Soil Remediation
Steam Enhanced Recovery Process
Radio Frequency Heating
GHEA Associates Process
In Situ Soil Treatments (Steam/ Air
Stripping)
Anaerobic Thermal Processor
Volume, Page
Number
VI, 124
VI, 230
V2,50
V2,48
Vl,34
V2,28
V2,120
VI, 130
V2.126
V1.234
VI, 184
V3.82
VI, 124
VI, 202
VI, 100
VI, 106
V2.86
VI, 134
VI, 150
Page 126
-------�
APPLICABILITY INDEX (continued)
[Media
=
round
ater
Continued)
Contaminants
^=^=^^==
Halogenated
VOCs
(continued)
Treatment Type
==^=^=^=-
Physical/ Chemical
Treatment
ortable Gas
hromatographs
olidification/
abilization
Technology Vendor
ARS Technologies, Inc.
Arizona State U./ Zento
Corp.
CF Systems Corp,
EnviroMetal
Technologies, Inc.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
KSE, Inc.
Matrix Photocatalytic
nc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
Terra Vac, Inc.
U.S. Filter/WTS Ultrox
U. of Nebraska - Lincoln
UV Technologies, Inc.
Roy F. Weston, Inc.
Roy F. Weston,
nc./IEG Technologies
Xerox Corp.
ZENON Environmental
nc.
Analytical and Remedial
'echnology, Inc.
ruker Analytical
ystems, Inc.
hotovac Monitoring
nstruments
entex Sensing
'echnology, Inc.
RI Instruments
.S. EPA
(Vheelabrator Clean Air
vstems. Inc.
Technology
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Photocatalytic Oxidation with Air
Stripping
Liquified Gas Solvent Extraction
(LG-SX) Technology
In Situ and Ex Situ Metal Enhanced
Abiotic Degradation of Dissolved
Halogenated Organic Compounds in
Groundwater
ligh Energy Electron Beam
Irradiation
High Energy Electron Irradiation
Adsorption-Integrated-Reaction
Process
Photocatalytic Water Treatment
X-ray Treatment of Aqueous
Solutions
Vlembrane Filtration and
Bioremediation
h Situ and Ex Situ Vacuum
Extraction
Ultraviolet Radiation and Oxidation
Center Pivot Spray Irrigation System
hotoCAT™ Process
Ambersorb® 563 Adsorbent
UVB - Vacuum Vaporizing Well
-PHASE™ EXTRACTION Process
Cross-Flow Pervaporation System
Automated Sampling and Analytical
latform
Mobile Environmental Monitor
'E Photovac Voyager Portable Gas
hromatograph
centograph Plus n Portable Gas
hromatograph
ompact Gas Chromatograph
ield Analytical Screening Program -
CB Method
O*WW*ER™ Technology
1 il
Volume, Page
Number
VI, 24
V2,18
VI ,48
Vl,72
V2,54
VI, 94
VI ,2007
V2,24
VI, 110
V2,90
VI, 144
VI, 160 .
VI, 168
VI, 170
V2,112
V2.116
VI, 176
VI, 180
VI, 182
V3.14
V3.20
V3.56
V3,60
V3.66
V3,78
VI, 178
Page 127
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
continued)
Contaminants
lalogenated
VOCs
continued)
Heavy Metals
Herbicides
Mercury
Metals
Treatment Type
pectrometers
lest Kits
rhermal Destruction
'ortable Gas
Chromatographs
Jiological
Degradation
Physical Chemical
'reatment -
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Contaminant Survey
systems
Biological
Degradation
Technology Vendor
araseby Ionics, Ltd.,
nd PCP, Inc.
trategic Diagnostic,
Inc. Corp.
lexaco Inc.
U. of Dayton Research
Institute
ruker Analytical
ystems, Inc.
Biotrol®
ilectrokinetics, Inc.
'hytokinetics, Inc.
ZENON Environmental
nc.
,asagna™
'ublic-Private
•artnership
ill Eco Logic Inc.
SoilTech ATP Systems,
Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Vlatrix Photocatalytic
Inc.
SBP Technologies, Inc.
Jruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
BWX Technologies, Inc
U. of Dayton Research
Institute
Quadrel Srvices, Inc.
Colorado Dept. of Publi
Health and Environment
Technology
on Mobility Spectrometry
RaPID Assay®
Texaco Gasification Process
'hotothermal Detoxification Unit
Mobile Environmental Monitor
Biological Aqueous Treatment
ystem
n Situ Bioremediation by
Electrokinetic Injection
Phytoremediation of Contaminated
oils
ZenoGem™ Process
^asagna™ in Situ Soil Remediation
Gas-Phase Chemical Reduction
Process
Anaerobic Thermal Processor
jquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
Photocatalytic Water Treatment
Vlembrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Photothermal Detoxification Unit
Emflux® Soil-Gas Survey System
Constructed Wetlands-Based
Treatment
Volume, Page
Number
V3,36
V3,72
VI, 162
V2.106
V3,20
Vl,38
V2.120
V2.128
VI, 184
V1.202
Vl,68
VI, 150
V1.48
VI, 94
V1.110
VI, 144
V3.20
V1.178
V3,36
V3.72
VI, 44
V2.106
V3,54
Vl,54
Page 128
-------�
APPLICABILITY INDEX (continued)
Contaminants
Treatment Type
Technology Vendor
====:
Pintail Systems, Inc.
Volume, Page
Number
Ground
water
(continued)
Metals
(continued)
Biological
Degradation
(continued)
Biommeralization of Metals
Pintail Systems, Inc.
Spent Ore Bioremediation Process
Resource Management
Recovery
AlgaSORB® Biological Sorption
Field Portable X-ra
Fluorescence
Field Portable X-ray Fluorescence
Analysis
Physical Chemical
Treatment -
Biological
Degradation
Lasagna™ Public-
Private Partnership
Lasagna™ In Situ Soil Remediation
Physical/ Chemical
Radioactive Waste
Treatment
Filter Flow Technology,
Colloid Polishing Filter Method®
Physical/ Chemical
Thermal Desorption
New Jersey Institute of
Technology
HEA Associates Process
'hysical/ Chemical
'reatment
ortable Gas
hromatographs
lochem Separation
Systems, Inc.
Atomic Energy of
!anada, Limited
i.I. DuPont de Nemours
and Co. and Oberlin
Filter Co.
Dynaphore, inc.
EnviroMetal
technologies, Inc.
POC Water, Inc.
-ure International, Inc.
Lewis Environmental
ervices, Inc./ Hickson
!orp.
Matrix Photocatalytic
nc.
lorrison Knudsen
orp./Spetstamponazhge
logia Enterprises/STG
echnologies
ECRA Environmental,
J1C.
elentec Environmental
echnologies, Inc.
. of Washington
. of Wisconsin -
ladison
NU Systems, Inc.
ewlitt-Packard
ompanv
Rochem Disc Tube™ Module System
Chemical Treatment and
Jltrafiltration
vlembrane Microfiltration
FORAGER® Sponge
Reactive Barrier
'recipitation, Microfiltration, and
ludge Dewatering
:URE® Electrocoagulation
Vastewater Treatment System
Siromated Copper Arsenate Soil
caching Process
hotocatalytic Water Treatment
lay-Base Grouting Technology
Iternating Current
[ectrocoagulation Technology
elentec MAG*SEP Technology
dsorptive Filtration
hotoelectrocatalytic Degradation and
anoval
HNU GC 31 ID Portable Gas
iromatograph
ortable Gas Analyzer
VI, 142
V2.22
Vl,60
V1.62
V1.194
VI,74
Vl,58
V2,76
VI,110
VI,114
V2,92
V1.226
V2,110
V2.138
V3,42
V3,40
Page 129
-------�
APPLICABILITY INDEX (continued)
Media
Ground
! water
1 (continued)
Contaminants
Metals
continued)
Organics
PAHs
PCBs
Treatment Type
olidification/
tabilization
[Tiermal Destruction
hysical/Chemical
'reatment
ontaminant Survey
ystems
'hysical/ Chemical
Thermal Desorption
ortable Gas
Chromatographs
Jiological
)egradation
Field Portable X-ray
Fluorescence
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Wheelabrator Clean Air
ystems, Inc.
WX Technologies, Inc.
)uke Engineering and
ervices, Inc.
W.L. Gore and
ssociates, Inc.
Geokinetics
International, Inc.
BP Technologies, Inc.
$ruker Analytical
ystems, Inc.
RI Instruments
nstitute of Gas
Technology
'hytokinetics, Inc.
Phytokinetics, Inc.
ZENON Environmental
Inc.
Vletorex, Inc.
ELI Eco Logic Inc.
CAI Technologies,
nc./Brown and Root
Environmental
New Jersey Institute of
Technology
SoilTech ATP Systems,
Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
invironmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corp./Spetstamponazhg
ologia Enterprises/STG
Technoloeies
Technology
O*WW*ER™ Technology
yclone Furnace
urfactant Enhanced Aquifer
lemediation of Nonaqueous Phase
iquids
ORE-SORBER Screening Survey
lectroheat-Enhanced Nonaqueous
hase Liquids Removal
Membrane Filtration and
ioremediation
Mobile Environmental Monitor
Compact Gas Chromatograph
Chemical and Biological Treatment
'hytoremediation of Contaminated
oils
Phytoremediation Process
ZenoGem™ Process
Field portable X-ray Fluorescence
Analysis
Gas-Phase Chemical Reduction
Process
Radio Frequency Heating
GHEA Associates Process
Anaerobic Thermal Processor
perox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
Photocatalytic Water Treatment
Clay-Base Grouting Technology
olume, Page
Number
VI, 178
VI, 44
VI, 192
V3.82
V1.196
VI, 144
V3.20
V3.66
V2,56
V2,128
VI, 210
VI, 184
V3,48
Vl,68
VI, 106
V2,86
VI, 150
VI, 46
V1.48
V2,54
VI, 94
VI, 110
VI, 114
Page 130
-------�
APPLICABILITY INDEX (continued)
"
Media
=====
Ground
water
(continued)
1
Contaminants
= =====
PCBs
(continued)
f__p
Pesticides
1
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable ,Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Test Kits
Biological
Degradation
.
•
•
'
Contaminant Survey
Systems
1
Technology Vendor
=
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
U. of Wisconsin -
Madison
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Hewhtt-Packard ,
Company •
Sentex Sensing
Technology, inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Hanby Environmental
Laboratory Procedures,
Inc.
BWX Technologies, Inc.
U. of Dayton Research
Institute
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
U.S. EPA
Strategic Diagnostic,
Inc.
Strategic Diagnostic,
[nc. Corp.
Biotrol®
Electrokinetics, Inc.
'•
nstitute of Gas
Technology
3hytokinetics, Inc.
'hytokinetics, Inc.
iENON Environmental
nc.
Y.L. Gore and
Associates. Inc.
• ?-^— — „___
Technology
= =======================================
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidations
Photoelectrocatalytic Degradation anc
Removal
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Portable Gas Analyzer
Scentograph Plus n Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
Cyclone Furnace
Photothermal Detoxification Unit
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
Field Analytical Screening Program -
PCP Method
Ensys Penta Test System
RaPID Assay®
Biological Aqueous Treatment
System
n Situ Bioremediation by
Electrokinetic Injections
Chemical and Biological Treatment
^hytoremediation of Contaminated
toils
3hytoremediation Process
SenoGem™ Process
3ORE-SORBER Screening Survey
================
Volume, Page
Number
1 VI, 144
VI, 168
I V2,138
V3.20
•
V3,42
V3.40
V3,60
V3,66 1
, V3.78 j
VI, 178 1
V3.36
V3.38 1
VI, 44
V2.106
VI, 144
VI, 168
V3,80
V3.68
V3,72
V1.38
V2,120
V2.56
V2,128
V1.210
VI, 184
V3,82
Page 131
-------�
APPLICABILITY INDEX (continued)
! ' , 1
Media
Ground
water
(continued)
Contaminants
'esticides
continued)
Petroleum
Hydrocarbons
Treatment Type
hysical/ Chemical
hermal Desorption
hysical/ Chemical
reatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Contaminant Survey
Systems
Technology Vendor
2LI Eco Logic Inc.
CAI Technologies,
nc. /Brown and Root
Environmental
SoilTech ATP Systems,
nc.
Saigon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corp./Spetstamponazhge
ologia Enterprises/STG
Technologies
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
U. of Wisconsin -
Madison
Bruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
Hanby Environmental
Laboratory Procedure,
Inc.
BWX Technologies, Inc
U. of Dayton Research
Institute
W.L. Gore and
Associates. Inc.
Technology ^
as-Phase Chemical Reduction
rocess
adio Frequency heating
naerobic Thermal Process
erox-pure™ Chemical Oxidation
echnology
iquified Gas Solvent Extraction
fLG-SX) Technology
High-Energy Electron Beam
rradiation
High-Energy Electron Irradiation
hotocatalytic Water Treatment
Clay-Base Grouting Technology
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
Photoelectrocatalytic Degradation and
Removal
Mobile Environmental Monitor
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
on Mobility Spectrometry
Ensys Penta Test System
Test Kits for Organic Contaminants
in Soil and Water
Cyclone Furnace
Photothermal Detoxification Unit
GORE-SORBER Screening Survey
Volume, Page
Number
VI, 106
VI, 150
VI, 46
VI, 48
V2.54
Vl,94
VI, 110
VI, 114
VI, 144
VI, 168
V2.138
V3.20
V3.60
V3,66
V3.78
VI, 178
V3.36
V3,68
V3,38
VI, 44
V2.106
V3.82
Page 132
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Contaminants
Petroleum
Hydrocarbons
(continued)
Radionuclides
SVOCs
Treatment Type
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Test Kits
Physical/ Chemical
Radioactive Waste
!"reatment
Physical/ Chemical
'reatment
Thermal Destruction
Biological
Degradation
ontaminant Survey
ystems
hysical/ Chemical
hermal Desorption
Technology Vendor
National Risk
Management Research
Laboratory, the U. of
Cincinnati, and FRX,
Inc.
New Jersey Institute of
Technology
Calgon Carbon
Oxidation Technologies
Geokinetics
International, Inc.
SBP Technologies, Inc.
SIVE Services
SRI Instruments
detek, Inc.
Filter Flow Technology,
Inc.
Atomic Energy of
Canada, Limited
Selentec Environmental
Technologies, Inc.
JWX Technologies, Inc.
Harding Lawson
Associates
Biotrol®
nstitute of Gas
technology
New York State Dept.
Of Environmental
Conservation/R.E.
Wright Environmental
nc.
T Corp.
ZENON Environmental
nc.
luadrel Srvices, Inc.
W.L. Gore and
Associates, Inc.
LI Eco Logic Inc.
CAI Technologies,
Jic. /Brown and Root
nvironmental
Technology
Hydraulic Fracturing
GHEA Associates Process
jerox-pure™ Chemical Oxidation
Technology
31ectroheat-Enhanced Nonaqueous
Phase Liquids Removal
Membrane Filtration and
Jioremediation
Steam Injection and Vacuum
Extraction
Compact Gas Chromatograph
Equate® Immunoassay
Colloid Polishing Filter Method
Chemical Treatment and
Jltrafiltration
Selentec MAG* SEP Technology
Cyclone Furnace
Two-Zone, Plume Interception, In
itu Treatment Technology
Jiological Aqueous Treatment
ystem
Chemical and Biological Treatment
n Situ Bioventing Treatment System
Oxygen Microbubble In Situ
ioremediation
enoGem™ Process
Emflux Soil-Gas Survey System
jORE-SORBER Screening Survey
as-Phase Chemical Reduction
rocess
adio Frequency Heating
Volume, Page
VI, 124
V2,86
VI, 46
VI, 196
VI ,144
VI, 230
V3.66
V3,46
VI, 76
V2,22
VI ,226
VI, 44
V2,48
Vl,38
V2.56
VI, 130
V2.126
VI, 184
V3,54
V3,82
Vl,68
VI, 106
Page 133
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Contaminants
SVOCs
continued)
Treatment Type
'hysical/Chemical
Thermal Desorption
continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Other
Technology Vendor
New Jersey Institute of
Technology
NOVATERRA, Inc.
SIVE Services
SoilTech ATP Systems,
nc.
ARS Technologies, Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
Jigh Voltage
invironmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
Terra Vac, Inc.
J. of Wisconsin -
Madison
Roy F. Weston,
Inc./IEG Technologies
Xerox Corp.
Analytical and Remedial
Technology, Inc.
Bruker Analytical
Systems, Inc.
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Texaco Inc.
U. of Dayton Research
Institute
Berkeley Environmental
Restoration Center
Technology
GHEA Associates Process
n Situ Soil Treatments (Steam/ Air
Stripping)
Steam Injection and Vacuum
ixtraction
Anaerobic Thermal Processor
'neumatic Fracturing Extraction™
and Catalytic Oxidation
lerox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
LG-SX) Technology
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
X-ray Treatment of Aqueous
Solutions
vlembrane Filtration and
Bioremediation
In Situ and Ex Situ Vacuum
ixtraction
r'hotoelectrocatalytic Degradation and
Removal
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTINCTION Process
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
[on Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Texaco Gasification process
Photothermal Detoxification Unit
In Situ Steam Enhanced Extraction
Process
Volume, Page
Number
V2.86
VI, 134
VI, 230
VI, 150
VI, 24
V1.46
VI, 48
V2,54
VI, 94
V2.90
VI, 144
VI, 160
V2.138
VI, 176
VI, 180
V3.14
V3.20
V3.78
VI, 178
V3.36
V3,72
VI, 44
VI, 162
V2.106
VI, 28
Page 134
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Contaminants
VOCs
Treatment Type
Biological
Degradation
Contaminant Survey
ystems
Materials Handling
hysical/ Chemical
'hermal Desorption
Technology Vendor
Billings and Associates,
Inc.
Bio-Rem, Inc.
Biotrol®
Electrokinetics, Inc.
New York State Dept. of
Environmental
Conservation/R.E.
Wright Environmental,
Inc.
New York State
Department of
Environmental
Conservation/SBP
Technologies
IT Corp.
ITT Night Vision
Phytokinetics, foe.
Phytokinetics, Inc.
U.S. Air Force
ZENON Environmental
nc.
Quadrel Srvices, Inc.
W.L. Gore and
Associates, Inc.
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
nc.
lughes Environmental
ystems, Inc.
CAI Technologies,
nc./Brown and Root
Environmental
'lew Jersey Institute of
'echnology
SfOVATERRA, Inc.
lochem Separation
vstems. Inc.
Technology
Subsurface Volatilization and
Ventilation System (SVVS® )
Augmented In Situ Subsurface
Bioremediation Process
Biological Aqueous Treatment
System
[n Situ Bioremediation by
Electrokinetic Injection
In Situ Bioventing Treatment System
Vacuum- Vaporized Well System
Oxygen Microbubble In Situ
Jioremediation
n Situ Enhanced Bioremediation of
Groundwater
Phytoremediation of Contaminated
Soils
Phytoremediation Process
'hytoremedjation of
?CE-Contaminated Shallow
Groundwater
ZenoGem™ Process
imflux Soil-Gas Survey System
GORE-SORBER Screening Survey
lydraulic Fracturing
team Enhanced Recovery Process
Radio Frequency Heating
5HEA Associates Process
n Situ Soil Treatments (Steam/ Air
tripping)
Rochem Disc Tube™ Module System
Volume, Page
V1.30
V1.34
V1.38
V2,120
VI, 130
VI, 128
V2.126
VI, 198
V2.128
VI, 210
VI ,234
VI, 184
V3,54
V3.82
VI, 124
VI, 100
VI, 106
V2.86
V1.134
VI, 142
Paige 135
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
[continued)
Contaminants
VOCs
continued)
Treatment Type
Physical/Chemical
Thermal Desorption
continued)
Physical/ Chemical
Treatment
Technology Vendor
SIVE Services
SoilTech ATP Systems,
nc.
ARS Technologies, Inc.
Arizona State U./ Zentox
Corp.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
inviroMetal
Technologies, Inc.
MACTEC-SBP
Technologies Company,
L.L.C.
inviroMetal
Technologies, Inc.
Geokinetics
International, Inc.
High Voltage
Environmental
Applications, Inc.
KSE, Inc.
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/STG
Technologies
Pulse Sciences, Inc.
Radian International
LCC
SBP Technologies, Inc.
Terra Vac, Inc.
U.S. Filter/WTS Ultrox
U. of Nebraska - Lincoln
UV Technologies, Inc.
Roy F. Weston, Inc.
Roy F. Weston,
Inc./IEG Technologies
Xerox Coro.
Technology
Steam Injection and Vacuum
Extraction
Anaerobic Thermal Processor
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Photocatalytic Oxidation with Air
Stripping
>erox-pure™ Chemical Oxidation
Technology
jquified Gas Solvent Extraction
LG-SX) Technology
leactive Barrier
NoVOCs™ In-Well Stripping
Technology
n Situ and Ex Situ Metal Enhanced
Abiotic Degradation of Dissolved
Halogenated Organic Compounds in
Groundwater
Electroheat-Enhanced Nonaqueous
Phase Liquids Removal
High Energy Electron Irradiation
Adsorption-Integrated-Reaction
?rocess
Photocatalytic Water Treatment
Clay-Base Grouting Technology
X-ray Treatment of Aqueous
Solutions
Integrated Vapor Extraction and
Steam Vacuum Stripping and Soil
Vapor Extraction/Reinjection
Membrane Filtration and
Bioremediation
In Situ and Ex Situ Vacuum
Extraction
Ultraviolet Radiation and Oxidation
Center Pivot Spray Irrigation System
PhotoCAT™ Process
Ambersorb® 563 Adsorbent
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Volume, Page
Number
VI, 230
VI, 150
VI, 24
V2,18
VI, 46
V1.48
VI, 194
VI, 204
VI, 72
VI, 196
VI, 94
Vl,200/
V2,24
VI, 110
VI, 114
V2,90
VI, 138
VI, 144
VI, 160
VI, 168
VI, 170
V2.112
V2.116
VI, 176
VI. 180
Page 136
-------�
APPLICABILITY INDEX (continued)
Media
Ground
water
(continued)
Leachate
Contaminants
VOCs
(continued)
Other
Aromatic VOCs
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Physical/ Chemical
Treatment
Biological
)egradation
Physical/ Chemical
'hermal Desorption
Physical/ Chemical
'reatment
Technology Vendor
ZENON Environmental
Inc.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Hewlitt-Packard
Company
Photovac Monitoring
Instruments
Sentex Sensing
Technology, inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
ianby Environmental
^aboratory Procedure,
nc.
Strategic Diagnostic,
Inc. Corp.
Texaco Inc.
•forth American
Technologies Group,
nc.
JECRA Environmental,
Inc.
Biotrol®
ilectrokinetics, Inc.
ZENON Environmental
nc.
NOVATERRA, Inc.
lochem Separation
ystems, Inc.
CF Systems, Corp.
High Voltage
invironmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Technology
Cross-Flow Pervaporation System
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Portable Gas Analyzer
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
?ield Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
on Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
RaPID Assay®
Texaco Gasification Process
Oleophilic Amine-Coated Ceramic
Chip
Alternating Electrocoagulation
Technology
Biological Aqueous Treatment
System
n Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
n Situ Soil Treatments (Steam/Air
tripping)
iochem Disc Tube™ Module System
Liquified Gas Solvent Extraction
LG-SX) Technology
ligh Energy Electron Beam
rradiation
High Energy Electron Irradiation
Volume, Page
VI, 182
V3.20
V3.42
V3.40
V3.56
V3.60
V3.66
V3.78
VI, 178
V3.36
V3,38
V3.72
VI, 162
VI, 132
V2.92
V1.38
V2.120
VI, 184
VI, 134
VI, 142
V1.48
V2,54
VI, 94
Page 137
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
Aromatic VOCs
[continued)
Cyanide
Dioxins
Treatment Type
'hysical/ Chemical
Treatment
continued)
'ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Technology Vendor
dagnum Water
Technology
Matrix Photocatalytic
nc.
3ulse Sciences, Inc.
SBP Technologies, Inc.
ZENON Environmental
nc.
Analytical and Remedial
Technology, inc.
Jruker Analytical
Systems, Inc.
HNU Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
lanby Environmental
Laboratory procedure,
nc.
Pintail Systems, Inc.
ELI Eco Logic Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Technology
CA-OX® Process
'hotocatalytic Water Treatment
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Jioremediation
Cross-Flow Pervaporation System
Automated Sampling and Analytical
'latform
vlobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
bn Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
Spent Ore Bioremediation process
Gas-Phase Chemical Reduction
Process
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
Photocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay®
Cvclone Furnace
Volume, Page
Number
VI, 108
VI, 110
V2,90
VI, 144
VI, 182
V3.14
V3,20
V3.42
V3.60
V3,66
V3.78
VI, 178
V3,36
V3.38
VI, 214
VI, 68
V1.48
Vl,94
VI, 110
VI, 144
V3,20
VI, 178
V3.36
V3.72
VI, 44
Page 138
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
Explosives
Furans
Halogenated
VOCs
Treatment Type
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
hysical/ Chemical
'reatment
Technology Vendor
New Jersey Institute of
Technology
U.S. Filter/WTS Ultrox
ELI Eco Logic Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
'.nc.
SBP Technologies, Inc.
Bruker Analytical
Systems, inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
5WX Technologies, Inc.
Biotrol®
ZENON Environmental
nc.
New Jersey Institute of
"echnology
NOVATERRA, Inc.
CF Systems Corp.
EnviroMetal
'echnologies Inc.
High Voltage
Environmental
Applications, Inc.
High Voltage
invironmental
Applications, Inc.
Magnum Water
echnology
Vlatrix Photocatalytic
nc.
ulse Sciences, Inc.
Technology
GHEA Associates Process
Ultraviolet Radiation and Oxidation
Gas-Phase Chemical Reduction
Process
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
Photocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
on Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Methanotrophic Bioreactor System
ZenoGem™ Process
GHEA Associates process
n-Situ Soil Treatments (Steam/Sir
tripping)
Liquified Gas Solvent Extraction
(LG-SX) Technology
In Situ and Ex Situ Metal Enhanced
Abiotic Degradation of Dissolved
talogenated Organic Compounds in
Groundwater
ligh Energy Electron Beam
rradiation
High Energy Electron Irradiation
AV-OX® Process
hotocatalytic Water Treatment
-ray Treatment of Aqueous
olutions
Volume, Page
V2.86
VI, 168
V1.68
VI, 48
Vl,94
VI, 110
VI, 144
V3,20
VI, 178
V3.36
V3,72
VI, 44 •
V2.28
VI, 184
V2,86 ,
VI, 134
VI ,48
VI ,72
V2,54
VI, 94
VI, 108
VI, 110
V2.90
Page 139
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
Halogenated
VOCs
continued)
Herbicides
Treatment Type
3hysical/ Chemical
Treatment
continued)
'ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
rhermal Destruction
Jiological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Technology Vendor
BP Technologies, Inc.
U.S. Filter/WTS Ultrox
UV Technologies, Inc.
Roy F. Weston, Inc.
ZENON Environmental
nc.
Analytical and Remedial
Technology, Inc.
Jruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
Energy and
Environmental Research
Corp.
Biotrol®
Jlectrokinetics, Inc.
ZENON Environmental
Inc.
3LI Eco Logic Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Technology
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
PhotoCAT™ Process
Ambersorb® 563 Adsorbent
Cross-Flow Pervaporation System
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
Scentograph plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
on Mobility Spectrometry
RaPID Assay®
Hybrid Fluidized Bed System
Jiological Aqueous Treatment
System
h Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
Gas-Phase Chemical Reduction
Process
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
CAV-OX® Process
Photocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Volume, Page
Number
VI ,144
VI, 168
V2.112
V2,116
VI, 182
V3.14
V3.20
V3.60
V3,66
V3,78
VI, 178
V3,36
V3.72
V2.42
V1.38
V2,120
VI, 184
Vl,68
VI, 48
VI, 94
VI, 108
VI, 110
VI, 144
V3.20
VI, 178
V3.36
Page 14O
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
Herbicides
(continued)
Metals
Treatment Type
Test Kits
Thermal Destruction
Biological
Degradation
Field Portable X-ray
Fluorescence
Physical/ Chemical
Radioactive Waste
Treatment
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Thermal Destruction
Technology Vendor
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Colorado Dept. Of
Public Health and
Environment
Pintail Systems, Inc.
Pintail Systems, Inc.
Metorex, Inc.
Filter Flow Technology,
Inc.
New Jersey Institute of
Technology
Rochem Separation
Systems, Inc.
Atomic Energy of
Canada, Limited
Atomic Energy of
Canada, Limited
E.I. DuPont de Nemours
and Co., and Oberlin
Filter Co.
Oynaphore, Inc.
EPOC Water, Inc.
Cure International, Inc.
Lewis Environmental
Services, Inc./ Hickson
Corp.
Matrix Photocatalytic
inc.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/ STG
Technologies
JECRA Environmental,
iic.
Selentec Environmental
Technologies, Inc.
'3. of Washington
INU Systems, Inc.
Wheelabrator Clean Air
System, Inc.
BWX Technologies, Inc.
Technology
RaPID Assay®
Cyclone Furnace
Constructed Wetlands-Based
Treatment
Biomineralization of Metals
Spent ore Bioremediation Process
Field Portable X-ray Fluorescence
Analysis
Colloid Polishing Filter Method
GHEA Associates Process
Rochem Disc Tube™ Module System
Chemical Treatment and
Ultrafiltration
Ultrasonic-Aided Leachate
Treatment
Membrane Microfiltration
FORAGER® Sponge
Precipitation, Microfiltration, and
Sludge Dewatering
CURE® Electrocoagulation
Wastewater Treatment System
Chromated Copper Arsenate Soil
Beaching Process
'hotocatalytic Water Treatment
Clay-Base Grouting Technology
Alternating Current
ilectrocoagulation Technology
Selentec MAG*SEP Technology
Adsorption Filtration
HNU GC 31 ID Portable Gas
Chromatograph
PO*WW*ER™ Technology
Cyclone Furnace
Volume, Page
Number
V3,72
VI ,44
VI, 54
V2.130
V1.214
V3.48
VI, 76
V2.86
VI, 142
V2,22
V2,24
VI, 60
Vl,62
VI ,74
Vl,58
V2.76
VI, 110
VI, 114
V2,92
VI ,226
V2.110
V3,42
VI, 178
VI, 44
Page 141
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
Metals
(continued)
PAHs
PCBs
Treatment Type
Thermal Destruction
(continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Biological
Degradation
Field Portable X-ray
Fluorescence
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Technology Vendor
Energy and
Environmental Research
Corp.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
SRI Instruments
ZENON Environmental
Inc.
Metorex, Inc.
ELI Eco Logic Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/ STG
Technologies
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
Bruker Analytical
Systems, inc.
HNU Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
Technology
Hybrid Fluidized Bed System
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
Compact Gas Chromatograph
ZenoGem™ Process
Field Portable X-ray Fluorescence
Analysis
Gas-Phase Chemical Reduction
Process
perox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
CAV-OX® Process
Photocatalytic Water Treatment
Clay-Base Grouting Technology
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Ensys Penta Test Systems
Volume, Page
Number
V2,42
VI ,144
V3,20
V3.66
VI, 184
V3,48
Vl,68
VI, 46
VI, 48
V2.54
V1.94
VI, 108
VI, 110
VI, 114
VI, 144
VI, 168
V3.20
V3,42
V3.60
V3,66
V3,78
VI, 178
V3,36
V3,68
Page 142
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
PCBs
(continued)
PCP
Pesticides
Treatment Type
Test Kits
(continued)
Physical/ Chemical
Treatment
Test Kits
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
'ortable Gas
Chromatographs
Technology Vendor
Hanby Environmental
Laboratory Procedure,
Inc.
Energy and
Environmental Research
Corp.
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
Strategic Diagnostic,
[nc.
Strategic Diagnostic,
[nc. Corp.
Biotrol®
Electrokinetics, Inc.
ZENON Environmental
Inc.
ELI Eco Logic Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
ligh Voltage
invironmental
Applications, Inc.
tfagnum Water
Technology
Vlatrix Photocatalytic
nc.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/ STG .
Technologies
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
3ruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Technology
Test Kits for Organic Contaminants
in Soil and Water
Hybrid Fluidized Bed System
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
Ensys Penta Test System
RaPID Assay®
Biological Aqueous Treatment
System
In Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
Gas-Phase Chemical Reduction
Process
serox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
ligh-Energy Electron Beam
Irradiation
rligh-Energy Electron Irradiation
CAV-OX® Process
Photocatalytic Water Treatment
Clay-Base Grouting Technology
Membrane Filtration and
Jioremediation
Ultraviolet Radiation and Oxidation
Mobile Environmental Monitor
Scentograph Plus n Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
Volume, Page
Number
V3.38
V2,42
VI, 144
VI, 168
V3.68
V3,72
V1.38
V2.120
VI, 184
V1.68
VI, 46
VI, 48
V2.54
V1.94
VI, 108
V1.110
V1.114
VI, 144
VI, 168
V3.20
V3,60
V3.66
V3.78
Page 143
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
Pesticides
(continued)
Petroleum
Hydrocarbons
Radionuclides
SVOCs
Treatment Type
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatments
Portable Gas
Chromatographs
Physical/ Chemical
Radioactive Waste
Treatment
Physical/ Chemical
Treatment
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
Hanby Environmental
Laboratory Procedure,
inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
New Jersey Institute of
Technology
Calgon Carbon
Oxidation Technologies
SBP Technologies, Inc.
SRI Instruments
Filter Flow Technology,
Inc.
Atomic Energy of
Canada, Limited
Atomic Energy of
Canada, Limited
Selentec Environmental
Technologies, Inc.
BWX Technologies, Inc.
Biotrol®
ZENON Environmental
Inc.
ELI Eco Logic Inc.
New Jersey Institute of
Technology
NOVATERRA, Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Technology
PO*WW*ER Technology
Ion Mobility Spectrometry
Ensys Penta Test System
Test Kits for Organic Contaminants
in Soil and Water
RaPID Assay®
Cyclone Furnace
Hybrid Fluidized Bed System
GHEA Associates Process
perox-pure™ Chemical Oxidation
Technology
Membrane Filtration and
Bioremediation
Compact Gas Chromatograph
Colloid Polishing Filter Method
Chemical Treatment and
Ultrafiltration
Ultrasonic- Aided Leachate Treatment
and Ultrafiltration
Selentec MAG*SEP Technology
Cyclone Furnace
Biological Aqueous Treatment
System
ZenoGem™ Process
Gas-Phase Chemical Reduction
Process
GHEA Associates Process
In Situ Soil Treatments (Steam/ Air
Stripping)
perox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Beam
Irradiation
Volume, Page
Number
VI, 178
V3.36
V3,68
V3.38
V3.72
V1.44
V2.40
V2.86
Vl,46
VI ,144
V3.66
VI, 76
V2.22
V2.24
VI, 226
VI, 44
V1.38
VI, 184
V1.68
V2,86
VI, 134
VI, 46
VI, 48
V2.54
Page 144-
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Contaminants
SVOCs
(continued)
VOCs
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
3hysical/ Chemical
Thermal Desorption
'hysical/ Chemical
Treatment
Technology Vendor
High Voltage
Environmental
Applications, Inc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
Analytical and Remedial
Technology, Inc.
Bruker Analytical
Systems, inc.
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Biotrol®
Electrokinetics, Inc.
ZENON Environmental
!nc.
New Jersey Institute of
Technology
NOVATERRA, Inc.
lochem Separation
Systems, Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
EnviroMetal
Technologies Inc.
ligh Voltage
invironmental
Applications, Inc.
Matrix Photocatalytic
nc.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/ STG
Technologies
Technology
High-Energy Electron Irradiation
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Bioremediation
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPED Assay®
Cyclone Furnace
Biological Aqueous Treatment
System
In Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
GHEA Associates Process
In Situ Soil Treatment (Steam/ Air
Stripping)
Rochem Disc Tube™ Module System
>erox-pure™ Chemical Oxidation
Technology
jquified Gas Solvent Extraction
(LG-SX) Technology
n Situ and Ex Situ Metal Enhanced
Abiotic Degradation of Dissolved
Halogenated Organic Compounds in
Groundwater
ligh-Energy Electron Irradiation
'hotocatalytic Water Treatment
Clay-Base Grouting Technology
Volume, Page
Number
Vl,94
V2.90
VI, 144
V3.14
V3.20
V3.78
VI, 178
V3,36
V3,72
VI ,44
Vl,38
V2.120
VI, 184
V2.86
VI, 134
VI, 142
VI ,46
VI ,48
VI, 72
VI, 94
VI, 110
VI, 114
Page 145
-------�
APPLICABILITY INDEX (continued)
Media
Leachate
(continued)
Liquid
Contaminants
VOCs
(continued)
Other
Aromatic VOCs
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Physical/ Chemical
Treatment
Biological
Degradation
Technology Vendor
Pulse Sciences, Inc.
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
UV Technologies, Inc.
Roy F. Weston, Inc.
ZENON Environmental,
Inc.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Hanby Environmental
Laboratory Procedure,
[nc.
Strategic Diagnostic,
[nc. Corp.
Energy and
Environmental Research
Corp.
North American
Technologies Group,
Inc.
RECRA Environmental,
inc.
Harding Lawson
Associates
Billings and Associates,
Inc.
Bio-Rem, Inc.
Biotrol®
Electrokinetics, Inc.
New York State Dept.
Of Environmental
Conservation/R.E.
Wright Environmental,
Inc.
Technology
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
PhotoCAT™ Process
Ambersorb® 563 Adsorbent
Cross-Flow Pervaporation System
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Scentograph Plus 11 Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Speclrometry
Test Kits for Organic Contaminants
in Soil and Water
RaPID Assay®
Hybrid Fluidized Bed System
Oleophilic Amine-Coated Ceramic
Chip
Alternating Current
Electrocoagulation Technology
Two-Zone Plume Interception, In
Situ Treatment Technology
Subsurface Volatilization and
Ventilation System (SVVS® )
Augmented In Situ. Subsurface
Bioremediation Process
Biological Aqueous Treatment
System
In Situ Bioremediation by
Electrokinetic Injection
tn Situ Bioventing Treatment System
Volume, Page
Number
V2.90
VI, 144
VI, 168
V2.112
V2.116
VI, 184
V3.20
V3.42
V3.60
V3.66
. V3.78
V1.178
V3.36
V3.38
V3.72
V2.40
VI, 132
V2.92
V2.48
V1.30
V1.34
V1.38
V2.120
VI, 130
Page 146
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
(continued)
Contaminants
Aromatic VOCs
(continued)
Treatment Type
Biological
Degradation
(continued)
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
'ortable Gas
Chromatographs
Technology Vendor
IT Corp.
ZENON Environmental
Inc.
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
Inc.
Hughes Environmental
Systems, Inc.
Rochem Separation
Systems, Inc.
SoilTech ATP Systems,
Inc.
ARS Technologies, Inc.
CF Systems Corp.
rligh Voltage
Environmental
Applications, Inc.
3igh Voltage
Environmental
Applications, Inc.
KSE.Inc.
vlatrix Photocatalytic
nc.
5ulse Sciences, Inc.
SBP Technologies, Inc.
Terra Vac, Inc.
U. of Nebraska - Lincoln
loy F. Weston,
nc./IEG Technologies
Xerox Corp.
ZENON Environmental
nc.
Analytical and Remedial
Technology, Inc.
kuker Analytical
Systems, Inc.
HNU Systems, Inc.
'hotovac Monitoring
nstruments
Technology
Oxygen Microbubble In Situ
Bioremediation
ZenoGem™ Process
Hydraulic Fracturing
Steam Enhanced Recovery Process
Rochem Disc Tube™ Module System
Anaerobic Thermal Processor
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Beam
Irradiation
High Energy Electron Irradiation
Adsorption-Integrated-Reaction
'recess
Photocatalytic Water Treatment
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Jioremediation
In Situ and Ex Situ Vacuum
Extraction
Center Pivot Spray Irrigation System
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Cross-Flow Pervaporation System
Automated Sampling and Analytical
'latform
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
PE Photovac Voyager Portable Gas
Chromatograph
Volume, Page
V2.126
V1.184
VI, 124
VI, 100
VI, 142
VI ,150
VI ,24
VI, 48
V2,54
VI, 94
VI, 2007
V2,24
VI, 110
V2,90
VI, 144
VI, 160
VI, 170
VI, 176
VI, 180
VI, 182
V3.14
V3.20
V3.42 •
V3,56
Page 147
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
(continued)
Contaminants
Aromatic VOCs
[continued)
Cyanide
Diesel
Dioxins
Explosives
Treatment Type
Portable Gas
Chromatograph
continued)
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
ianby Environmental
Laboratory Procedure,
nc.
Texaco Inc.
U. of Dayton Research
nstitute
'intail Systems, Inc.
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
Inc.
3LI Eco Logic Inc.
SoilTech ATP Systems,
inc.
CF Systems Corp.
High Voltage
3nvironmental
Applications, Inc.
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
U. of Dayton Research
Institute
New Jersey Institute of
Technology
U.S. Filter/WTS Ultrox
Technology
Scentograph Plus It Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCS Method
PO*WW*ER™ Technology
on Mobility Spectrometry
Test Kits for Organic Contaminants
n Soil and Water
Texaco Gasification Process
Photothermal Detoxification Unit
Spent Ore Bioremediation Process
Hydraulic Fracturing
Gas-Phase Chemical Reduction
Process
Anaerobic Thermal Processor
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
Photocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Photothermal Detoxification Unit
GHEA Associates Process
Ultraviolet Radiation and Oxidation
Volume, Page
Number
V3.60
V3.66
V3.78
VI, 178
V3.36
V3.38
VI, 162
V2.106
V1.214
VI, 124
VI, 68
VI, 150
VI, 48
VI, 94
VI, 110
VI, 144
V3.20
VI, 178
V3.36
V3.72
VI, 44
V2.106
V2.86
VI, 168
Page 148
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
(continued)
Contaminants
Furans
Gasoline
Halogenated
VOCs
Treatment Type
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Materials Handling
Biological
Degradation
Technology Vendor
ELI Eco Logic Inc.
SoilTech ATP SystemSj
Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc. •
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
'nc. Corp.
BWX Technologies, Inc.
U. of Dayton Research
hstitute
sTational Risk
Management Research
Laboratory, The ,U. of
Cincinnati, and FRX,
nc.
ABB Environmental
Services, Inc.
Harding Lawson
Associates
3io-Rem, Inc.
Biotrol®
New York State Dept.
Of Environmental
Conservation/R.E.
Wright Environmental,
nc.
T Corp.
U.S. Air Force
ZENON Environmental
nc.
Technology
Gas-Phase Chemical Reduction
Process
Anaerobic Thermal Processor
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
Photocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay*
Cyclone Furnace
PhotOthermal Detoxification Unit
Hydraulic Fracturing
Anaerobic-Aerobic Sequential
Bioremediation of PCE
?wo-Zorte Plume Interception, In
Situ Treatment Technology
Augmented In Situ Subsurface
Jioremediation Process
VIethanotrophic Bioreactor System
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Jioremediation
Phytoremediation of TCE-
Contaminated Shallow Groundwater
ZenoGem™ Process
Volume, Page
IVlIJTJ h ft!*
VI, 68
VI, 150
VI, 48
V1.94
VI, 110
VI, 144
V3.20
VI, 178
V3.36
V3.72
VI, 44
V2.106
VI, 124
V2.50
V2.48
V1.34
V2.28
V1.130
V2.126
VI, 234
VI, 184
Page 149
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
'continued)
Contaminants
lalogenated
VOCs
'continued)
Treatment Type
Materials Handling
'hysical Chemical
Treatment -
Siological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
Inc.
^asagna™
'ublic-Private
5artnership
Hughes Environmental
Systems, Inc.
KAI Technologies,
nc./Brown and Root
Environmental
Slew Jersey Institute of
Technology
SoilTech ATP Systems,
Inc.
ARS Technologies, Inc.
Arizona State U/Zentox
Corp.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Sigh Voltage
Environmental
Applications, Inc.
KSE, Inc.
Matrix Photocatalytic
Inc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
Terra Vac, Inc.
U.S. Filter/WTS Ultrox
U. of Nebraska - Lincoln
UV Technologies, Inc.
Roy F. Weston,
Inc./EBG Technologies
Roy F. Weston,
Inc./IEG Technologies
Xerox Corp.
ZENON Environmental
Inc.
Technology ,
Hydraulic Fracturing
Lasagna™ In Situ Soil Remediation
Steam Enhanced Recovery Process
ladio Frequency Heating
GHEA Associates Process
Anaerobic Thermal Process
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Photocatalytic Oxidation with Air
Stripping
jquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Beam
Irradiation
High Energy Electron Irradiation
Adsorption-Integrated-Reaction
Process
Photocatalytic Water Treatment
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Bioremediation
[n Situ and Ex Situ Vacuum
Extraction
Ultraviolet Radiation and Oxidation
Center Pivot Spray Irrigation System
PhotoCAT™ Process
Ambersorb 563 Adsorbent
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Cross-Flow Pervaporation System
Volume, Page
Number
VI, 124
VI, 202
VI, 100
VI, 106
V2.86
VI, 150
VI, 24
V2,18
VI, 48
V2.54
VI, 94
Vl,200/
V2.24
VI, 110
V2.90
VI, 144
VI, 160
VI, 168
VI, 170
V2.H2
V2.116
VI, 176
VI, 180
VI, 182
Page 150
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
(continued)
Contaminants
Halogenated
VOCs
(continued)
Heavy Metals
Herbicides
Treatment Type
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Field Portable X-ray
'luorescence
Biological
Degradation
Physical Chemical
'reatment-
iiological
)egradation
Physical/- Chemical
'hermal Desorption
Physical/ Chemical
'reatment
ortable Gas
Chromatographs
olidification/
tabilization
Technology Vendor
Analytical and Remedial
Technology, Inc.
Bruker Analytical '
Systems, Inc.
Photovac Monitoring
Instruments
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc. -
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
ric. Corp. '
Texaco Inc,
U. of Dayton Research
nstitute
HNU Systems, Inc.
Biotrol®
Electrokinetics, Inc.
ZENON Environmental
nc.
Lasagna™ Public -
Private Partnership
ELI Eco Logic Inc.
oilTech ATP Systems,
nC.
CF Systems Corp.
Ugh Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
nc.
BP Technologies, Inc.
ruker Analytical
ystems, Inc.
SVheelabrator Clean Air
vstems. Inc.
Technology
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
on Mobility Spectrometry
RaPID Assay®
Texaco Gasification Process
Photothermal Detoxification Unit
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-ray
Fluorescence Analyzer
Jiological Aqueous Treatment
System
In Situ Bioremediation by
ilectrokinetic Injection
ZenoGem™ Process
Lasagna™ In Situ Soil Remediation
Gas-Phase Chemical Reduction
'recess
Anaerobic Thermal Processor
Liquified Gas Solvent Extraction
LG-SX) Technology
High Energy Electron Irradiation
hotocatalytic Water Treatment
Membrane Filtration and
ioremediation
Mobile Environmental Monitor
O*WW*ERTM Technology
Volume, Page
V3.14
V3.20
V3.56
V3.60
V3.66
V3.78
VI, 178
V3,36
V3.72
VI, 162
V2.106
V3.44
V1.38
V2.120
VI, 184
VI ,202
VI, 68
V1.150
Vl,48
VI, 94
VI, 110
VI ,144
V3,20
VI, 178
Page 151
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
(continued)
Contaminants
Herbicides
(continued)
Inorganics
Metals
Treatment Type
Spectrometers
Test Kits
rhermal Destruction
Field Portable X-ray
Fluorescence
Biological
Degradation
Field Portable X-ray
Fluorescence
Physical/ Chemical
Treatment -
Biological
Degradation
Physical/ Chemical
Radioactive Waste
Treatment
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
nc. Corp.
BWX Technologies, Inc.
J. of Dayton Research
iistitute
HNU Systems, Inc.
Colorado Dept. of Public
Health and Environment
Pintail Systems, Inc.
Pintail Systems, Inc.
Resource Management &
Recovery
HNU Systems, Inc.
Metorex, Inc.
Lasagna™ Public -
Private Partnership
Filter Flow Technology,
Inc.
>Jew Jersey Institute of
Technology
Rochem Separation
Systems, Inc.
Atomic Energy of
Canada, Limited
E.I. DuPont de Nemours
and Co., and Oberlin
Filter Co.
Dynaphore, Inc.
EPOC Water, Inc.
Cure International, Inc.
Lewis Environmental
Services, Inc./ Hickson
Corp.
Matrix Photocatalytic
Inc.
Technology
Ion Mobility Spectrornetry
RaPID Assay®
Cyclone Furnace
Photothermal Detoxification Unit
3NU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-ray
Fluorescence Analyzer
Constructed Wetlands-Based
Treatment
Biomineralization of Metals
Spent ore Bioremediation Process
AlgaSORB® Biological Sorption
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-ray
Fluorescence Analyzer
Field Portable X-ray Fluorescence
Analysis
Lasagna™ In Situ Soil Remediation
Colloid Polishing Filter Method
GHEA Associates Process
Rochem Disc TUBE™ Module
System
Chemical Treatment and
Ultrafiltration
Membrane Microfiltration
FORAGER® Sponge
Precipitation, Microfiltration, and
Sludge Dewatering
CURE® Electrocoagulation
Wastewater Treatment System
Chromated Copper Arsenate Soil
Leaching Process
Photocatalytic Water Treatment
Volume, Page
Number
V3,36
V3,72
VI, 44
V2.106
V3.44
VI, 54
V2,130
V1.214
V2.96
V3,44
V3.48
VI ,202
VI, 76
V2.86
VI, 142
V2.22
V1.60
VI, 62
VI, 74
Vl,58
V2,76
VI, 110
Page 152
-------�
APPLICABILITY INDEX (continued)
Media
Liquids
(continued)
Contaminants
Metals
(continued)
PAHs
PCBs
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Thermal Destruction
Physical/ Chemical
Treatment
Portable Gas
Chromatograph
Biological
Degradation
Field Portable X-ray
'luorescence
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
'reatment
Technology Vendor
Morrison Knudsen
Corp, /Spetstamponazhge
ologia Enterprises/STG
Technologies
RECRA Environmental,
Inc.
Selentec Environmental
Technologies, Inc.
U. of Washington
U. of Wisconsin -
Madison
HUN Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
3WX Technologies, Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
SRI Instruments
ZENON Environmental
nc.
Metorex, Inc.
ELI Eco Logic Inc.
KAI Technologies,
nc. /Brown and Root
Environmental
erox-pure™ Chemical Oxidation
'echnology
jquified Gas Solvent Extraction
LG-SX) Technology
tigh Energy Electron Beam
rradiation
High Energy Beam Irradiation
hotocatalytic Water Treatment
^lay-Base Grouting Technology
Volume, Page
VI, 114
V2.92
VI, 226
V2.110
V2,138
V3.42
VI, 178
VI, 44
VI, 144
V3,20
V3,66
VI, 184
V3.48
V1.68
VI, 106
V2,86
VI, 150
VI ,46
VI, 48
V2,54
VI, 94
VI, 110
VI, 114
Page 153
-------�
APPLICABILITY INDEX (continued)
Media
^iquids
continued)
Contaminants
PCBs
continued)
PCP
Pesticides
Treatment Type
Physical/Chemical
Treatment
continued)
'ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Physical/ Chemical
Treatment
Test Kits
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
J. of Wisconsin -
rfadison
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Sentex Sensing
Technology, inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
lanby Environmental
Laboratory Procedures,
Inc.
BWX Technologies, Inc.
U. of Dayton Research
Institute
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
Strategic Diagnostic,
Inc.
Strategic Diagnostic,
Inc. Corp.
Biotrol®
Electrokinetics, Inc.
ZENON Environmental
Inc.
ELI Eco Logic Inc.
KAI Technologies,
Inc./Brown and Root
Environmental
SoilTech ATP Systems,
Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
Technology
Membrane Filtration and
Jioremediation
Ultraviolet Radiation and Oxidations
'hotoelectrocatalytic Degradation and
iemoval
VIobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
on Mobility Spectrometry
insys Penta Test System
Test Kits for Organic Contaminants
in Soil and Water
Cyclone Furnace
Photothermal Detoxification Unit
VIembrane Filtration and
Sioremediation
Ultraviolet Radiation and Oxidation
Ensys Penta Test System
RaPID Assay®
Biological Aqueous Treatment
System
In Situ Bioremediation by
Electrokinetic Injections
ZenoGem™ Process
Gas-Phase Chemical Reduction
Process
Radio Frequency heating
Anaerobic Thermal Process
perox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
Volume, Page
Number
VI, 144
V1.168
V2.138
V3.20
V3.42
V3.60
V3,66
V3,78
VI, 178
V3,36
V3,68
V3.38
VI, 44
V2.106
VI, 144
VI, 168
V3,68
V3,72
Vl,38
V2.120
VI, 184
V1.68
VI, 106
VI, 150
VI, 46
VI, 48
Page 154
-------�
APPLICABILITY INDEX (continued)
Media
===^
Liquids
(continued)
Contaminants
Pesticides
(continued)
etroleum
[ydrocarbons
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
tabilization
pectrometers
Test Kits
hermal Destruction
Materials Handling
hysical/ Chemical
hermal Desorption
hysical/ Chemical
'reatment
Technology Vendor
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corp./Spetstamponazhge
ologia Enterprises/STG
Technologies
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
U. of Wisconsin -
Vladison
Bruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
trategic Diagnostic,
nc.
Hanby Environmental
.aboratory Procedure,
nc.
trategic Diagnostic,
Inc. Corp.
WX Technologies, Inc.
U. of Dayton Research
nstitute
National Risk
Management Research
aboratory, The U. of
incinnati, and FRX,
nc.
Sfew Jersey Institute of
echnology
algon Carbon
xidation Technologies
BP Technologies, Inc.
Technology
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
Photocatalytic Water Treatment
Clay-Base Grouting Technology
Membrane Filtration and
Bioremediation
Jltraviolet Radiation and Oxidation
3hotoelectrocatalytic Degradation anc
Removal
Mobile Environmental Monitor
Scentograph Plus n Portable Gas
Chromatograph
Compact Gas Chromatograph
'ield Analytical Screening Program -
PCS Method
PO*WW*ER™ Technology
on Mobility Spectrometry
Ensys Penta Test System
Test Kits for Organic Contaminants
n Soil and Water
RaPID Assay®
yclone Furnace
hotothermal Detoxification Unit
ydraulic Fracturing
HEA Associates Process
erox-pure™ Chemical Oxidation
'echnology
embrane Filtration and
oremediation
Volume, Page
Number |
V2.54
VI, 94
VI, 110
VI, 114
VI, 144
VI, 168
V2.138
V3.20
V3,60
V3.66
V3.78
VI, 178
V3,36
V3,68
V3,38
V3.72
VI, 44
V2.106
VI, 124
V2.86
V1.46
VI, 144
Page 155
-------�
APPLICABILITY INDEX (continued)
Media
.iquids
continued)
Contaminants
'etroleum
Hydrocarbons
(continued)
ladionuclides
SVOCs
Treatment Type
ortable Gas
hromatographs
hysical/ Chemical
Radioactive Waste
Treatment
'hysical/ Chemical
Treatment
Thermal Destruction
Biological
Degradation
'hysical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
RI Instruments
ilter Flow Technology,
nc.
Atomic Energy of
Canada, Limited
elentec Environmental
Technologies, Inc.
BWX Technologies, Inc.
Harding Lawson
Associates
Biotrol®
New York State Dept.
Of Environmental
Conservation/R. E.
Wright Environmental
Inc.
IT Corp.
ZENON Environmental
Inc.
ELI Eco Logic Inc.
KAI Technologies,
Inc./Brown and Root
Environmental
•Jew Jersey Institute of
Technology
SoilTech ATP Systems,
Inc.
ARS Technologies, Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
Technology
Compact Gas Chromatograph
Colloid Polishing Filter Method
Chemical Treatment and
Ultrafiltration
elentec MAG*SEP Technology
Cyclone Furnace
'wo-Zone, Plume Interception, In
Situ Treatment Technology
Biological Aqueous Treatment
System
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
ZenoGem™ Process
Gas-Phase Chemical Reduction
'rocess
Radio Frequency Heating
GHEA Associates Process
Anaerobic Thermal Processor
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
perox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Bioremediation
Volume, Page
Number
V3,66
VI, 76
V2,22
VI, 226
VI, 44
V2.48
V1.38
VI, 130
V2.126
VI, 184
V1.68
VI, 106
V2,86
V1.150
VI, 24
VI, 46
VI, 48 •
V2,54
VI, 94
V2.90 .
VI, 144
Page 156
-------�
APPLICABILITY INDEX (continued)
1
Media
F===
Liquids
(continue)
Contaminants
SVOCs
(continued)
VOCs
1
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Other
Biological
Degradation
_
Materials Handling
Technology Vendor
=^=======
Terra Vac, Inc.
U. of Wisconsin -
Madison
Roy F. Weston,
Inc./IEG Technologies
Xerox Corp.
Analytical and Remedial
Technology, Inc.
Bruker Analytical
Systems, Inc.
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
nc. Corp.
BWX Technologies, Inc.
?exaco Inc.
U. of Dayton Research
Institute
Berkeley Environmental
Restoration Center
Billings and Associates,
nc.
Bio-Rem, Inc.
iotrol®
lectrokinetics, Inc.
New York State Dept. of
invironmental
onservation/R.E.
Wright Environmental,
nc.
T Corp.
.S. Air Force
ENON Environmental
c.
ational Risk
anagement Research
aboratory, The U. of
mcinnati, and FRX,
c.
Technology
: ^t=—-~.
In Situ and Ex Situ Vacuum
Extraction
Photoelectrocatalytic Degradation and
Removal
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Texaco Gasification process
Photothermal Detoxification Unit
In Situ Steam Enhanced Extraction
Process
Subsurface Volatilization and
Ventilation System (SWS® )
Augmented In Situ Subsurface
Bioremediation Process
Biological Aqueous Treatment
System
In Situ Bioremediation by
Electrokinetic Injection
fn Situ Bioventing Treatment System
Dxygen Microbubble In Situ
Bioremediation
'hytoremediation of
rCE-Contaminated Shallow
jroundwater
ienoGem™ Process
Hydraulic Fracturing
| ||
Volume, Page
Number
"
V1.160
V2.138
VI, 176
VI, 180
V3.14
V3,20
V3.78
VI, 178
V3,36
V3,72
VI ,44
VI, 162
V2,106
VI ,28
VI, 30
V1.34
Vl,38
V2.120
VI, 130
V2.126
VI, 234
VI, 184
VI, 124
Page 157
-------�
APPLICABILITY INDEX (continued)
Media
.iquids
continued)
Contaminants
VOCs
continued)
Treatment Type
hysical/ Chemical
hermal Desorption
'hysical/ Chemical
Treatment
Portable Gas
Chromatographs
Technology Vendor
ughes Environmental
y stems, Inc.
KAI Technologies,
nc./Brown and Root
nvironmental
'ew Jersey Institute of
echnology
lochem Separation
y stems, Inc.
oilTech ATP Systems,
Inc.
ARS Technologies, Inc.
Arizona State U./ Zentox
Corp.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
ladian International
LCC
High Voltage
Environmental
Applications, Inc.
KSE, Inc.
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/STG
Technologies
Pulse Sciences, Inc.
SBP Technologies, Inc.
Terra Vac, Inc.
U.S. Filter/WTS Ultrox
U. of Nebraska - Lincoln
UV Technologies, Inc.
Roy F. Weston, Inc.
Roy F. Weston,
Inc./IEG Technologies
Xerox Corp.
ZENON Environmental
Inc.
Bruker Analytical
Systems, Inc.
Technology
team Enhanced Recovery Process
adio Frequency Heating
GHEA Associates Process
Rochem Disc Tube™ Module System
Anaerobic Thermal Processor
'neumatic Fracturing Extraction™
nd Catalytic Oxidation
Photocatalytic Oxidation with Air
tripping
>erox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
(LG-SX) Technology
ntegrated Vapor Extraction and
Steam Vacuum Stripping and Soil
Vapor Extraction/Reinjection
High Energy Electron Irradiation
Adsorption-Integrated-Reaction
"rocess
Photocatalytic Water Treatment
Clay-Base Grouting Technology
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Bioremediation
In Situ and Ex Situ Vacuum
Extraction
Ultraviolet Radiation and Oxidation
Center Pivot Spray Irrigation System
PhotoCAT™ Process
Ambersorb® 563 Adsorbent
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Cross-Flow Pervaporation System
Mobile Environmental Monitor
Volume, Page
Number
VI, 100
VI, 106
V2.86
VI, 142
VI, 150
VI, 24
V2.18
Vl,46
VI, 48
VI, 138
VI, 94
V1.200/
V2.24
VI, 110
VI, 114
V2.90
VI, 144
VI, 160
VI, 168
VI, 170
V2.112
V2,116
VI, 176
VI, 180
VI, 182
V3.20
Page 158
-------�
APPLICABILITY INDEX (continued)
Media
=^===
Liquids
(continued)
Mine
Tailings
Sediment
Contaminants
VOCs
(continued)
Other
Metals
Aromatic VOCs
Treatment Type
Portable Gas
Chromatographs
(continued)
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Other
Physical/ Chemical
Treatment
Materials Handling
olidification/Stabili
ation
Biological
degradation
==
Technology Vendor
HNU Systems, Inc.
Photovac Monitoring
[nstruments
Sentex Sensing
Technology, inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Hanby Environmental
Laboratory Procedure,
nc.
Strategic Diagnostic,
nc. Corp.
Texaco Inc.
Berkeley Environmental
Restoration Center
North American
'echnologies Group,
Inc.
RECRA Environmental,
nc.
U. of South Carolina
Rocky Mountain
Remediation Services,
L.L.C.
tar Organics, L.L.C.
io-Rem Inc.
lectrokinetics, Inc.
GRACE Bioremediation
'echnologies
nstitute of Gas
'echnology
Sfew York State Dept.
f Environmental
onservation/ENSR
onsulting and Larsen
ngineers
ew York State Dept.
f Environmental
onservation/R.E.
iVright Environmental,
c.
Technology
HNU GC 31 ID Portable Gas
Chromatograph
PE Photovac Voyager Portable Gas
Chromatograph
Scentograph Plus n Portable Gas
Chromatograph
Compact Gas Chromatograph
Pield Analytical Screening Program -
PCS Method
PO*WW*ER™ Technology
on Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
RaPID Assay®
Texaco Gasification Process
n Situ Steam Enhanced Extraction
Oleophilic Amine-Coated Ceramic
Chip
Alternating Electrocoagulation
n Situ Mitigation of Acid Water
invirobond Solution
oil Rescue Remediation Fluid
Augmented In Situ Subsurface
Jioremediation Process
n Situ Bioremediation by
lectrokinetic Injection
DARAMEND™ Bioremediation
'echnology
luid Extraction - Biological
Degradation Process
x Situ Biovault
n Situ Bioventing Treatment System
Volume, Page
Number 1
V3,42
V3,56
V3.60
V3,66 •
V3.78
VI, 178
V3.36
V3,38
V3.72
VI, 162
VI, 28
VI, 132
V2,92
V2.108
VI, 222
V2.120
Vl,90
V2,58
VI, 126
VI, 130
Page 159
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
continued)
Contaminants
Aromatic VOCs
continued)
Treatment Type
Biological
)egradation
continued)
Materials Handling
Physical/ Chemical
liermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Thermal Destruction
Technology Vendor
TCorp.
U.S. EPA
Biotherm, LCC
Vlaxymillian
Technologies, Inc.
NOVATERRA, Inc.
Recycling Sciences
International, Inc.
loy P. Weston, Inc.
tergmann, A Division of
Linatex, Inc.
CF Systems Corp.
Electrokinetics, Inc.
High Voltage
Environmental
Applications, Inc.
ligh Voltage
invironmental
Applications, Inc.
Institute of Gas
Technology
Ionics RCC
IT Corp.
Terra Vac, Inc.
Jruker Analytical
Systems, Inc.
U.S. EPA
Geo-Con, Inc.
Rocky Mountain
Remediation Services,
L.L.C.
Star Organics, L.L.C.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Sonotech, Inc.
Texaco Inc.
Technology
Oxygen Microbubble In Situ
Jioremediation
Excavation Techniques and Foam
uppression Methods
Jiotherm Process
Thermal Desorption System
n-Situ Soil Treatments (Steam/ Air
Stripping)
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatment
LT3®) System
Soil and Sediment Washing
Liquified Gas Solvent Extraction
(LG-SX) Technology
Electrokinetic Soil Processing
High Energy Electron Beam
Irradiation
ligh Energy Electron Irradiation
Supercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
n Situ and Ex Situ Vacuum
ixtraction
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
In Situ Solidification and Stabilization
Process
Envirobond Solution
Soil Rescue Remediation Fluid
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Ion Mobility Spectrometry
Frequency-Turnable Pulse
Combustion System
Texaco Gasification Process
Volume, Page
Number
V2.126
VI, 166
Vl,36
VI, 112
VI, 134
VI, 220
VI, 174
VI, 26
VI, 48
VI, 66
V2,54
VI, 94
V2.62
VI, 104
V2,68
VI, 160
V3,20
V3.78
VI, 82
VI, 222
VI, 232
VI, 172
V2.114
V3,36
VI, 154
VI. 162
Page 160
-------�
APPLICABILITY INDEX (continued)
Media
=====
Sediment
(continued)
Contaminants
============
Aromatic VOCs
(continued)
Cyanide
Dioxins
Treatment Type
Thermal Destruction
(continued)
Biological
Degradation
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
^reatment
ortable Gas
hromatographs
olidification/
tabilization
sectrometers
est Kits
iermal Desorotion
Technology Vendor
U. of Dayton Research
Institute
Vortec Corp.
Pintail Systems, Inc.
Biotrol®
Institute of Gas
Technology
U.S. EPA
ELI Ecb Logic Inc.
ELI Eco Logic
international Inc.
Recycling Sciences
nternational, Inc.
Roy F. Weston, Inc.
ART International, Lie.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
onics RCC
T Corp.
National Risk
Management Research
Laboratory and IT Corp.
National Risk
Management Research
Laboratory and IT Corp.
lerra-Kleen Response
Group
rinity Environmental
'echnologies, Inc.
ruker Analytical
ystems, Inc.
jeosafe Corp.
(VASTECH, Inc.
raseby Ionics, Ltd.,
nd PCP, Inc.
trategic Diagnostic,
nc. Corp.
WX Technoloeies. Inc.
Technology
Photothermal Detoxification Unit
Vitrification Process
Spent Ore Bioremediation Process
Soil Washing System
Fluid Extraction - Biological
Degradation Process
Excavation Techniques and Foam
Suppression Methods
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit .
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatmen
(LT3®) System
.xw-Energy Extraction Process
(LEEP)
jquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
'rocess
)ebris Washing System
olvent Extraction Treatment System
CB- and
Organochlorine-Contaminated Soil
Detoxification
Mobile Environmental Monitor
jeoMelt Vitrification
olidification and Stabilization
on Mobility Spectrometry
aPID Assay®
vclone Furnace
Volume, Page
Number
V2.106 1
VI, 236
V1.214
VI, 40
V2.58
VI, 166
VI, 68
VI, 70
VI, 220
VI, 174
V2.20
VI ,48
VI, 94
VI, 104
V2,68
VI, 116
VI, 122
VI, 158
V2,104
V3,20
VI, 84
VI, 172
V3.36
V3.72
VI .44
Page 161
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
continued)
Contaminants
Dioxins
continued)
Explosives
Furans
Treatment Type
'hermal Desorption
continued)
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Biological
3egradation
Materials Handling
5hysical/ Chemical
Thermal Desorption
'hysical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Technology Vendor
inergy and
invironmental Research
Corp.
nstitute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
.R. Simplot Co.
New Jersey Institute of
Technology
Biotrol®
nstitute of Gas
Technology
U.S. EPA
3LI Eco Logic Inc.
ELI Eco Logic
nternational Inc.
Recycling Sciences
International, Inc.
Roy F. Weston, Inc.
ART International, Inc.
CF Systems Corp.
High Voltage
invironmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
Laboratory and IT Corp.
National Risk
Management Research
Laboratory and IT Corp.
Terra-Kleen Response
Group
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
Geosafe Corp.
WASTECH. Inc.
Technology
leactor Filter system
'luidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
The SABRE™ Process
GHEA Associates Process
Soil Washing System
'luid Extraction - Biological
degradation Process
ixcavation Techniques and Foam
Suppression Methods
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatment
(LT3®) System
.xiw-Energy Extraction Process
(LEEP)
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
Process
Debris Washing System
Solvent Extraction Treatment System
PCB- and
Organochlorine-Contaminated Soil
Detoxification
Mobile Environmental Monitor
GeoMelt Vitrification
Solidification and Stabilization
Volume, Page
Number
V2,42
V2.60
V2.106
VI, 236
VI, 66
V2.86
VI, 40
V2.58
VI, 166
Vl,68
VI, 70
VI, 220
VI, 174
V2.20
VI, 48
V1.94
VI, 104
V2,68
VI, 116
VI, 122
VI, 158
V2.104
V3.20
V1.84
VI, 172
Page 162
-------�
APPLICABILITY INDEX (continued)
Media
(continued)
1 ...
Contaminants
Furans
(continued)
Halogenated
VOCs
-i — "
Treatment Type
=*-^—
Spectrometers
Test Kits
Thermal Desorption
Biological
Degradation
Materials Handling
Physical Chemical
Treatment -
Biological
Degradation
Physical/ Chemical
rhermal Desorption
-
•
"
I —
Technology Vendor
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
JBWX Technologies, Inc.
(Energy and
Environmental Research
Corp. ', . , ...
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
Biotrol®
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
Institute of Gas
Technology
J.R. Simplot Co.
U.S. EPA
Lasagna™ Public -
Private Partnership
ELI Eco Logic Inc.
ELI Eco Logic
fnternational Inc.
Vlaxymillian
Technologies, Inc.
3HM Remediation
Services Corp.
Recycling Sciences
nternational, Inc.
Smith Environmental
Technologies Com.
1 Technology
1 ===========================
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Reactor Filter system
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Soil Washing System
In Situ Bioremediation by
Etectrokinetic Injection
DARAMEND™ Bioremediation
Technology
Fluid Extraction - Biological
Degradation Process
The SABRE™ Process
Excavation Techniques and Foam
Suppression Methods
Lasagna™ In Situ Remediation
Gas-Phase Chemical Reduction
Process
rhermal Desorption Unit
rhermal Desorption System
£*TRAX™ Thermal Desorption
Desorption and Vapor Extraction
System
^ow Temperature Thermal Aeration
T.TTA®1
i il
Volume, Page
1 Number 1
V3.36
V3.72
VI, 44
V2,42
V2,60
V2.106
VI 236 1)
VI, 40
V2.120
V1.90
V2.58
VI. 66
V1.166
VI ,202
V1.68
VI, 70
VI, 112
VI, 136
V1.220
VI, 148
Physical/ Chemical
Treatment
Roy F. Weston, Inc.
ART International, Inc.
Bergmann, A Division of
Linatex, Inc.
CF Systems Corp.
High Voltage
Environmental
Applications. Inc.
Low Temperature Thermal Treatment
(LT3®) System
Low-Energy Extraction Process
(LEEP)
Soil and Sediment Washing
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
VI, 174
V2,20
V1.26
V1.48
VI, 94
Page 163
-------�
APPLICABILITY INDEX (continued)
1 Media
Sediment
(continued)
Contaminants
'alogenated
VOCs
continued)
Mercury
Metals
Treatment Type
3ysicaI/Chemical
reatment
continued)
'ortable Gas
Chromatographs
olidification/
tabilization
pectrometers
Test Kits
Thermal Destruction
Contaminant Survey
systems
Physical/ Chemical
Treatment
Mological
Degradation
Field Portable X-ray
Fluorescence
Materials Handling
Technology Vendor
onics RCC
TCorp.
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT Corp.
Jruker Analytical
ystems, Inc.
Chemfix Technologies,
Inc.
WASTECH, Inc.
Graseby Ionics, Ltd.,
nd PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
J. of Dayton Research
Institute
Vortec Corp.
Quadrel Srvices, Inc.
Radiometer Analytical
Group
Bionebraska, Inc.
Geo-Microbial
Technologies, inc.
Phytotech
Pintail Systems, Inc.
Pintail Systems, Inc.
NITON Corp.
C-THRU Technologies
Corporation
TN Spectrace
AEA Technology
Environment
Montana College of
Mineral Science and
Technology
U.S. EPA
U. of South Carolina
Technology
.E.S.T. Solvent Extraction
echnology
Mixed Waste Treatment Process
ase-Catalyzed Decomposition
'rocess
)ebris Washing System
Mobile Environmental Monitor
olidification and Stabilization
olidification and Stabilization
on Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Photothermal Detoxification Unit
Vitrification Process
imflux Soil-Gas Survey System
Anodic Stripping Voltammetry for
Mercury in Soil
BiMelyze® Mercury Immunoassay
Metals Release and Removal from
Wastes
Phytoremediation Technology
Biomineralization of Metals
Spent ore Bioremediation Process
XL Spectrum Analyzer
Metal Analysis Probe (MAP®)
Portable Assayer
9000 X-Ray Fluorescence Analyzer
and Lead X-Ray Fluorescence
Analyzer
Soil Separation and Washing Process
Campbell Centrifugal Jig
Excavation Techniques and Foam
Suppression Methods
In Situ Mitieation of Acid Water
olume, Page
Number
VI, 104
V2.68
V1.116
VI, 122
V3.20
Vl,50
VI, 172
V3,36
V3.72
VI, 44
V2.106
VI, 236
V3.54
V3.58
V3.18
V2.124
VI, 212
V2,130
V1.214
V3,52
V3.22
V3.74
V2.16
V2.84
VI, 166
V2.108
Page 164
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
Metals
(continued)
Treatment Type
Physical Chemical
Treatment -
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
olidification/
tabilization
Technology Vendor
Lasagna™ Public -
Private Partnership
New Jersey Institute of
Technology
Bergmann, A Division o
Linatex, Inc.
BioGenesis Enterprises,
toe.
Center for Hazardous
Materials Research
COGNIS, Inc.
Dynaphore, Inc.
31ectrokinetics, Inc.
General Atomics,
Nuclear Remediation
Technologies Div.
IT Corp.
IT Corp.
IT Corp.
National Risk
Management Research
^aboratory and IT Corp.
Selentec Environmental
Technologies, Inc.
!"oronto Harbour
Commission
Chemfix Technologies,
nc.
Ferro Corp.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
evenson Environmental
ervices, Inc.
oliditech, inc.
TC Remediation, A
division of Omega
invironmental, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Technology
Lasagna™ In Situ Soil Remediation
GHEA Associates Process
Soil and Sediment Washing
SioGenesisSM Soil and Sediment
Washing
Acid Extraction Treatment System
TERRAMET Soil Remediation
System
FORAGER® Sponge
Electrokinetic Soil Processing
Acoustic Barrier Paniculate
Separator
Batch Steam Distillation and Metal
ixtraction
Chelation/Electrodeposition of Toxic
Metals from Soils
Mixed Waste Treatment Process
Debris Washing System
Selentec MAG*SEP Technology
Soil Recycling
Solidification and Stabilization
Waste Vitrification Through Electric
belting
Dechlorination and Immobilization
n Situ Solidification and Stabilization
Process
GeoMelt Vitrification
MAECTITE® Chemical Treatment
'rocess
olidification and Stabilization
Drganic Stabilization and Chemical
ixation/ Solidification
olidification and Stabilization
Coordinate, Chemical Bonding, and
\dsorption Treatment -
Volume, Page
VI, 202
V2,86
VI ,26
Vl,32
V2.30
Vl,52
VI, 62
V1.66
V2.48
V2.64
V2.66
V2.68
VI, 122
VI, 226
VI, 162
VI, 50
V2,46
Vl,78
Vl,82
VI, 84
V3.60
VI, 152
VI, 156
VI, 172
V2.114
Page 165
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
Metals
(continued)
Organics
PAHs
PCBs
Treatment Type
Thermal Destruction
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Technology Vendor
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Energy and
Environmental Research
Corp.
Horsehead Resource
Development Co., Inc.
Institute of Gas
Technology
Vortec Corp.
Gruppo Italimpresse
ECOVA Corp.
Environmental
BioTechnologies, Inc.
Institute of Gas
Technology
Remediation
Technologies, Inc.
Maxymillian
Technologies, inc.
Recycling Sciences
International, Inc.
Bergmann, A Division of
Linatex, Inc.
BioGenesis Enterprises,
Inc.
Bruker Analytical
Systems, Inc.
Institute of Gas
Technology
Institute of Gas
Technology
Phytokinetics, Inc.
U.S. EPA
Biotherm, LCC
ELI Eco Logic
International Inc.
ELI Eco Logic
International Inc.
KAI Technologies, Inc./
Brown and Root
Environmental
New Jersey Institute of
Technology
Technology
Cyclone Furnace
rlybrid Fluidized Bed System
Reactor Filter System
Plame Reactor
Fluidized-Bed/Cydonic
Agglomerating Combustor
Vitrification Process
tnfared Thermal Destruction
Bioslurry Reactor
Fungal Degradation Process
Fluid Extraction - Biological
Degradation Process
Liquid and Solids Biological
Treatment
Thermal Desorption and Vapor
Extraction System.
Desorption and Vapor Extraction
System
Soil and Sediment Washing
BioGenesisSM Soil and Sediment
Washing Process
Mobile Environmental Monitor
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Phytoremediation Process
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Radio Frequency Heating
GHEA Associates Process
Volume, Page
Number
VI, 44
V2.40
V2.42
VI, 96
V2,60
VI, 236
VI, 92
VI, 64
V2,44
V2,58
VI, 140
VI, 112
VI, 220
VI, 26
VI, 32
V3,2o ;
V2.56
V2,58
Vl,210
VI, 166
Vl,36
V1.68
VI, 70
VI, 106
V2.86
Page 166
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
PCBs
(continued)
Treatment Type
Physical/ Chemical
Thermal Desorption
(continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
olidification/
tabilization
Technology Vendor
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
Roy F. Weston, Inc.
ART International, Inc.
Bergmann, A Division o:
Linatex, Inc.
BioGenesis Enterprises,
tnc.
CF Systems Corp.
Commodore
Environmental Services,
!nc.
General Atomics
ligh Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Vlanagement Research
^aboratory
National Risk
Management Research
.aboratory and IT Corp.
State U. of New York at
Oswego, Environmental.
Research Center
'erra-Kleen Response
Group, Inc.
'rinity Environmental
Technologies, Inc.
Jruker Analytical
ystems, Inc.
U.S. EPA
Chemfix Technologies,
nc.
'underburk & Associates
Geo-Con, Inc.
Technology
X*TRAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatmen
(LT3®) System
Low-Energy Extraction Process
(LEEP)
Soil and Sediment Washing
BioGenesisSM Soil and Sediment
Washing Process
Liquified Gas Solvent Extraction
(LG-SX) Technology
Solvated Electron Remediation
System
Circulating Bed Combustor
ligh Energy Electron Beam
rradiation
High Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
'rocess
Debris Washing System
Electrochemical Peroxidation of
'CB-Contaminated Sediments and
Waters
olvent Extraction Treatment System
>CB- and Organochlorine-
Contaminated Soil Detoxification
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
olidification and Stabilization
Dechlorination and Immobilization
n Situ Solidification and Stabilization
Volume, Page
VI, 136
VI, 220
VI, 174
V2.20
VI, 26
V1.32
VI ,48
V1.56
VI, 80
V2.54
VI, 94
VI, 104
V2,68
VI, 116
VI, 122
V2.98
VI, 158
V2.104
V3.20
V3.78
VI, 50
V1.78
V1.82
Page 167
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
PCBs
[continued)
PCP
Pesticides
Treatment Type
Solidification/
Stabilization
(continued)
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Test Kits
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Technology Vendor
Geosafe Corp.
Soliditech, inc.
WASTECH, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
he.
BWX Technologies, Inc.
inergy and
invironmental Research
Corp.
institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
Remediation
Technologies, Inc.
Recycling Sciences
International, Inc.
Trinity Environmental
Technologies, Inc.
Strategic Diagnostic,
Inc.
Strategic Diagnostic,
[nc. Corp.
Biotrol®
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
Institute of Gas
Technology
Institute of Gas
Technology
Phytokinetics, Inc.
U.S. EPA
Biotherm, LCC
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
KAI Technologies, Inc./
Brown and Root
Environmental
OHM Remediation
Services Corn.
Technology
GeoMelt Vitrification
Solidification and Stabilization
Solidification and Stabilization
!on Mobility Spectrometry
3nsys Penta Test System
Cyclone Furnace
Hybrid Fluidized Bed System
?luidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Liquid and Solids Biological
Treatment
Desorption and Vapor Extraction
System
PCB- and Organochlorine-
Contaminated Soil Detoxification
Bnsys Penta Test System
RaPID Assay®
Soil Washing System
En Situ Bioremediation by
Electrokinetic Injection
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Phytoremediation Process
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Radio Frequency Heating
X*TRAX™ Thermal Desorption
Volume, Page
Number
Vl,84
VI, 152
VI, 172
V3,36
V3.68
VI, 44
V2,40 :
V2,60
V2.106
VI, 236
VI, 140
Vl,220
V2.104
V3.68
V3.72
VI, 40
V2.120
VI, 90
V2.56
V2,58
Vl,210
VI, 166
Vl,36
V1.68
VI, 70
VI, 106
VI ,136
Page 168
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
Pesticides
(continued)
Treatment Type
Physical/Chemical
Thermal Desorption
(continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Technology Vendor
Recycling Sciences
International, Inc.
Smith Environmental
Technologies Corp.
Roy F. Weston, Inc.
ART International, Inc.
Bergmann, A Division o1
Linatex, Inc.
CF Systems Corp.
Commodore
Environmental Services,
Inc.
Electrokinetics, Inc.
General Atomics
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
Laboratory
National Risk
Vlanagement Research
Laboratory and IT Corp.
State U. of New York at
Oswego, Environmental
Research Center
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Jruker Analytical
Systems, Inc.
U.S. EPA
Chemfix Technologies,
nc.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Technology
Desorption and Vapor Extraction
System
Low Temperature Thermal Aeration
(LTTA®)
Low Temperature Thermal Treatment
(LT3®) System
Low-Energy Extraction Process
(LEEP)
Soil and Sediment Washing
Liquified Gas Solvent Extraction
(LG-SX) Technology
Solvated Electron Remediation
System
Electrokinetic Soil Processing
Circulating Bed Combustor
High Energy Electron Beam
Irradiation
3igh Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
vlixed Waste Treatment Process
Base-Catalyzed Decomposition
Process
Debris Washing System
ilectrochemical Peroxidation of
'CB-Contaminated Sediments and
Waters
Solvent Extraction Treatment System
PCB- and Organochlorine-
Contaminated Soil Detoxification
VIobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
Solidification and Stabilization
Dechlorination and Immobilization
n Situ Solidification and Stabilization
'rocess
GeoMelt Vitrification
Volume, Page
Number
VI ,220
VI, 148
VI, 174
V2.20
VI, 26
VI, 48
Vl,56
VI, 66
V1.80
V2.54
VI, 94
VI, 104
V2.68
VI, 116
VI, 122
V2.98
VI, 158
V2.104
V3.20
V3,78
VI, 50
Vl,78
V1.82
VI, 84
Page 169
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
Pesticides
(continued)
Petroleum
Hydrocarbons
Radionuclides
SVOCs
Treatment Type
Solidification/
Stabilization
(continued)
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Solidification/
Stabilization
Materials Handling
Physical/ Chemical
Treatment
Solidification/
Stabilization
Thermal Destruction
Biological
Degradation
Technology Vendor
Soliditech, Inc.
WASTECH, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
ECOVA Corp.
Remediation
Technologies, Inc.
New Jersey Institute of
Technology
Smith Environmental
Technologies Corp.
Soliditech, Inc.
Thermo Nutech, Inc.
Bergmann, A Division of
Linatex, Inc.
IT Corp.
Selentec Environmental
Technologies, Inc.
Sevenson Environmental
Services, Inc.
WASTECH, Inc.
BWX Technologies, Inc.
Biotrol®
ECOVA Corp.
GRACE Bioremediation
Technologies
Institute of Gas
Technology
Institute of Gas
Technology
IT Coro.
Technology
Solidification and Stabilization
Solidification and Stabilization
Ion Mobility Spectirometry
Ensys Penta Test System
RaPID Assay®
Cyclone Furnace
Hybrid Fluidized Bted System
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Bioslurry Reactor
Liquid and Solids Biological
Treatment
GHEA Association process
Low Temperature Thermal Aeration
(LTTA®)
Solidification and Stabilization
Segmented Gate System
Soil and Sediment Washing
Mixed Waste Treatment Process
Selentec MAG*SEP Technology
MAECTITE® Chemical Treatment
Process
Solidification and Stabilization
Cyclone Furnace
Soil Washing System
Bioslurry Reactor ,
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Tekno Associates Bioslurrv Reactor
Volume, Page
Number
VI, 152
VI, 172
V3,36
V3,68
V3.72
VI ,44
V2,40
V2,60
V2,106
VI, 236
VI, 64
VI, 140
V2.86
V1.148
VI, 152
V2.134
Vl,26
V2.68
VI, 226
VI, 228
VI, 172
VI, 44
VI, 40
VI, 64
Vl,90
V2,56
V2,58
V2.72
Page 170
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
SVOCs
(continued)
Treatment Type
Biological
Degradation
(continued)
Contaminant Survey
systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
New York State Dept.
Of Environmental
Conservation/ENSR
Consulting and Larsen
Engineers
New York State Dept.
Of Environmental
Conservation/R.E.
Wright Environmental,
Inc.
IT Corp.
Remediation
Technologies, Inc.
Quadrel Srvices, Inc.
U.S. EPA
Biotherm, LCC
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
iCAI Technologies,
Inc. /Brown and Root
Environmental
Vlaxymillian
Technologies, Inc.
SFew Jersey Institute of
Technology
NOVATERRA, Inc.
OHM Remediation
Services Corp.
iecycling Sciences
liter-national, Inc.
Smith Environmental
Technologies Corp.
loy F. Weston, Inc.
Sergmann, A Division of
Jnatex, Inc.
CF Systems Corp.
ilectrokinetics, Inc.
High Voltage
Environmental
Applications, Inc.
Technology
Ex Situ Biovault
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
Liquid and Solids Biological
Treatment
Emflux Soil-Gas Survey System
Excavation Techniques and Foam
Suppression methods
Biotherm Process
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Radio Frequency Heating
Thermal Desorption System
GHEA Association process
h-Situ Soil Treatments (Steam/ Air
Stripping)
X*TRAX™ Thermal Desorption
Jesorption and Vapor Extraction
System
Low Temperature Thermal Aeration
LTTA®)
^ow Temperature Thermal Treatment
LT3®) System
Soil and Sediment Washing
Jquified Gas Solvent Extraction
(LG-SX) Technology
ilectrokinetic Soil Processing
High Energy Electron Beam
rradiation
Volume, Page
Number
VI, 126
VI, 130
V2.126
VI, 140
V3,54
VI, 166
V1.36
V1.68
VI, 70
VI, 106
VI, 112
V2,86
VI, 134
VI, 136
VI ,220
VI, 148
VI, 174
VI, 26
VI, 48
VI, 66
V2.54
Page 171
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
SVOCs
(continued)
VOCs
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Technology Vendor
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT Corp.
Terra-Kleen Response
Group, Inc.
Terra Vac, Inc.
Toronto Harbour
Commission
Bruker Analytical
Systems, Inc.
U.S. EPA
Chemfix Technologies,
Inc.
Geo-Con, Inc.
STC Remediation, A
Division of Omega
Environmental, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Institute of Gas
Technology
Sonotech, Inc.
Texaco Inc.
U. of Dayton Research
Institute
Vortec Corp.
Bio-Rem, Inc.
ECOVA Com.
Technology
High Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
Process
Debris Washing System
Solvent Extraction Treatment System
In Situ and Ex Situ Vacuum
Extraction
Soil Recycling.
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
Solidification and Stabilization
In Situ Solidification and Stabilization
Process
Organic Stabilization and Chemical
Fixation/ Solidification
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Frequency-Tunable Pulse Combustion
System
Texaco Gasification Process
Photothermal Detoxification Unit
Vitrification Process
Augmented In Situ Subsurface
Bioremediation Process
Bioslurry Reactor
Volume, Page
Number
VI, 94
VI, 104
V2.68
V1.116
VI, 122
VI, 158
VI, 160
VI, 162
V3.20
V3,78
V1.50
VI ,82
VI, 156
VI, 172
V2.H4
V3,36
V3.72
VI, 44
V2,60
VI, 154
VI, 162
V2.106
VI, 236
Vl,34
VI. 64
Page 172
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Contaminants
VOCs
(continued)
Treatment Type
Biological
Degradation
(continued)
Contaminant Survey
systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Electrokinetics, Inc.
New York State Dept.
Of Environmental
Conservation/ENSR
Consulting and Larsen
Engineers
New York State Dept.
Of Environmental
Conservation/R.E.
Wright Environmental,
[nc.
IT Corp.
Phytokinetics, Inc.
Quadrel Srvices, Inc.
AEA Technology
Environment
U.S. EPA
Biotherm, LCC
KAI Technologies,
tnc. /Brown and Root
Environmental
Maxymillian
Technologies, Inc.
New Jersey Institute of
Technology
NOVATERRA, Inc.
Recycling Sciences
International, Inc.
Smith Environmental
Technologies Corp.
Roy F. Weston, Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Institute of Gas
Technology
Ionics RCC
IT Corp.
IT Coro.
Technology
[n Situ Bioremediation by
Electrokinetic Injection
Ex Situ Biovault
[n Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
Phytoremediation Process
Emflux Soil-Gas Survey System
Soil Separation and Washing Process
Excavation Techniques and Foam
Suppression methods
Biotherm Process
Radio Frequency Heating
Thermal Desorption System
GHEA Association process
In-Situ Soil Treatments (Steam/ Air
Stripping)
Desorption and Vapor Extraction
System
Low Temperature Thermal Aeration
(LTTA®)
Low Temperature Thermal Treatment
(LT3®) System
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Energy Electron Irradiation
Supercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Batch Steam Distillation and Metal
Extraction
Mixed Waste Treatment Process
Volume, Page
Number
V2,120
VI, 126
VI, 130
V2.126
Vl,210
V3.54
V2,16
V1.166
V1.36
VI, 106
VI, 112
V2.86
VI, 134
VI, 220
VI, 148
VI, 174
VI, 48
VI, 94
V2,62
VI, 104
V2,64
V2.68
Page 173
-------�
APPLICABILITY INDEX (continued)
Media
Sediment
(continued)
Sludge
Contaminants
VOCs
(continued)
Other
Aromatic VOCs
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Solidification/
Stabilization
Biological
)egradation
Technology Vendor
Terra-Kleen Response
Group, Inc.
Terra Vac, Inc.
Bruker Analytical
Systems, Inc.
U.S. EPA
Geo-Con, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
tnc. Corp,
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
Sonotech, Inc.
Texaco Inc.
Vortec Corp.
STC Remediation, A
Division of Omega
Environmental, Inc.
Bio-Rem, Inc.
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
nstitute of Gas
Technology
New York State Dept. of
Environmental
Conservation/ ENSR
Consulting and Larsen
Engineers
New York State Dept. of
Environmental
Conservation/ R.E.
Wright Environmental,
nc.
Technology
Solvent Extraction Treatment System
In Situ and Ex Situ Vacuum
Extraction
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
[n Situ Solidification and Stabilization
Process
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Ion Mobility Spectrometry
RaPID Assay®
Hybrid Fluidized Bed System
i'luidized-Bed/Cyclonic
Agglomerating Combustor
Frequency-Tunable Pulse Combustion
System
Texaco Gasification Process
Vitrification Process
Organic Stabilization and Chemical
Fixation/ Solidification
Augmented In Situ Subsurface
Jioremediation Process
n Situ Bioremediation By
Electrokinetic Injection
DARAMEND™ Bioremediation
Technology
Fluid Extraction - Biological
Degradation process
Ex Situ Bio vault
n Situ Bioventing Treatment System
Volume, Page
Number
VI, 158
VI, 160
V3,20
V3.78
VI, 82
VI, 172
V2.114
V3,36
V3.72
V2,40
V2,60
VI, 154
VI, 162
V1.236
VI, 156
VI, 34
V2.120
VI, 90
V2,58
VI, 126
VI, 130
Page 174
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Aromatic VOCs
(continued)
Treatment Type
Biological
Degradation
(Continued)
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Thermal Destruction
Technology Vendor
IT Corp.
United States
Environmental
Protection Agency
Biotherm, LCC
Maxymillian
Technologies, Inc.
NOVATERRA, Inc.
Recycling Sciences
International, Inc.
Smith Environmental
Technologies Corp.
CF Systems Corp.
Electrokinetics, inc.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Institute of Gas
Technology
Ionics RCC
IT Corp.
Terra Vac, Inc.
Bruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Geo-Con, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Sonotech, Inc.
Texaco, Inc.
Technology
Oxygen Microbubble In Situ
Bioremediation
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Thermal Desorption System
In-Situ Soil Treatments (Steam/Air
Stripping)
Desorption and Vapor Extraction
System
Low Temperature Thermal Aeration
[LTTA®]
Liquified Gas Solvent Extraction
[LG-SX] Technology
Electrokinetic Soil Processing
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
Supercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Vfixed Waste Treatment Process
[n Situ and Ex Situ Vacuum
Extraction
VIobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
[n Situ Solidification and Stabilization
Process
Solidification/ Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
ton Mobility Spectrometry
Frequency-Tunable Pulse Combustion
System
Texaco Gasification Process
Volume, Page
Number
V2.126
VI, 166
Vl,36
VI, 112
VI, 134
VI, 220
VI, 148
VI ,48
V1.66
V2.54
VI ,94
V2.62
VI, 104
V2.68
VI, 160
V3.20
V3.78
V1.82
VI ,172
V2.114
V3,36
VI, 154
VI, 162
Page 175
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Aromatic VOCs
(continued)
Cyanide
Dioxins
Treatment Type
Thermal Destruction
(continued)
Biological
Degradation
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Thermal Destruction
Technology Vendor
U. of Dayton Research
Institute
Vortec Corp.
Pintail Systems, Inc.
Institute of Gas
Technology
U.S. EPA
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
Recycling Sciences
International, Inc.
Roy F. Weston, Inc.
ART International, Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
laboratory
National Risk
Management Research
laboratory
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
Geosafe Corp.
WASTECH, Inc.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Technology
Photothermal Detoxification Unit
Vitrification Process
Spent ore Bioremediation Process
Fluid Extraction - Biological
Degradation Process
Excavation Techniques and Foam
Suppression Methods
Gas-Phase Chemical Reduction
Process
Thermal Desorption unit
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatment
(LT3®) Systems
Low-Energy Extraction Process
(LEEP)
Liquified Gas Solvent Extraction
[LG-SX] Technology
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
Process
Debris Washing System
Solvent Extraction Treatment System
PCB- and Organochlorine-
Contaminated Soil Detoxification
Mobile Environmental Monitor
GeoMelt Vitrification
Solidification/ Stabilization
Cyclone Furnace
Reactor Filter System
Volume, Page
Number
V2.106
VI, 236
VI, 214
V2.58
VI, 166
Vl,68 ,
VI, 70
V1.220
VI, 174
V2.20
VI, 48
VI, 94
VI, 104
V2,68
VI, 116
VI, 122
VI, 158
V2.104
V3,20
VI, 84
VI, 172
V1.44
V2.42
Page 176
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Dioxins
(continued)
Explosives
Furans
Treatment Type
Thermal Destruction
(continued)
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Thermal Desorption
Technology Vendor
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
J.R. Simplot Co.
New Jersey Institute of
Technology
Institute of Gas
Technology
U.S. EPA
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
Recycling Sciences
International, Inc.
Roy F. Weston, Inc.
ART International, Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
Geosafe Corp.
WASTECH, Inc.
BWX Technologies, Inc.
Technology
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Photothermal Detoxification unit
Vitrification Process
The SABRE™ Process
GHEA Associates Process
Fluid Extraction - Biological
Degradation Process
Excavation Techniques and Foam
Suppression Methods
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatment
(LT3®) System
Low-Energy Extraction Process
(LEEP)
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
Process
Debris Washing System
Solvent Extraction Treatment
Systems
PCB- and Organochlorine-
Contaminated Soil Detoxification
Mobile Environmental Monitor
GeoMelt Vitrification
Solidification and Stabilization
Cyclone Furnace
Volume, Page
Number
V2.60
V2.106
VI, 236
V1.66
V2,86
V2,58
VI, 166
V1.68
VI, 70
Vl,220
VI, 174
V2.20
VI ,48
Vl,94
VI, 104
V2.68
VI, 116
VI, 122
VI, 158
V2.104
V3,20
Vl,84
VI, 172
V1.44
Page 177
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Furans
(continued)
Halogenated
VOCs
Treatment Type
Thermal Desorption
(continued)
Biological
Degradation
Materials Handling
Physical/ Chemical
Treatment -
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
Bio-Rem, Inc.
New York State Dept. of
Environmental
Conservation/ ENSR
Consulting and Larsen
Engineers
New York State Dept. of
Environmental
Conservation/ R.E.
Wright Environmental,
Inc.
IT Corp.
United States
Environmental
Protection Agency
Lasagna™
Public-Private
Partnership
KAI Technologies,
Inc./Brown and Root
Environmental
New Jersey Institute of
Technology
NOVATERRA, Inc.
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
Roy F. Weston, Inc.
CF Systems Corp.
Commodore
Environmental Services,
Inc.
Electrokinetics, inc.
Technology
Reactor Filter System
FIuidized-Bed/ Cyclonic
Agglomerating Combustor
Photothermal Detoxification unit
Vitrification Process
Augmented In Situ Subsurface
Bioremediation Process
Ex Situ Biovault
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
Excavation Techniques and Foam
Suppression Methods
Lasagna™ In Situ Soil Remediation
Radio Frequency Heating
GHEA Associates Process
In-Situ Soil Treatments (Steam/ Air
Stripping)
X*TRAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Low Temperature Thermal Treatment
(LT3®) System
Liquified Gas Solvent Extraction
[LG-SX] Technology
Solvated Electron Remediation
System
Electrokinetic Soil Processing
Volume, Page
Number
V2.42
V2,60
V2,io6 ;
VI, 236
V1.34
VI, 126
VI, 130
V2.126
VI, 166
VI, 202
VI, 106
V2.86
VI, 134
VI, 136
Vl,220
VI, 174
VI, 48
V1.56
Vl,66
Page 178
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants.
Halogenated
VOCs
(continued)
Heavy Metals
Heavy Minerals
Herbicides
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Thermal Destruction
Field Portable X-ray
Fluorescence
Materials Handling
Biological
Degradation
Technology Vendor
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Institute of Gas
Technology
Ionics RCC
IT Corp.
Terra Vac, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Geo-Con, Inc.
WASTECH, Inc.
Graseby Ionics, Ltd. ,
and PCP, Inc.
Energy and
Environmental Research
Corp.
Texaco, Inc.
U. of Dayton Research
Institute
Vortec Corp.
HNU Systems, Inc.
Montana College of
Mineral Science and
Technology
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
Institute of Gas
Technology
J.R. Simplot Co.
: Technology, . . • ;
High-Energy Electron Beam
Irradiation
High-Energy Electron Irradiation
Supercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
In Situ and Ex Situ Vacuum
Extraction
PCB- and Organochlorine-
Contaminated Soil Detoxification
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
In Situ Solidification and Stabilization
Process
Solidification/ Stabilization
Ion Mobility Spectrometry
Hybrid Fluidized Bed System
Texaco Gasification Process
Photothermal Detoxification Unit
Vitrification Process
SNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-ray
Fluorescence Analyzer
Campbell Centrifugal Jig
In Situ Bioremediation by
Electrokinetic Injection
DARAMEND™ Bioremediation
Technology .
Fluid Extraction - Biological
Degradation Process
The SABRE™ Process
Volume, Page
Number
V2.54
VI, 94
V2,62
VI, 104
V2.68
VI, 160
V2.104
V3,20
V3,78
Vl,82
VI, 172
V3.36
V2.40
VI, 162
V2,106
VI ,236
V3.44
V2.84
V2.120
VI, 90
V2,58
VI, 66
Page 179
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Herbicides
(continued)
Treatment Type
Materials Handling
Physical Chemical
Treatment -
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Test Kits
Thermal Destruction
Technology Vendor
U.S. EPA
Lasagna™ Public -
Private Partnership
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
Maxymillian
Technologies, Inc.
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
Smith Environmental
Technologies Corp.
Roy F. Weston, Inc.
ART International, Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Cprp.
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT Corp.
Bruker Analytical
Systems, Inc.
Chemfix Technologies,
Inc.
WASTECH, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
U. of Dayton Research
Institute
Technology
Excavation Techniques and Foam
Suppression methods
Lasagna™ In Situ Soil Remediation
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Thermal Desorption System
X*TRAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Low Temperature Thermal Aeration
(LTTA3)
Low Temperature Thermal Treatment
(LT3®)
Low-Energy Extraction Process
(LEEP)
Liquified Gas Solvent Extraction
(LG-SC) Technology
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
Process
Debris Washing System
Mobile Environmental Monitor
Solidification and Stabilization
Solidification and Stabilization
RaPID Assay®
Cyclone Furnace
Photothermal Detoxification Unit
Volume, Page
Number
VI, 166
VI, 202
V1.68
VI ,70
VI, 112
VI, 136
VI, 220
VI, 148
VI, 174
V2.20
V1.48
VI, 94
VI, 104
V2,68
VI, 116
VI, 122
V3.20
VI, 50
VI, 172
V3.72
VI, 44
V2.106
Page 180
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Herbicides
(continued)
Inorganics
Metals
Treatment Type
Thermal Destruction
(continued)
Field Portable X-ray
Fluorescence
Biological
Degradation
Field Portable X-ray
Fluorescence
Materials Handling
Physical Chemical
Treatment -
Biological
Degradation
'hysical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Physical/ Chemical
Treatment
Technology Vendor
Vortec Corp.
HNU Systems, Inc.
Geo-Microbial
Technologies, Inc.
Phytotech
Pintail Systems, Inc.
Pintail Systems, Inc.
HNU Systems, Inc.
NITON Corp.
TN Spectrace
AEA Technology
Environment
Montana College of
Mineral Science and
Technology
United States
Environmental
Protection Agency
U. of South Carolina
Lasagna™
Public-Private
Partnership
Sfew Jersey Institute of
Technology
JioGenesis Enterprises,
iic.
Center for Hazardous
Materials Research
COGNIS, Inc.
Dynaphore, Inc
ilectrokinetics, Inc.
General Atomics,
Nuclear Remediation
Technologies Division
IT Corp.
T Corp.
T Coro.
Technology
Vitrification Process
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P)
Metals Release & Remove from
Waste
Phytoremediation Technology
Biomineralization of Metals
Spent Ore Bioremediation Process
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-Ray
Fluorescence Analyzer
XL Spectrum Analyzer
9000 X-Ray Fluorescence Analyzer
and Lead X~Ray Fluorescence
Analyzer
Soil Separation and Washing Process
Campbell Centrifugal Jig
Excavation Techniques and Foam
Suppression Methods
In Situ Mitigation of Acid Water
Lasagna™ In Situ Soil Remediation
GHEA Associates Process
BioGenesisSM Soil & Sediment
Washing Process
Acid Extraction Treatment System
TERRAMET Soil Remediation
System
FORAGER®Sponge
Electrokinetic Soil Processing
Acoustic Barrier Paniculate
Separator
Jatch Steam Distillation and Metal
attraction
Chelation/ Electrodeposition of Toxic
Petals from Soils
Mixed Waste Treatment Process
Volume, Page
Number
VI ,236
V3.44
V2.124
V1.212
V2.130
V1.214
V3,44
V3,52
V3.74
V2.16
V2.84
VI, 166
V2,108
VI, 202
V2.86
VI, 32
V2.30 •
V1.52
VI, 62
V.1,66
V2.48
V2.64
V2,66
V2,68
Page 181
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Metals
(continued)
PAHs
Treatment Type
Physical/chemical
Treatment
(continued)
Solidification /
Stabilization
Thermal Destruction
Biological
Degradation
Technology Vendor
National Risk
Management Research
Laboratory and IT Corp.
Selentec Environmental
Technologies, Inc.
Toronto Harbour
Commission
Chemfix Technologies,
Inc.
Ferro Corp.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Rocky Mountain
Remediation Services,
L.L.C.
Sevenson Environmental
Services, Inc.
Soliditech, Inc.
Star Organics, L.L.C.
STC Remediation, A
Division of Omega
Environmental, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Energy and
Environmental Research
Corp.
Horsehead Resource
Development Co., Inc.
Institute of Gas
Technology
PSI Technologies, A
Division of Physical
Sciences Inc.
Vortec Corp.
ECOVA Corp.
Institute of Gas
Technology
Remediation
Technologies. Inc.
Technology
Debris Washing System
Selentec MAG*SEP Technology
Soil Recycling
Solidification and Stabilization
Waste Vitrification Through Electric
Melting
Dechlorination and Immobilization
In Situ Solidification and Stabilization
Process
GeoMelt Vitrification
Envirobond Solution
MAECTITE® Chemical Treatment
Process
Solidification and Stabilization
Soil Rescue Remediation Fluid
Organic Stabilization and Chemical
Fixation/Solidification
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Cyclone Furnace
Hybrid Fluidized Bed System
Reactor Filter System
Flame Reactor
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Metals Immobilization and
Decontamination of Aggregate Solids
Vitrification Process
Bioslurry Reactor
Fluid Extraction - Biological
Degradation Process
Liquid and Solids Biological
Treatment
Volume, Page
Number
VI, 122
VI, 226
VI, 162
Vl,50
V2.46
Vl,78
V1.82
V1.84
VI, 222
VI ,228
VI, 152
VI, 232
VI, 156
VI, 172
V2.114
VI, 44
V2,40
V2,42
VI, 96
V2,60
V2.88
VI, 236
Vl,64
V2.58
VI, 140
Page 182
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
PAHs
(continued)
PCBs
Treatment Type
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Biological ••
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
5hysical/ Chemical
Treatment
Technology Vendor
Maxymillian
Technologies, Inc.
Recycling Sciences
International, Inc.
BioGenesis Enterprises,
Inc. '
Bruker Analytical
Systems, Inc.
[nstitute of Gas
Technology
Institute of Gas
Technology
United States
Environmental
Protection Agency
Biotherm, LCC
ELI Eco Logic Inc.
3LI Eco Logic
international Inc
KAI Technologies, Inc./
3rown and Root
invironmental
New Jersey Institute of
Technology
OHM Remediation
Services Corp.
lecycling Sciences
nternational, Inc.
loy F. Weston, Inc.
ART International, Inc.
JioGenesis Enterprises,
nc.
CF Systems Corp.
Commodore
invironmental Services,
nc.
General Atomics
rligh Voltage
Environmental
Applications, Inc.
ligh Voltage
Environmental
Applications, Inc.
onics RCC
Technology
Thermal Desorption System
Desorption and Vapor Extraction
System
BioGenesisSM Soil & Sediment
Washing Process
Mobile Environmental Monitor
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Gas-Phase Chemical Reduction
'rocess
Thermal Desorption Unit
ladio Frequency Heating
GHEA Associates Process
X*TRAX™ Thermal Desorption
Jesorption and Vapor Extraction
System
^ow Temperature Thermal Treatment
LT3® ] System
^ow-Energy Extraction Process
[LEEP]
BioGenesisSM Soil & Sediment
Washing Process
Liquified Gas Solvent Extraction
[LG-SX] Technology
olvated Electron Remediation
ystem
Circulating Bed Combustor
tigh Energy Electron Beam
rradiation ,
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Volume, Page
VI, 112
VI, 220
VI, 32
V3.20
V2,56
V2.58
VI, 166
V1.36
VI, 68
VI ,70
VI, 106
V2,86
VI, 136
VI, 220
VI, 174
V2,20
VI, 32
VI, 48
V1.56
VI, 80
V2,54
VI, 94
VI, 104
Page 183
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
continued)
Contaminants
PCBs
continued)
PCP
Treatment Type
Physical/Chemical
'reatment
continued)
'ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Test Kits
Technology Vendor
TCorp.
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT Corp.
State U. of New York at
Oswego, Environmental
Research Center
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Jruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Chemfix Technologies,
Inc.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Soliditech, Inc.
WASTECH, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
Remediation
Technologies, Inc.
Recycling Sciences
International Inc.
Trinity Environmental
Technologies, Inc.
Strategic Diagnostic,
Inc.
Technology
Mixed Waste Treatment Process
Base-Catalyzed Decomposition
'rocess
Debris Washing System
Electrochemical Peroxidation of
PCB-Contaminated Sediments and
Waters
Solvent Extraction Treatment System
PCS- and
Organochlorine-Contaminated Soil
Detoxification
Mobile Environmental Monitor
3ield Analytical Screening Program -
PCB Method
Solidification and Stabilization
Dechlorination and Immobilization
in Situ Solidification and Stabilization
Process
GeoMelt Vitrification
Solidification and Stabilization
Solidification and Stabilization
Ion Mobility Spectrometry
Ensys Penta Test System
Cyclone Furnace
Hybrid Fluidized Bed System
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Liquid and Solids Biological
Treatment
Desorption and Vapor Extraction
System
PCB- and Organochlorine-
Contaminated Soil Detoxification
Ensys Penta Test System
Volume, Page
Number
V2.68
VI, 116
VI, 122
V2.98
VI, 158
V2.104
V3.20
V3.78
VI ,50
V1.78
VI, 82
Vl,84
VI, 152
VI, 172
V3.36
V3.68
VI, 44
V2,40
V2,60
V2.106
VI, 236
VI, 140
VI, 220
V2.104
V3.68
Page 184
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
PCP
(continued)
Pesticides
Treatment Type
Test Kits
(continued)
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Strategic Diagnostic,
Inc. Corp.
Electrokinetics, Inc.
GRACE Bioremediation
Technologies.
Institute of Gas
Technology
Institute of Gas
Technology
United States
Environmental
Protection Agency
Biotherm, LCC
ELI Eco Logic Inc.
3LI Eco Logic
international Inc
CAI Technologies,
Inc. /Brown and Root
Environmental
OHM Remediation
Services Corp.
lecycling Sciences
nternational, Inc.
Smith Environmental
Technologies Corp.
Roy F. Weston, Inc.
ART International, Inc.
CF Systems Corp.
Commodore
invironmental Services,
nc.
ilectrokinetics, Inc.
General Atomics
High Voltage
Environmental
Applications, Inc.
[igh Voltage
invironmental
Applications, Inc.
onics RCC
TCoro.
Technology
RaPID Assay®
In Situ Bioremediation By
Electrokinetic Injection
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Excavation Techniques and Foam
Suppression Methods
Jiotherm Process
Gas-Phase Chemical Reduction
'rocess
Thermal Desorption Unit
ladio Frequency Heating
X*TRAX™ Thermal Desorption
Desorption and Vapor Extraction
System
x>w Temperature Thermal Aeration
[LTTA®]
.ow Temperature Thermal Treatment
[LT3®] System
Low-Energy Extraction Process
[LEEP]
Liquified Gas Solvent Extraction
[LG-SX] Technology
olvated Electron Remediation
ystem
Electrokinetic Soil Processing
Circulating Bed Combustor
[igh Energy Electron Beam
rradiation
High Energy Electron Irradiation
.E.S.T. Solvent Extraction
'echnology
VTixed Waste Treatment Process
Volume, Page
V3,72
V2.120
Vl,90
V2,56
V2.58
VI, 166
VI, 36
Vl,68
VI ,70
VI, 106
VI, 136
VI, 220
VI, 148
VI, 174
V2,20
VI, 48
V1.56
VI, 66
VI, 80
V2,54
VI, 94
VI, 104
V2.68
Page 185
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
'esticides
continued)
PGP
Treatment Type
'hysical/ Chemical
'reatment
continued)
'ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Test Kits
Technology Vendor
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT Corp.
State U. of New York at
Oswego, Environmental
Research Center
ierra-Kleen Response
Group, Inc.
trinity Environmental
Technologies, Inc.
Jruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Chemfix Technologies,
nc.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Soliditech, Inc.
WASTECH, Inc.
Graseby Ionics, Ltd. and
PCP, Inc.
Strategic Diagnostic,
Inc.
BWX Technologies, Inc.
3nergy and
Environmental Research
Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
Remediation
Technologies, Inc.
Recycling Sciences
International Inc
Trinity Environmental
Technologies, Inc.
Strategic Diagnostic,
Inc.
Technology
Jase-Catalyzed Decomposition
'rocess
Debris Washing System
Electrochemical Peroxidation of
'CB-Contaminated Sediments and
Waters
Solvent Extraction Treatment System
PCB- and
Organochlorine-Contaminated Soil
)etoxification
VIobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
Solidification & Stabilization
Dechlorination and Immobilization
In Situ Solidification and Stabilization
'rocess
GeoMelt Vitrification
Solidification & Stabilization
Solidification & Stabilization
Ion Mobility Spectrometry
3nsys Penta Test System
Cyclone Furnace
Hybrid Fluidized Bed System
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Liquid and Solids Biological
Treatment
Desorption and Vapor Extraction
System
PCB- and
Organochlorine-Contaminated Soil
Detoxification
Ensys Penta Test System
Volume, Page
Number
VI, 116
VI, 122
V2,98
VI, 158
V2,104
V3.20
V3.78
VI, 50
VI, 78
VI, 82
VI, 84
VI, 152
VI, 172
V3,36
V3.68
VI, 44
V2.40
V2.60
V2,106
VI, 236
VI, 140
VI, 220
V2,104
V3,68
Page 186
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
PCP
(continued)
Pesticides
Treatment Type
Test Kits
(continued)
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Strategic Diagnostic,
Inc. Corp.
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
Institute of Gas
Technology
Institute of Gas
Technology
United States
Environmental
Protection Agency
Biotherm, LCC
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
KAI Technologies,
iic./Brown and Root
Environmental
OHM Remediation
Services Corp.
Recycling Sciences
hternational, Inc.
Smith Environmental
Technologies Corp.
Roy F. Weston, Inc.
ART International, Lie.
CF Systems Corp.
Commodore
invironmental Services,
Inc.
Electrokinetics, Inc.
General Atomics
High Voltage
Environmental
Applications, Inc.
High Voltage
invironmental
Applications, Inc.
onics RCC
TCoro.
Technology
RaPID Assay®
In Situ Bioremediation By
Electrokinetic Injection
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
ladio Frequency Heating
X*TRAX™ Thermal Desorption
Jesorption and Vapor Extraction
System
MV/ Temperature Thermal Aeration
[LTTA®]
..bw Temperature Thermal Treatment
LT3®] System .
.x>w-Energy Extraction Process
[LEEP]
Liquified Gas Solvent Extraction
LG-SX] Technology
Solvated Electron Remediation
System
Electrokinetic Soil Processing
Circulating Bed Combustor
ligh Energy Electron Beam
rradiation
ligh Energy Electron Irradiation
B.E.S.T. Solvent Extraction
'echnology
Mixed Waste Treatment Process
Volume, Page
Numfo Gr
V3,72
V2.120
V1.90
V2.56
V2,58
VI, 166
V1.36
Vl,68
VI, 70
VI, 106
VI, 136
VI, 220
VI, 148
VI, 174
V2.20
Vl,48
VI, 56
VI, 66
VI, 80
V2,54
VI, 94
VI, 104
V2.68
Page 187
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Pesticides
(continued)
Petroleum
Hydrocarbons
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Technology Vendor
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT Corp.
State U. of New York at
Oswego, Environmental
Research Center
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Chemfix Technologies,
Inc.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Soliditech, Inc.
WASTECH, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
[nc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Energy & Environmental
Research Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
ECOVA Corp.
Remediation
Technologies, Inc.
New Jersey Institute of
Technology
Smith Environmental
Technologies Corp.
Technology
Base-Catalyzed Decomposition
Process
Debris Washing System
Electrochemical Peroxidation of
PCB-Contaminated Sediments and
Waters
Solvent Extraction Treatment System
PCB- and
Organochlorine-Contaminated Soil
Detoxification
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
Solidification/ Stabilization
Dechlorination and Immobilization
[n Situ Solidification and Stabilization
Process
GeoMelt Vitrification
Solidification/ Stabilization
Solidification/ Stabilization
Ion Mobility Spectrometry
Ensys Penta Test System
RaPID Assay®
Cyclone Furnace
Hybrid Fluidized Bed System
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Bioslurry Reactor
Liquid and Solids Biological
Treatment
GHEA Associates Process
Low Temperature Thermal Aeration
FLTTA18!
Volume, Page
Number
VI, 116
VI, 122
V2.98
VI, 158
V2.104
V3.20
V3,78
VI, 50
VI, 78
Vl,82
Vl,84
VI, 152
VI, 172
V3.36
V3,68
V3.72
VI, 44
V2,42
V2,60
V2.106
VI, 236
VI, 64
VI, 140
V2.86
VI, 148
Page 188
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
Petroleum
Hydrocarbons
(continued)
Radio nuclides
SVOCs
Treatment Type
Solidification/
Stabilization
Materials Handling
Physical/ Chemical
Treatment
Solidification/
Stabilization
Thermal Destruction
Biological
Degradation
Materials Handling
hysical/ Chemical
hermal Desorption
Technology Vendor
Soliditech, Inc.
Thermo Nutech, Inc.
IT Corp.
Selentec Environmental
Technologies, Inc.
Sevenson Environmental
Services, Inc.
WASTECH, Inc.
BWX Technologies, Inc
ECOVA Corp.
GRACE Bioremediation
Technologies.
Institute of Gas
Technology
Institute of Gas
Technology
IT Corp.
New York State Dept. of
Environmental
Conservation/ ENSR
Consulting and Larsen
Engineers
New York State Dept. of
3nvironmental
Conservation/ R.E.
Wright Environmental,
nc.
T Corp.
Remediation
technologies, Inc.
United States
Environmental
rotection Agency
iotherm, LCC
ELI Eco Logic Inc.
LI Eco Logic
nternational Inc.
KAI Technologies,
nc. /Brown and Root
nvironmental
VTaxymillian
'echnologies, Inc.
ew Jersey Institute of
echnoloev
Technology
Solidification/ Stabilization
Segmented Gate System
Mixed Waste Treatment Process
Selentec MAG*SEP Technology
MAECTITE® Chemical Treatment
Process
Solidification/ Stabilization
Cyclone Furnace
Jioslurry Reactor
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
5luid Extraction - Biological
Degradation Process
Tekno Associates Bioslurry Reactor
EX Situ Biovault
n Situ Bioventing Treatment System
Oxygen Microbubble In Situ
ioremediation
jquid and Solids Biological
Treatment
Excavation Techniques and Foam
uppression Methods
Jiotherm Process
Gas-Phase Chemical Reduction
'rocess
hermal Desorption Unit
adio Frequency Heating
hermal Desorption System
HEA Associates Process
Volume, Page
VI, 152
V2,134
V2,68
VI ,226
VI ,228
VI ,172
VI, 44
Vl,64
VI, 90
V2.56
V2.58
V2.72
VI, 126
VI, 130
V2.126
VI, 140
VI, 166
V1.36
Vl,68
VI, 70
VI, 106
VI, 112
V2.86
Page 189
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
continued)
Contaminants
SVOCs
continued)
Treatment Type
'hysical/ Chemical
Thermal Desorption
continued)
'hysical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Technology Vendor
NOVATERRA, Inc.
OHM Remediation
ervices Corp.
Recycling Sciences
nternational, Inc.
mith Environmental
Technologies Corp.
Roy F. Weston, Inc.
CF Systems Corp.
Electrokinetics, Inc.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and IT
Corp.
Terra-Kleen Response
Group, Inc.
Terra Vac, Inc.
Toronto Harbour
Commission
Bruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Chemfix Technologies,
Inc.
Geo-Con, Inc.
STC Remediation, A
Division of Omega
Environmental, Inc.
WASTECH, Inc.
Western Product
Recovery Grouo, Inc.
Technology
n-Situ Soil Treatments [Steam/Air
tripping]
X*TRAX™ Thermal Desorption
Desorption and Vapor Extraction
ystem
Low Temperature Thermal Aeration
fLTTA®]
,ow Temperature Thermal Treatment
LT3®] System
Jquified Gas Solvent Extraction
LG-SX] Technology
Electrokinetic Soil Processing
ligh Energy Electron Beam
rradiation
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Jase-Catalyzed Decomposition
5rocess
Debris Washing System
Solvent Extraction Treatment System
'n Situ and Ex Situ Vacuum
Extraction
Soil Recycling
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
Solidification/ Stabilization
In Situ Solidification and Stabilization
Process
Organic Stabilization and Chemical
Fixation/Solidification
Solidification/ Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Volume, Page
Number
VI, 134
VI, 136
VI, 220
VI, 148
VI, 174
VI, 48
V1.66
V2.54
VI, 94
VI, 104
V2,68
VI, 116
VI, 122
VI, 158
VI, 160
VI, 162
V3,20
V3.78
VI, 50
VI, 82
VI, 156
VI, 172
V2.114
Page 190
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Contaminants
SVOCs
(continued)
VOCs
Treatment Type
Spectrometers
Test Kits
Thermal Desorption
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
Technology Vendor
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Institute of Gas
Technology
Sonotech, Inc.
Texaco, Inc.
U. of Dayton Research
Institute
Vortec Corp.
3io-Rem, Inc.
ECOVA Corp.
electrokinetics, Inc.
New York State Dept. of
Environmental
Conservation/ ENSR
Consulting and Larsee
Engineers
New York State Dept. of
Environmental
Conservation/ R.E.
Wright Environmental,
Inc.
TCorp.
AEA Technology
Environment
United States
Environmental
'rotectibn Agency
Biotherm, LCC
CAI Technologies,
nc. /Brown and Root
Environmental
Maxymillian
Technologies, Inc.
•Jew Jersey Institute of
Technology
NOVATERRA, Inc.,
Recycling Sciences
nternational, Inc.
mith Environmental
Technologies Corn.
Technology
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Frequency-Tunable Pulse Combustion
System
Texaco Gasification Process
Photothermal Detoxification Unit
Vitrification Process
Augmented In Situ Subsurface
Bioremediation Process
Bioslurry Reactor
h Situ Bioremediation By
Electrokinetic Injection
Ex Situ Biovault
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
Soil Separation and Washing Process
Excavation Techniques and Foam
Suppression Methods
Jiotherm Process
iadio Frequency Heating
Thermal Desorption System
GHEA Associates Process
n-Situ Soil Treatments (Steam/Air
tripping)
Desorption and Vapor Extraction
ystem
Low Temperature Thermal Aeration
T.TTA®!
Volume, Page
V3,36
V3.72
V1.44
V2.60
VI, 154
VI, 162
V2,106
VI, 236
V1.34
VI, 64
V2.120
VI, 126
VI, 130
V2.126
V2.16
VI, 166
VI, 36
VI, 106
VI, 112
V2,86
VI, 134
VI, 220
VI, 148
Page 191
-------�
APPLICABILITY INDEX (continued)
Media
Sludge
(continued)
Soil
Contaminants
VOCs
continued)
Other
Aromatic VOCs
Treatment Type
'hysical/ Chemical
thermal Desorption
continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Solidification/
Stabilization
Biological
Degradation
Technology Vendor
loy F. Weston, Inc.
CF Systems Corp.
High Voltage
invironmental
Applications, Inc.
nstitute of Gas
Technology
Ionics RCC
TCorp.
TCorp.
Terra-Kleen Response
Group, Inc.
Terra Vac, Inc.
Bruker Analytical
Systems, Inc.
United States
Environmental
Protection Agency
Geo-Con, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
Sonotech, Inc.
Texaco, Inc.
Vortec Corp.
STC Remediation, A
Division of Omega
Environmental, Inc.
Billings and Associates,
Inc.
Technology
jov/ Temperature Thermal Treatment
LT3®] System
Liquified Gas Solvent Extraction
[LG-SX] Technology
High-Energy Electron Irradiation
Supercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Batch Steam Distillation and Metal
ixtraction
Mixed Waste Treatment Process
Solvent Extraction Treatment System
n Situ and Ex Situ Vacuum
Extraction
Mobile Environmental Monitor
Field Analytical Screening Program -
PCB Method
In Situ Solidification and Stabilization
'rocess
Solidification/ Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
'.on Mobility Spectrometry
RaPID Assay®
Hybrid Fluidized Bed System
Fluidized-Bed/ Cyclonic
Agglomerating Combustor
Frequency-Tunable Pulse Combustion
System
Texaco Gasification Process
Vitrification Process
Organic Stabilization and Chemical
Fixation/Solidification
Subsurface Volatilization and
Ventilation System (SVVS)
Volume, Page
Number
VI, 174
VI, 48
VI, 94
V2,62
VI, 104
V2,64
V2,68
VI, 158
VI, 160
V3.20
V3.78
VI, 82
VI, 172
V2.H4
V3.36
V3,72
V2,40
V2.60
VI, 154
VI, 162
VI, 236
VI, 156
Vl,30
Page 192
-------�
APPLICABILITY INDEX (continued)
II Media
•
Soil
(continued)
Contaminants
Aromatic VOCs
(continued)
Treatment Type
Biological
Degradation
(continued)
Contaminant Survey
ystems
Materials Handling
hysical/ Chemical
hermal Desorption
Technology Vendor
Bio-Rem, Inc.
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
Harding Lawson
Associates
Hazardous Substance
Management Research
Center at New Jersey
Institute of Technology,
and Rutgers, the State U
of New Jersey
Institute of Gas
Technology
National Risk
Management Research
^aboratory
New York State Dept. of
invironment
Conservation/ENSR
Consulting and Larson
ingineers
New York State Dept. of
invironmental
Conservation/R.E.
Wright Environmental,
nc.
T Corp.
W.L. Gore and
Associates, Inc.
National Risk
Management Research
aboratory. The U. of
incinnati and FRX,
nc.
-S. EPA
iotherm, LCC
ughes Environmental
ystems, Inc.
vlaxymillian
echnologies, Inc.
OVATERRA, Inc.
ecycling Sciences
ternational, Inc.
oilTech ATP Systems,
===========
Technology
=^=^^^g^='?-^—
Augmented In Situ Subsurface
Bioremediation Process
In Situ Bioremediation by
Blectrokinetic Injection
DARAMEND™ Bioremediation
Technology
Two Zone, Plume Interception. In
Situ Treatment Technology
Pneumatic Fracturing and
Bioremediation Process
Fluid Extraction - Biological
Degradation Process
Bioventing
ix Situ Biovault
n Situ Bioventing Treatment System
Oxygen Microbubble In Situ
ioremediation
GORE-SORBER Screening Survey
Hydraulic Fracturing
ixcavation Techniques and Foam
uppression Methods
iotherm Process
earn Enhanced Recovery Process
hermal Desorption System
-Situ Soil Treatments, (Steam/Air
ripping)
esorption and Vapor Extraction
ystem
naerobic Thermal Processor
1 il
Volume, Page
Number
=====
V1.34
V2.120
VI, 90
V2.48
V2,52
V2.58
VI, 208
VI, 126
VI, 130
V2,126
V3,82
VI, 124
VI, 166
V1.36
VI, 100
VI, 112
VI, 134
VI, 220
VI, 150
Page 793
-------�
APPLICABILITY INDEX (continued)
Media
Soil
continued)
Contaminants
Aromatic VOCs
continued)
Treatment Type
tiysical/ Chemical
hennal Desorption
continued)
hysical/ Chemical
'reatment
'ortable Gas
Chromatographs
Samplers
Sensors
Solidification/
Stabilization
Technology Vendor
oy F. Weston, Inc.
Arctic Foundations, Inc.
ARS Technologies, Inc.
Jergmann, A Division of
Linatex, Inc.
CF Systems Corp.
Electrokinetics, Inc.
inergia, Inc.
High Voltage
invironmental
Applications, Inc.
nstitute of Gas
Technology
Ionics RCC
IT Corp.
KSE, Inc.
'ulse Sciences, Inc.
Terra Vac, Inc.
Roy F. Weston,
Inc./IEG Technologies
Xerox Corp.
Jruker Analytical
Systems, Inc.
HNU Systems, Inc.
Photovac Monitoring
Instruments
SRI Instruments
U.S. EPA
Geoprobe Systems
Fugro Geosciences, Inc.
Geo Con. Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Technology
^ow Temperature Thermal Treatment
•LT3™) System
ryogenic Barrier
'neumatic Fracturing Extraction™
nd Catalytic Oxidation
oil and Sediment Washing
Liquified Gas Solvent Extraction
LG-SX) Technology
Electrokinetic Soil Processing
Reductive Thermal and
hoto-Thermal Oxidation for
Enhanced Conversion of
Chlorocarbons
High-Energy Electron Irradiation
upercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Adsorption-Integrated-Reaction
'rocess
X-Ray Treatment of Organically
Contaminated Soils
In Situ and Ex Situ Vacuum
Extraction
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
PE Photovac Voyager Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
Large Bore Soil Sampler
Rapid Optical Screening Tool
In Situ Solidification and Stabilization
Process
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Volume, Page
Number
VI, 174
VI, 190
VI, 24
VI ,26
VI, 48
V1.66
V2.122
V1.94
V2.62
VI, 104
V2.68
V1.200/
V2.24
V2.132
VI, 160
VI, 176
VI, 180
V3,20
V3.42
V3,56
V3,66
V3.78
V3,34
V3,30
Vl,82
VI, 172
V2,114
Page 194
-------�
APPLICABILITY INDEX (continued)
F==
Soil
(continued)
.,
i v^uuiamuiauis
~
Aromatic VOCs
(continued)
Cyanide
Diesel
p treatment type
•
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Treatment
Materials Handling
Physical/ Chemical
Treatment
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
3hysical/ Chemical
treatment
1'echnology Vendor
=
Graseby Ionics, Ltd.,
and PCP, Inc.
Hanby Environmental
Laboratory Procedures,
Inc.
Sonotech, Inc.
Texaco, Inc.
U. of Dayton Research
Institute
Vortec Corp.
Pintail Systems, Inc.
Arctic Foundations, Inc.
National Risk
Management Research
Laboratory, The U. of
Cincinnati, and FRX,
Inc.
Arctic Foundations, Inc.
Geokinetics
international, Inc.
SIVE Services
Biotrol®
Institute of Gas
Technology
U.S. EPA
ELI Eco Logic Inc.
ELI Eco Logic
International Inc.
Recycling Sciences
International, Inc.
SoilTech ATP Systems,
[nc.
Roy F. Weston, Inc.
Arctic Foundations, Inc.
\RT International, Inc.
-F Systems Corp.
ligh Voltage
invironmental
Applications. Inc.
Technology
Ion Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
Frequency Tunable Pulse Combustion
System
Texaco Gasification Process
Photothermal Detoxification Unit
Vitrification Process
Spent Ore Bioremediation Process
Cryogenic Barrier
Hydraulic Fracturing
Cryogenic Barrier
Electroheat-Enhanced
Nonaqueous-Phase Liquids Removal
Steam Injection and Vacuum
Extraction
Soil Washing System
Fluid Extraction - Biological
Degradation Process
excavation Techniques and Foam
Suppression Methods
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Desorption and Vapor Extraction
System
Anaerobic Thermal Processor
Low Temperature Thermal Treatment
LT3™) System
Cryogenic Barrier
-ow-Energy Extraction Process
LEEP)
-jquified Gas Solvent Extraction (LG
!X) Technology
ligh-Energy Electron Irradiation
Volume, Page
Number
=t===
V3,36
V3,38 1
VI, 154 .
_____ __J
VI, 162
V2,106
VI 236 1
VI ,214
VI, 190
VI, 124
VI, 190
VI, 196
V1.230
VI, 40
V2.58 I
VI, 166
Vl,68
VI, 70
VI, 220
VI, 150
VI, 174
VI, 190
V2.20
VI, 48
V1.94
Page 195
-------�
APPLICABILITY INDEX (continued)
Media
oil
'
Contaminants
Dioxins
rcontinucd)
Explosives
Treatment Type
hysical/ Chemical
reatment
ontinued)
ortable Gas
hromatographs
amplers
olidification/
tabilization
pectrometers
Thermal Destruction
Biological
Degradation
Contaminant Survey
Systems
Physical/ Chemical
Thermal Desorption
Biological
Degradation
Materials Handling
Physical/ Chemical
Thermal Desorption
1
Technology Vendor
nicsRCC
TCorp.
ational Risk
anagement Research
.-aboratory
erra-Kleen Response
roup. Inc.
rinity Environmental
echnologies, Inc.
ruker Analytical
ystems, Inc.
eosafe Corp.
WASTECH, Inc.
Graseby Ionics, Ltd.,
nd PCP, Inc.
WX Technologies, Inc.
Energy and
invironmental Research
Corp.
Institute of Gag
Technology
U. of Dayton Research
Institute
Vortec Corp.
J.R. Simplot Company
Quadrel Services, Inc.
W.L. Gore and
Associates, Inc.
New Jersey Institute of
Technologv
Siotrol®
Institute of Gas
Technology
U.S. EPA
ELI Eco Logic Inc.
ELI Eco Logic
International, Inc.
Recycling Sciences
International, Inc.
SoilTech ATP Systems,
Inc.
Roy F. Weston, Inc.
Technology ^
J.E.S.T. Solvent Extraction
rechnology
vlixed Waste Treatment Process
3ase-Catalyzed Decomposition
'rocess
Solvent Extraction Treatment System
PCB- and
Drganochlorine-Contaminated Soil
Detoxification
vlobile Environmental Monitor
Large Bore Soil Sampler
GeoMelt Vitrification
Solidification and Stabilization
Ion Mobility Spectrometry
Cyclone Furnace
Reactor Filter System
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Oxidation and Verification Process
The SABRE™ Process
Emflux Soil-Gas Survey System
GORE-SORBER Screening Survey
GHEA Associates Process
Soil Washing System
Fluid Extraction - Biological
Degradation Process
Field Analytical Screening Program -
PCB Method
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Desorption and Vapor Extraction
System
Anaerobic Thermal Processors
Low Temperature Thermal Treatmen
(LT3™) Svstem
11
Volume, Page
Number
VI, 104
V2.68
VI, 116
VI, 158
V2.104
V3.20
V3,34
Vl,84
VI, 172
V3.36
V1.44
V2.42
V2.60
V2.106
VI, 236
VI, 66
V3,54
V3.82
V2.86
VI, 40
V2,58
V3.78
V1.68
VI, 70
VI, 220
VI, 150
t VI, 174
Page 796
-------�
APPLICABILITY INDEX (continued)
Contaminants
Treatment Type
Technology Vendor
Volume, Pag
Number
Soil
(continued)
Furans
(continued)
Physical/ Chemical
Treatment
Arctic Foundations, Inc
Cryogenic Barrier
ART International, Inc.
Low-Energy Extraction Process
(LEEP)
CF Systems Corp
Liquified Gas Solvent Extraction
(LG-SX) Technology
High Voltage
Environmental
Applications, Inc
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
:asoline
alogenated
OCs
'ortable Gas
!hromatographs
!amplers
Solidification/
tabilization
pectrometers
'hermal Destruction
ontaminant Survey
ystems
Materials Handling
lysical/Chemical
lermal Desorption
lysical/ Chemical
•eatment
implers
ological
gradation
National Risk
Management Research
Laboratory
Terra-Kleen Response
iroup, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
'ystems, Inc.
Base, Catalyzed Decomposition
Process
Solvent Extraction Treatment System
PCB-and
Organochlorine-Contaminated Soil
detoxification
ieoprobe Systems
jeosafe Corp.
^ASTECH, Inc.
Mobile Environmental Monitor
^arge Bore Soil Sampler
GeoMelt Vitrification
Solidification and Stabilization
Jraseby Ionics, Ltd.,
and PCP, Inc.
WX Technologies, Inc.
Jiergy and
environmental Research
'orp.
Institute of Gas
echnology
. of Dayton Research
nstitute
ortec Corp.
.L. Gore and
ssociates, Inc.
Ion Mobility Spectrometry
Cyclone Furnace
Reactor Filter System
?luidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Proces
tORE-SORBER Screening Survey
ational Risk
Management Research
aboratory, The U. of
incinnati, and FRX,
c.
VE Services
rctic Foundations, Inc.
:oprobe Systems
arding Lawson
isociates
Hydraulic Fracturing
Steam Injection and Vacuum
Extraction
Cryogenic Barrier
Large Bore Soil Sampler
Two Zone, Plume Interception. In
u Treatment Technology
VI,158
V2.104
V3.20
V3,34
VI ,84
VI 172
V3,36
V1.44
V2,42
V2,60
V2.106
VI 236
V3,82
VI, 124
VI,230
VI, 190
V3.34
V2.48
Page 197
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Talogenated
VOCs
continued)
Treatment Type
Biological
Degradation
continued)
Contaminant Survey
ystems
Materials Handling
'hysical/Chemical
Treatment -
Hological
Degradation
'hysical/ Chemical
[Tiermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Samolers
Technology Vendor
Jio-Rem, Inc.
New York State Dept. of
invironmental
Conservation/R.E.
Wright Environmental,
Inc.
TCorp.
W.L. Gore and
Associates, Inc.
National Risk
Management Research
Laboratory. The U. of
Cincinnati and FRX,
Inc.
U.S. EPA
^asagna™ Public
Private Partnership
Jughes Environmental
Systems, Inc:
CAI Technologies,
Inc./Brown and Root
Environmental
sTew Jersey Institute of
Technology
NOVATERRA, Inc.
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
SoilTech ATP Systems,
Inc.
Roy F. Weston, Inc.
Xerox Corp.
Arctic Foundations, Inc.
Bruker Analytical
Systems, Inc.
Photovac Monitoring
Instruments
SRI Instruments
U.S. EPA
Geoorobe Systems
Technology
Augmented In Situ Subsurface
Bioremediation Process
n Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
GORE-SORBER Screening Survey
Hydraulic Fracturing
Excavation Techniques and Foam
Suppression Methods
Lasagna™ In Situ Soil Remediation
Steam Enhanced Recovery Process
Radio Frequency Heating
GHEA Associates Process
In-Situ Soil Treatments, (Steam/ Air
Stripping)
X*TAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Anaerobic Thermal Processor
Low Temperature Thermal Treatmen
(LT3™) System
2-PHASE™ EXTRACTION Process
Cryogenic Barrier
Mobile Environmental Monitor
PE Photovac Voyager Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
Large Bore Soil Samoler
Volume, Page
Number
VI, 34
VI, 130
V2.126
V3.82
VI, 124
VI, 166
V1.202
Vl.lOO
VI, 106
V2.86
VI, 134
VI, 136
VI, 220
VI, 150
VI, 174
VI, 180
VI, 190
V3.20
V3,56
V3.66
V3.78
V3.34
Page 198
-------�
APPLICABILITY INDEX (continued)
Media
k===
Soil
(continued)
Contaminants
==^=
Halogenated
VOCs
(continued)
Heavy Metals
Heavy Minerals
Herbicides
Treatment Type
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Field Portable X-ray
'luorescence
Solidification/Stabili
zation
Materials Handling
amplers
iological
Degradation
Materials Handling
hysical Chemical
reatment -
iological
egradation
hysical/ Chemical
hermal Desorption
Technology Vendor
Geo Con, Inc.
Geosafe Corp.
WASTECH, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Dexsil Corp.
Energy and
Environmental Research
Corp.
Svedala Industries, Inc.
Texaco Inc.
U. of Dayton Research
nstitute
Vortec Corp.
C-THRU Technologies
Corporation
Rocky Mountain
Remediation Services,
L.L.C.
Star Organics, L.L.C.
Montana College of
Mineral Science and
'echnology
Art's Manufacturing and
upply
imulprobe
Technologies, Inc.
Biotrol®
Electrokinetics, Inc.
GRACE Bioremediation
'echnologies
nstitute of Gas
'echnology
hytokinetics, Inc.
R. Simplot Company
U.S. EPA
Lasagna™ Public
rivate Partnership
LI Eco Logic Inc.
LI Eco Logic
ternational. Inc.
Technology
" ' '
In Situ Solidification and Stabilizatio
Process
GeoMelt Vitrification
Solidification and Stabilization
Ion Mobility Spectrometry
invironmental Test Kits
Hybrid Fluidized Bed System
PYROKILN THERMAL
ENCAPSULATION Process
Texaco Gasification Process
Photothermal Detoxification Unit
Nitrification Process
tfetal Analysis Probe (MAP®)
Portable Assays
Envirobond Solution
Soil Rescue Remediation Fluid
Campbell Centrifugal Jig
AMS™ Dual-Tube Liner Soil
ampler
Core Barrel Soil Sampler
oil Washing System
n Situ Bioremediation by
lectrokinetic Injection
DARAMEND™ Bioremediation
'echnology
'luid Extraction - Biological
degradation Process
ciytoremediation of Contaminated
oils
he SABRE™ Process
xcavation Techniques and Foam
uppression Methods
Lasagna™ In Situ Soil Remediation
as-Phase Chemical Reduction
rocess
hermal Desorption Unit
1
Volume, Page
Number
V1.82 1
VI, 84
VI, 172
V3.36
V3.26
V2.40
V2.100
VI, 162
V2.106
VI, 236
V3.22
VI, 222
VI 232
V2.84
V3.16
V3.62
VI ,40
V2.120
Vl,90
V2.58
V2.128
V1.66
VI, 166
VI, 202
V1.68
VI, 70
Page 199
-------�
i • ' 1 li ''!".
1 1 i,, '''
i • , !• ,:,
APPLICABILITY INDEX (continued)
, , :, • 1 , ' : , i •. , .! :
Media
Soil
continued)
Contaminants
lerbicides
continued)
Mercury
Treatment Type
Physical/ Chemical
Thermal Desorption
continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Samplers
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Contaminant Survey
Systems
Physical/ Chemical
Treatment
Technology Vendor
Vlaxymillian
Technologies, Inc.
OHM Remediation
ervices Corp.
Recycling Sciences
nternational, Inc.
Smith Environmental
Technologies Corp.
SoilTech ATP Systems,
nc.
Roy P. Weston, Inc.
Arctic Foundations, Inc.
ART International, Inc.
Jergmann, A Division of
Linatex, Inc.
Center for Hazardous
Materials Research
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
National Risk
Management Research
Laboratory
Bruker Analytical
Systems, Inc.
Geoprobe Systems
Chemfix Technologies,
Inc.
WASTECH, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
U. of Dayton Research
Institute
Vortec Corp.
Quadrel Services, Inc.
Radiometer Analytical
Group
Bionebraska, Inc.
Technology
Thermal Desorption System
X*TAX™ Thermal Desorption
Desorption and Vapor Extraction
System
xiw Temperature Thermal Aeration
(LTTA®)
Anaerobic Thermal Processors
,ow Temperature Thermal Treatment
(LT3™) System
Cryogenic Barrier
Low-Energy Extraction Process
(LEEP)
Soil and Sediment Washing
Organics Destruction and Metals
Stabilization
Liquified Gas Solvent Extraction
(LG-SX) Technology
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Jase-Catalyzed Decomposition
Process
VIobile Environmental Monitor
Large Bore Soil Sampler
Solidification and Stabilization
Solidification and Stabilization
[on Mobility Spectrometry
(RaPID Assay®)
Cyclone Furnace
Photothermal Detoxification Unit
Vitrification Process
Emflux Soil-Gas Survey System
Anodic Voltammetry for Mercury in
Soil
BiMelyze® Mercury Immunoassay
Volume, Page
Number
VI, 112
VI, 136
VI, 220
VI, 148
VI, 150
VI, 174
VI, 190
V2.20
VI, 26
V2.32
VI, 48
VI, 94
VI, 104
V2.68
VI, 116
V3.20
V3.34
VI, 50
VI, 172
V3.36
V3.72
VI ,44
V2.106
VI, 236
V3.54
V3,58
V3.18
Page 200
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Metals
Treatment Type
Biological
Degradation
Contaminant Survey
Systems
Field Portable X-ray
fluorescence
Materials Handling
Physical Chemical
'reatment -
biological
Degradation
Physical/ Chemical
'hermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
COGNIS, Inc.
Geo-Microbial
Technologies, Inc.
Phytotech
Pintail Systems, Inc.
Pintail Systems, Inc.
W.L. Gore and
Associates, Inc.
Metorex, Inc.
NITON Corp.
C-THRU Technologies
Corporation
TN Spectrace
AEA Technology
invironment
Montana College of
Mineral Science and
Technology
Montana College of
Mineral Science and
Technology
U.S. EPA
U. of South Carolina
Lasagna™ Public
Private Partnership
New Jersey Institute of
'echnology
Geotech Development
Corp.
Arctic Foundations, Inc.
Battelle Memorial
nstitute
Bergmann. A Division
f Linatex, Inc.
JioGenesis Enterprises,
nc.
Jrice Environmental
er vices Corp.
Center for Hazardous
Materials Research
COGNIS, Inc.
ilectrokinetics. Inc.
Technology
Biological/Chemical Treatment
Metals Release and Removal of
Wastes
Phytoremediation Technology
Biomineralization of Metals
Spent Ore Bioremediation Process
GORE-SORBER Screening Survey
Field Portable X-Ray Fluorescence
Analysis
XL Spectrum Analyzer
Metal Analysis Probe (MAP®)
Portable Assays
9000 X-Ray Fluorescence Analyzer
and Lead X-Ray Fluorescence
Analyzer
Soil Separation and Washing Process
Air-Sparged Hydrocyclone
Campbell Centrifugal Jig
iixcavation Techniques and Foam
Suppression Methods
In Situ Mitigation of Acid Water
Lasagna™ In Situ Soil Remediation
GHEA Associates Process
Cold Top Ex Situ Verification of
Chromium-Contaminated Soils
Cryogenic Barrier
n Situ Electroacoustic Soil
Decontamination
oil and Sediment Washing
BioGenesisSM Soil & Sediment
Washing Process
oil Washing Process
A.cid Extraction Treatment System
TERRAMET Soil Remediation
ystem
lectrokinetic Soil Processing
Volume, Page
VI, 52
V2.124
V1.212
V2.130
Vl,214
V3.82
V3.48
V3,52
V3.22
V3.74
V2.16
V2,82
V2,84
VI, 166
V2.108
VI, 202
V2,86
Vl,86
VI, 190
V2.26
VI ,26
VI, 32
VI ,42
V2.30
V1.52
VI. 66
Page 2O1
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Metals
continued)
Treatment Type
•hysical/ Chemical
Treatment
continued)
Portable Gas
Chromatographs
Samplers
Solidification/
Stabilization
Technology Vendor
General Atomics,
Nuclear Remediation
Technologies Division
TCorp.
TCorp.
TCorp,
j&v/is Environmental
Services, Inc./Hickson
Corp.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/STG
Technologies
National Risk
Management Research
^aboratory
Sandia National
Laboratories
Toronto Harbour
Commission
J. of Houston
HNU Systems, Inc.
Art's Manufacturing and
Supply
Geoprobe Systems
Simulprobe
Technologies, Inc.
Chemfix Technologies,
Inc.
Ferro Corp.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Rocky Mountain
Remediation Services,
L.L.C.
Sevenson Environmental
Services, Inc.
Soliditech, Inc.
Star Organics, L.L.C.
STC Remediation. A
Division of Omega
Environmental. Inc.
Technology
Acoustic Barrier Particulate
Separator
Batch Steam Distillation and Metal
Extraction
Chelation/Electrodeposition of Toxic
Petals from Soils
Mixed Waste Treatment Process
Chromated Copper Arsenate Soil
Beaching Process
Clay-Base Grouting Technology
Volume Reduction Unit
n Situ Electrokinetic Extraction
System
Soil Recycling
Concentrated Chlorine Extraction and
Recovery of Lead
HNU GC 31 ID Portable Gas
Chromatograph
AMS™ Dual-Tube Liner Soil
Sampler
Large Bore Soil Sampler
Core Barrel Soil Sampler
Solidification and Stabilization
Waste Vitrification Through Electric
Melting
Dechlorination and Immobilization
In Situ Solidification and Stabilization
Process
GeoMelt Vitrification
Envirobond Solution
MAECTITE® Chemical Treatment
Process
Solidification and Stabilization
Soil Rescue Remediation Fluid
Organic Stabilization and Chemical
Fixation/Solidification
Volume, Page
Number
V2.48
V2.64
V2,66
V2.68
V2.76
VI, 114
VI, 118
V1.224
VI, 162
V2.136
V3,42
V3.16
V3.34
V3.62
VI, 50
V2.46
Vl/78
Vl,82
Vl,84
VI, 222
VI, 228
VI, 152
V1.232
VI, 156
Page 202
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Metals
(continued)
Organics
PAHs
Treatment Type
Solidification/
Stabilization
(continued)
Thermal Destruction
Physical/ Chemical
Treatment
Sensors
Thermal Destruction
Biological
Degradation
Cone Penetrometers
Contaminant Survey
Systems
'hysical/ Chemical
'hermal Desorption
'hysical/ Chemical
Treatment
Technology Vendor
WASTECH, Inc.
Western Product
Recovery Group, Inc.
American Combustion,
Inc.
BWX Technologies, Inc.
Concurrent Technologies
Energy and
Environmental Research
Corp.
Energy and
Environmental Research
Corp.
Horsehead Resource
Development Co., Inc.
Institute of Gas
Technology ,
PSI Technologies, A
Division of Physical
Sciences Inc.
Svedala Industries, Inc.
Vortec Corp.
Arctic Foundations, Inc.
Geoprobe Systems
Gruppo Italimpresse
COGNIS, Inc.
ECOVA Corp.
Environmental
BioTechnologies, Inc.
nstitute of Gas
Technology
Remediation
Technologies, Inc.
Space and Naval
Warfare Systems Center
W.L. Gore and
Associates, Inc.
Geokinetics
nternational, Inc.
tfaxymillian
'echnologies, Inc.
lecycling Sciences
nternational, Inc.
Arctic Foundations, Inc.
Bergmann. A Division
f Linatex. Inc.
Technology
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
PYRETRON® Thermal Destruction
Cyclone Furnace
Smelting Lead-Containing Wastes
Hybrid Fluidized Bed System
Reactor Filter System
Flame Reactor
?luidized-Bed/Cyclonic
Agglomerating Combustor
Metals Immobilization and
Decontamination of Aggregate Solids
PYROKILN THERMAL
ENCAPSULATION Process
Vitrification Process
Cryogenic Barrier
Geoprobe Conductivity System
nfrared Thermal Destruction
Biological/Chemical Treatment
Bioslurry Reactor
Fungal Degradation Process
Fluid Extraction - Biological
Degradation Process
jquid and Solids Biological
Treatment
SCAPS Cone Penetrometer
GORE-SORBER Screening Survey
ilectroheat-Enhanced Nonaqueous
'hase Liquids Removal
Thermal Desorption System
)esorption and Vapor Extraction
ystem
Cryogenic Barrier
oil and Sediment Washing
Volume, Page
Number
VI, 172
V2.114
VI, 22
VI, 44
V2,34
V2,40
V2,42
Vl,96
V2,60
V2,88
V2.100
VI ,236
Vl,190
V3,32
VI, 92
V2,36
Vl,64 '
V2.44
V2.58
VI, 140
V3.64
V3.82
VI, 196
VI, 112
VI, 220
VI, 190
VI, 26
Page 203
-------�
•Hi*"1 JP' TillB",,, !!i i
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
PAHs
(continued)
PCBs
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatograph
Samplers
Sensors
Biological
Degradation
Field Portable X-ray
Fluorescence
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
BioGenesis Enterprises,
Inc.
Bruker Analytical
Systems, Inc.
Clements, Inc.
Fugro Geosciences, Inc.
Institute of Gas
Technology
Institute of Gas
Technology
Phytokinetics, Inc.
Phytokinetics, Inc.
Metorex, Inc.
U.S. EPA
Biotherm, LCC
ELI Eco Logic Inc.
ELI Eco Logic
International, Inc.
KAI Technologies,
Inc./Brown and Root
Environmental
New Jersey Institute of
Technology
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
SoilTech ATP Systems,
Inc.
Roy F. Weston, Inc.
Arctic Foundations, Inc.
ART International, Inc.
Bergmann, A Division of
Linatex, Inc.
BioGenesis Enterprises,
Inc.
Center for Hazardous
Materials Research
CF Systems Corp.
Technology
BioGenesis™ Soil & Sediment
Washing Process
Mobile Environmental Monitor
JMC Environmental Subsoil Probe
Rapid Optical Screening Tool
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Phytoremediation of Contaminated
Soils
Phytoremediation Process
Field Portable X-Ray Fluorescence
Analysis
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Radio Frequency Heating
GHEA Associates Process
X*TAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Anaerobic Thermal Processors
Low Temperature Thermal Treatment
(LT3™) System
Cryogenic Barrier
Low-Energy Extraction Process
(LEEP)
Soil and Sediment Washing
BioGenesisSM Soil & Sediment
Washing Process
Organics Destruction and Metals
Stabilization
Liquified Gas Solvent Extraction
(LG-SX) Technology
Volume, Page
Number
V1.32
V3.20
V3,24
V3.30
V2.56
V2.58
V2,128
V1.210
V3.48
VI, 166
Vl,36
V1.68
VI, 70
VI, 106
V2.86
VI, 136
VI, 220
VI, 150
VI, 174
VI, 190
V2,20
V1.26
VI, 32
V2.32
VI, 48
Page 204
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
«
Contaminants
PCBs
(continued)
Treatment Type
Physical/Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Samplers
Solidification/
Stabilization
Test Kits
Technology Vendor
Commodore
Environmental Services,
Inc.
General Atomics
High Voltage
Environmental
Applications, Inc.
Ionics RCC
IT Corp.
IT Corp.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/STG
Technologies
National Risk
Management Research
Laboratory
State U. of New York at
Oswego, Environmental
Research Center
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
SRI Instruments
U.S. EPA
Clements, Inc.
Geoprobe Systems
Chemfix Technologies,
inc.
'underburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Soliditech, Inc.
WASTECH, Inc.
Dexsil Corp.
Hanby Environmental
^aboratory Procedure,
Inc.
Technology
Solvated Electron Remediation
System
Circulating Bed Combustor
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Photolytic and Biological Soil
Detoxification
Clay-Base Grouting Technology
Base-Catalyzed Decomposition
Process
Electrochemical Peroxidation of
PCB-Contaminated Sediments and
Waters
Solvent Extraction Treatment System
PCS- and
Organochlorine-Contaminated Soil
Detoxification
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
MC Environmental Subsoil Probe
^arge Bore Soil Sampler
Solidification and Stabilization
Jechlorination and Immobilization
In Situ Solidification and Stabilization
'rocess
GeoMelt Vitrification
Solidification and Stabilization
Solidification and Stabilization
Environmental Test Kits
Test Kits for Organic Contaminants
in Soil and Water
Volume, Page
Number
VI, 56
Vl,80
VI, 94
VI, 104
V2.68
V2,70
VI, 114
V1.116
V2.98
VI, 158
V2.104
V3,20
V3,42
V3.66
V3.78
V3,24
V3,34
VI, 50
V1.78
VI, 82
V1.84
VI, 152
VI, 172
V3.26
V3,38
Page 205
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
PCBs
(continued)
PCP
Pesticides
Treatment Type
Test Kits
(continued)
Thermal Destruction
Biological
Degradation
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Test Kits
Biological
Degradation
Contaminant Survey
Systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Technology Vendor
Strategic Diagnostic,
Inc.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
Remediation
Technologies, Inc.
Arctic Foundations, Inc.
U.S. EPA
Recycling Sciences
International, Inc.
National Risk
Management Research
Laboratory
Trinity Environmental
Technologies, Inc.
Strategic Diagnostic,
Inc.
Strategic Diagnostic,
Inc.
Strategic Diagnostic,
Inc. Corp.
Biotrol®
Electrokinetics, Inc.
GRACE Bioremediation
Technologies
Institute of Gas
Technology
Institute of Gas
Technology
Phytokinetics, Inc.
Phytokinetics, Inc.
W.L. Gore and
Associates, Inc.
U.S. EPA
Biotherm, LCC
Technology
EnviroGard™ PCB Immunoassay
Test Kit
Cyclone Furnace
Hybrid Fluidized Bed System
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Liquid and Solids Biological
Treatment
Cryogenic Barrier
Field Analytical Screening Program -
PCP Method
Desorption and Vapor Extraction
System
Volume Reduction Unit
PCB- and
Organochlorine-Contaminated Soil
Detoxification
Ensys Penta Test System
EnviroGard™ PCB Immunoassay
Test Kit
(RaPBD Assay®)
Soil Washing System
In Situ Bioremediation by
Electrokinetic Injection
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
Fluid Extraction - Biological
Degradation Process
Phytoremediation of Contaminated
Soils
Phytoremediation Process
GORE-SORBER Screening Survey
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Volume, Page
Number
V3.70
VI, 44
V2,40
V2,60
V2.106
VI, 236
VI, 140
VI, 190
V3,80
VI, 220
VI, 118
V2.104
V3,68
V3.70
V3,72
VI ,40
V2.120
VI, 90
V2.56
V2,58
V2,128
VI, 210
V3,82
VI, 166
Vl,36
Page 206
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Pesticides
(continued)
Treatment Type
Physical/ Chemical
Thermal Desorption
(continued)
Physical/ Chemical
Treatment
Technology Vendor
ELI Eco Logic Inc.
ELI Eco Logic
International, Inc.
KAI Technologies,
Inc./Brown and Root
Environmental
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
Smith Environmental
Technologies Corp.
SoilTech ATP Systems,
Inc.
Roy F. Weston, Inc.
Arctic Foundations, Inc.
ART International, Inc.
Jergmann, A Division of
Jnatex, Inc.
Center for Hazardous
Materials Research
CF Systems Corp.
Commodore
Environmental Services,
Inc.
ilectrokinetics, Inc.
General Atomics
ligh Voltage
Environmental
Applications, Inc.
Ionics RCC
TCorp.
TCorp.
Morrison Knudsen
Corp . /Spetstamponazhge
ologia Enterprises/STG
technologies
National Risk
Management Research
^aboratory
State U. of New York at
Oswego, Environmental
Research Center
Technology
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Radio Frequency Heating
X*TAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Low, Temperature Thermal Aeration
(LTTA)
Anaerobic Thermal Processors
Low Temperature Thermal Treatment
(LT3™) System
Cryogenic Barrier
Low-Energy Extraction Process
(LEEP)
Soil and Sediment Washing
Organics Destruction and Metals
Stabilization
Liquified Gas Solvent Extraction
(LG-SX) Technology
Solvated Electron Remediation
System
ilectrokinetic Soil Processing
Circulating Bed Combustor
High-Energy Electron Irradiation
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Photolytic and Biological Soil
Detoxification
Clay-Base Grouting Technology
Jase-Catalyzed Decomposition
'rocess
ilectrochemical Peroxidation of
PCB-Contaminated Sediments and
Volume, Page
Number
V1.68
VI, 70
VI, 106
VI, 136
VI, 220
VI, 148
VI, 150
VI, 174
V1.190
V2.20
VI, 26
V2.32
VI, 48
VI, 56
V1.66
V1.80
V1.94
VI, 104
V2,68
V2.70
VI, 114
VI, 116
V2.98
Page 207
-------�
'"'"as
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Pesticides
(continued)
Petroleum
Hydrocarbons
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Samplers
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Biological
Degradation
Technology Vendor
Terra-Kleen Response
Group, Inc.
Trinity Environmental
Technologies, Inc.
Bruker Analytical
Systems, Inc.
SRI Instruments
U.S. EPA
Art's Manufacturing and
Supply
Clements, Inc.
Geoprobe Systems
Simulprobe
Technologies, Inc.
Chemfix Technologies,
Inc.
Funderburk & Associates
Geo-Con, Inc.
Geosafe Corp.
Soliditech, Inc.
WASTECH, Inc.
Graseby Ionics, Ltd. ,
and PCP, Inc.
Dexsil Corp.
Strategic Diagnostic,
Inc.
Hanby Environmental
Laboratory Procedure,
Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
Institute of Gas
Technology
U. of Dayton Research
Institute
Vortec Corp.
COGNIS, Inc.
ECOVA Corp.
Technology
Solvent Extraction Treatment System
PCB- and
Organochlorine-Contaminated Soil
Detoxification
Mobile Environmental Monitor
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
AMS™ Dual-Tube Liner Soil
Sampler
JMC Environmental Subsoil Probe
Large Bore Soil Sampler
Core Barrel Soil Sampler
Solidification and Stabilization
Dechlorination and Immobilization
In Situ Solidification and Stabilization
Process
GeoMelt Vitrification
Solidification and Stabilization
Solidification and Stabilization
Ion Mobility Spectrometry
Environmental Test Kits
Ensys Penta Test System
Test Kits for Organic Contaminants
in Soil and Water
RaPID Assay®
Cyclone Furnace
Hybrid Fluidized Bed System
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Photothermal Detoxification Unit
Vitrification Process
Biological/Chemical Treatment
Bioslurrv Reactor
Volume, Page
Number
VI, 158
V2.104
V3.20
V3,66
V3.78
V3.16
V3,24
V3.34
V3,62
VI, 50
VI, 78
VI, 82
Vl,84
VI, 152
VI, 172
V3.36
V3.26
V3.68
V3.38
V3,72
VI, 44
V2.40
V2.60
V2.106
VI, 236
V2,36
V1.64
Page 208
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
Petroleum
Hydrocarbons
(continued)
Radionuclides
SVOCs
Treatment Type
Biological
Degradation
(continued)
Cone Penetrometers
Contaminant Survey
Systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Materials Handling
Physical/ Chemical
Treatment
Solidification/
Stabilization
Thermal Destruction
Biological
degradation •
Technology Vendor
Hazardous Substance
Management Research
Center at New Jersey
Institute of Technology,
and Rutgers, the State U.
of New Jersey
Remediation
Technologies, Inc.
Space and Naval
Warfare Systems Center
Tri-Services
W.L. Gore and
Associates, Inc.
National Risk
Management Research
Laboratory. The U. of
Cincinnati and FRX,
[nc.
New Jersey Institute of
Technology
SIVE Services
Smith Environmental
Technologies Corp.
Arctic Foundations, Inc.
SRI Instruments
Solidltech, Inc.
Thermo Nutech, Inc.
Arctic Foundations, Inc.
Jergmann, A Division of
jnatex, Inc.
IT Corp.
Sevenson Environmental
Services, Inc.
WASTECH, Inc.
BWX Technologies, Inc.
larding Lawson
Associates
Biotrol®
ECOVA Corp.
GRACE Bioremediation
Technologies
institute of Gas
Technoloev
Technology
Pneumatic Fracturing and
Bioremediation Process
Liquid and Solids Biological
Treatment
SCAPS Cone Penetrometer
Site Characterization Analysis
Penetrometer System (SCAPS)
GORE-SORBER Screening Survey
Hydraulic Fracturing
GHEA Associates Process
Steam Injection and Vacuum
Extraction
Low, Temperature Thermal Aeration
(LTTA®)
Cryogenic Barrier
Compact Gas Chromatograph
Solidification and Stabilization
Segmented Gate System
Cryogenic Barrier
Soil and Sediment Washing
Mixed Waste Treatment Process
MAECTITE® Chemical Treatment
'rocess
Solidification and Stabilization
Cyclone Furnace
Two Zone, Plume Interception, In
Situ Treatment Technology
Soil Washing System
Jioslurry Reactor
DARAMEND™ Bioremediation
Technology
Chemical and Biological Treatment
Volume, Page
Number
V2.52
VI, 140
V3.64
V3.76
V3.82
VI, 124
V2,86
VI, 230
VI, 148
VI, 190
V3.66
VI, 152
V2,134
VI, 190
VI, 26
V2,68
VI, 228
V1.172
VI, 44
V2,48
VI, 40
V1.64
VI, 90
V2.56
Page 209
-------�
.,„!.! I ii I'"!!: mi;
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
SVOCs
(continued)
Treatment Type
Biological
Degradation
(continued)
Contaminant Survey
Systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Technology Vendor
Institute of Gas
Technology
National Risk
Management Research
Laboratory
National Risk
Management Research
Laboratory and INTECH
180 Corp.
New York State Dept. of
Environment
Conservation/ENSR
Consulting and Larson
Engineers
New York State Dept. of
Environmental
Conservation/R.E.
Wright Environmental,
Inc.
IT Corp.
Remediation
Technologies, Inc.
Quadrel Services, Inc.
W.L. Gore and
Associates, Inc.
U.S. EPA
Biotherm, LCC
ELI Eco Logic Inc.
ELI Eco Logic
International, Inc.
IIT Research
Institute/Brown and Root
Environmental
KAI Technologies,
Inc./Brown and Root
Environmental
Maxymillian
Technologies, Inc.
New Jersey Institute of
Technology
NOVATERRA, Inc.
OHM Remediation
Services Corp.
Recycling Sciences
International, Inc.
Technology
Fluid Extraction - Biological
Degradation Process
Bioventing
Fungal Treatment Technology
Ex Situ Biovault
In Situ Bioventing Treatment System
Oxygen Microbubble In Situ
Bioremediation
Liquid and Solids Biological
Treatment
Emflux Soil-Gas Survey System
GORE-SORBER Screening Survey
Excavation Techniques and Foam
Suppression Methods
Biotherm Process
Gas-Phase Chemical Reduction
Process
Thermal Desorption Unit
Radio Frequency Heating
Radio Frequency Heating
Thermal Desorption System
GHEA Associates Process
In-Situ Soil Treatments, (Steam/Air
Stripping)
X*TAX™ Thermal Desorption
Desorption and Vapor Extraction
System
Volume, Page
Number
V2.58
VI, 208
VI, 120
VI, 126
VI, 130
V2.126
VI, 140
V3,54
V3,82
V1.166
Vl,36
VI, 68
VI, 70
VI, 102
VI, 106
VI, 112
V2.86
VI, 134
*
VI, 136
VI ,220
Page 210
-------�
APPLICABILITY, INDEX (continued)
Media
Soil
(continued)
Contaminants
SVOCs
(continued)
Treatment Type
Physical/ Chemical
Thermal Desorption
(continued)
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Technology Vendor
SIVE Services
Smith Environmental
Technologies Corp.
SoilTech ATP Systems,
[nc.
Roy F. Weston, Inc.
Arctic Foundations, Inc.
ARS Technologies, Inc.
Sergmann, A Division of
Linatex, Inc.
Center for Hazardous
Materials Research
CF Systems Corp.
ilectrokinetics, Inc.
Energia, Inc.
High Voltage
Environmental
Applications, Inc.
Hrubetz Environmental
Services, Inc.
Ionics RCC
TCorp.
National Risk
Management Research
Laboratory
National Risk
Management Research
^aboratory
'erra-Kleen Response
Group, Inc.
'erra Vac, Inc.
'oronto Harbour
Commission
Roy F. Weston,
[nc./IEG Technologies
Xerox Corp.
Jruker Analytical
ystems, Inc.
U.S. EPA
Technology
Steam Injection and Vacuum
Extraction
Low, Temperature Thermal Aeration
(LTTA®)
Anaerobic Thermal Processors
Low Temperature Thermal Treatmen
(LT3™) System
Cryogenic Barrier
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Soil and Sediment Washing
Organics Destruction and Metals
Stabilization
Liquified Gas Solvent Extraction
(LG-SX) Technology
ilectrokinetic Soil Processing
leductive Thermal and
Photo-Thermal Oxidation Processes
for Enhanced Conversion of
Chlorocarbons
High-Energy Electron Irradiation
HRUBOUT® Process
B.E.S.T. Solvent Extraction
Technology
Mixed Waste Treatment Process
Jase-Catalyzed Decomposition
'rocess
Volume Reduction Unit
Solvent Extraction Treatment System
In Situ and Ex Situ Vacuum
ixtraction
Soil Recycling
UVB - Vacuum Vaporizing Well
-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
'ield Analytical Screening. Program -
PCS Method
Volume, Page
Number
VI, 230
VI, 148
VI, 150
VI, 174
VI, 190
V1.24
VI ,26
V2,32
VI, 48
VI, 66
V2.122
V1.94
VI, 98
VI, 104
V2,68
VI, 116
VI, 118
VI, 158
VI, 160
VI, 162
VI, 176
Vl,180
V3.20
V3.78
Page211
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
SVOCs
(continued)
VOCs
Treatment Type
Samplers
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Other
Biological
Degradation
Technology Vendor
Art's Manufacturing and
Supply
Geoprobe Systems
Simulprobe
Technologies, Inc.
Chemfix Technologies,
J1C.
Geo^Con, Inc.
STC Remediation. A
Division of Omega
environmental, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Institute of Gas.
Technology
Sonotech, Inc.
Svedala Industries, Inc.
Texaco Inc.
U. of Dayton Research
institute
Vortec Corp.
Berkeley Environmental
Restoration Center
Billings and Associates,
tnc.
Bio-Rem, Inc.
ECOVA Corp.
Electrokinetics, Inc.
National Risk
Management Research
Laboratory
New York State Dept. of
Environment
Conservation/ENSR
Consulting and Larson
Engineers
Technology
AMS™ Dual-Tube Liner Soil
Sampler
Large Bore Soil Sampler
Core Barrel Soil Sampler
Solidification and Stabilization
In Situ Solidification and Stabilization
Process
Organic Stabilization and Chemical
Fixation/Solidification
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Frequency-Tunable Pulse Combustion
System
PYROKILN THERMAL
ENCAPSULATION Process
Texaco Gasification Process
Photothermal Detoxification Unit
Vitrification Process
In Situ Stream Enhanced Extraction
Process
Subsurface Volatilization and
Ventilation System (SVVS®)
Augmented In Situ Subsurface
Bioremediation Process
Bioslurry Reactor
In Situ Bioremediation by
Electrokinetic Injection
Bioventing
Ex Situ Biovault
Volume, Page
Number
V3.16
V3.34
V3.62
VI ,50
VI, 82
VI, 156
VI, 172
V2.114
V3,36
V3,72
VI, 44
V2,60
VI, 154
V2.100
VI, 162
V2,106
V1.236
Vl,28
Vl,30
VI, 34
V1.64
V2.120
VI, 208
V1.126
Page 212
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
vods
(continued)
Treatment Type
Biological
Degradation
(continued)
Contaminant Sur Vey
Systems
Materials Handling
Physical/ Chemical
Thermal Desorption
Technology Vendor
New York State Deipt, of
Environmental
Conservation/R.B.
Wright Environmental,
New York State Dept» of
Environmental
Conservation/SEP
Technologies, Irtc.
IT Corp,
Phytokineties, inc.
Phytokinetics, Inc. ,
Quadrel ServiceS,..lrtc> . .
W.L. Gore and
Associates, Inc.
AEA Technology
Environment .,
National Risk
Management Research
Laboratory. The U. of
Cincinnati arid FRX,
-£'• • :,,^,^.+,.,,
U.S. EPA
Biotherm, LCC
Geokinetics ,
International, Inc>
Hughes Environmental
Systems, Inc.
IT Research
nstitute/Brown and Root
Environmental
KAI Technologies,
nc./Brown and Root
Environmental
Maxymillian
^echnologies, Inc. , ., .
New Jersey Institute of
Technology
NOVATERRA, Inc.
Praxis Environmentill
Technologies, toe.
Recycling Sciences
International, Inc..
IVE Services
Technology
to Situ Bioventing Treatment System
Vacuum* Vkporhsed Well System
Oxygen Microbubble In Situ
Biorertiediation
Phytoremediation of Contaminated
Soils
Phytoremediation Process
Emflux SoiltGas Survey System
(jORE»SORBER Screening Survey
Soil Separation and Washing Process
Hydraulic Fracturing
Excavation Techniques and Foam
Suppression Methods
Jiotherm Process
ilectroheat-Enhartced NonaqueoUs
Phase Liquids Removal
Steam Enhanced Recovery Process
Radio Frequency Heating
Radio Frequency Heating
Thermal Desorption system
GHEA Associates Process
n-Situ Soil Treatments, (Steam/Air
tripping) , . .. .
n Situ thermally Enhanced
extraction (TEE) Process
Jesorption and Vapor Extraction
ystem
team Injection and Vacuum
Extraction :
Volume, Page
Number
Vl,130
VI, 128
V2.126
V2.128
V1.210
V3.54
V3.82
V2.16
VI, 124
VU66
Vl,36
VI, 106
V1.100
VI, 102
VI ,106
VI, 112
V2,86
V1.134
Vl,216
VI ,220
VI, 230
Page 213
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Contaminants
VOCs
(continued)
Treatment Type
Physical/ Chemical
Thermal Desorption
[continued)
Physical/ Chemical
Treatment
Technology Vendor
Smith Environmental
Technologies Corp.
SoilTech ATP Systems,
Inc.
Roy F. Weston, Inc.
Arctic Foundations, Inc.
ARS Technologies, Inc.
Arizona State U./Zentox
Corp.
Berkeley Environmental
Restoration Center
CF Systems Corp.
Radian International
LCC
Energia, Inc.
Energia, Inc.
High Voltage
Environmental
Applications, Inc.
Hrubetz Environmental
Services, Inc.
Institute of Gas
Technology
Ionics RCC
IT Corp.
IT Corp.
KSE, Inc.
Morrison Knudsen
Corp./Spetstamponazhge
ologia Enterprises/STG
Technologies
National Risk
Management Research
Laboratory
Pulse Sciences, Inc.
Terra-Kleen Response
Group. Inc.
Technology
Low, Temperature Thermal Aeration
(LTTA®)
Anaerobic Thermal Processor
Low Temperature Thermal Treatment
(LT3™) System
Cryogenic Barrier
Pneumatic Fracturing Extraction™
and Catalytic Oxidation
Photocatalytic Oxidation with Air
Stripping
In Situ Stream Enhanced Extraction
Process
Liquified Gas Solvent Extraction
(LG-SX) Technology
Integrated Vapor Extraction and
Steam Vacuum Stripping and Soil
Vapor Extraction/Reinfection
Reductive Photo-Dechlorination
Treatment
Reductive Thermal and
Photo-Thermal Oxidation Processes
for Enhanced Conversion of
Chlorocarbons
High-Energy Electron Irradiation
HRUBOUT® Process
Supercritical Extraction/Liquid Phase
Oxidation
B.E.S.T. Solvent Extraction
Technology
Batch Steam Distillation and Metal
Extraction
Mixed Waste Treatment Process
Adsorption-Integrated-Reaction
Process
Clay-Base Grouting Technology
Volume Reduction Unit
X Ray Treatment of Organically
Contaminated Soils
Solvent Extraction Treatment System
Volume, Page
Number
VI ,148
VI, 150
VI, 174
VI, 190
V1.24
V2.18
VI, 28
VI, 48
VI, 138
V2.38
V2.122
V1.94
VI, 98
V2.62
VI, 104
V2.64
V2.68
V1.200/
V2,24
VI, 114
VI, 118
V2.132
V1.158
Page 214
-------�
APPLICABILITY INDEX (continued)
Media
Soil
(continued)
Solids
Contaminants
VOCs
(continued)
Other
Dioxins
Furans
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
Samplers
Sensors
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal Destruction
Cone Penetrometers
Solidification/
Stabilization
'hysical/ Chemical
Treatment
'hysical/ Chemical
Treatment
Technology Vendor
Terra Vac, Inc.
RoyF.Weston,
Inc./IEG Technologies
Xerox Corp.
Bruker Analytical ,
Systems, Ind •
HNU Systems ^ Inc.
Photovac Monitoring
Instruments
SRI Instruments
U.S. EPA
Clements, Inc.
Simulprobe
Technologies, Inc.
Geoprobe Systems -
Fugro Geosciences, Inc.
Geo-Con, Inc.
WASTECH, Inc.
Western Product
Recovery Group, Inc.
Graseby Ionics, Ltd.,
andPCP, Inc.1.
Hanby Environmental ,
Laboratory Procedure,/
Inc.
Energy and
Environmental Research
Corp.
institute of Gas
Technology
Sonotech, Inc.
Svedala Industries, Inc.
Texaco Inc.
Vortec Corp.
Tri-Services,
STC Remediation, A
division of Omega
Environmental, Inc.
Active Environmental,
inc.
Active Environmental,
Inc.
Technology
In Situ and Ex Situ Vacuum •
Extraction
UVB - Vacuum Vaporizing Well
2-PHASE™ EXTRACTION Process
Mobile Environmental Monitor
1 - ' .',-••
HNU GC 31 ID Portable Gas
Chromatograph
PE Photovac Voyager Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
JMC Envionmentalist's Subsoil Probe
Core Barrel Soil Sampler
Geoprobe Conductivity System
Rapid Optical Screening Tool
In Situ Solidification and Stabilization
Process
Solidification and Stabilization
Coordinate, Chemical Bonding, and
Adsorption Treatment
'.on Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
Hybrid Fluidized Bed System
Fluidized-Bed/Cyclonic
Agglomerating Combustor
Frequency-Tunable Pulse Combustion
System
PYROKILN THERMAL
ENCAPSULATION Process
Texaco Gasification Process
Vitrification Process
Site Characterization Analysis
Penetrometer System (SCAPS)
Organic Stabilization and Chemical
Fixation/Solidification
TechXtract™ Process
TechXtract™ Process
Volume, Page
Number
VI, 160
VI, 176
VI, 180
V3,20
V3.42
V3,56
V3,66
V3.78
V3,24 :
; V3.62
V3.32
V3.30
V1.82
VI, 172
V2.114
, V3,36
V3,38 :
V2.40
V2,60
VI, 154
V2.100
VI, 162
VI, 236
V3.76
VI, 156
V1.20
V1.20
Page 275
-------�
APPLICABILITY INDEX (continued)
Media
Solid
(continued)
Waste water
Contaminants
Metals
Mercury
PCBs
Pesticides
Aromatic VOCs
Treatment Type
Physical/ Chemical
Treatment
Physical/ Chemical
Treatment
Physical/ Chemical
Treatment
Physical/ Chemical
Treatment
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Technology Vendor
Active Environmental,
Inc.
Bionebraska, Inc.
Active Environmental,
Inc.
Active Environmental,
Inc.
Biotrol®
Electrokinetics, Inc.
ZENON Environmental,
Inc.
Rochem Separation
Systems, Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Matrix Photocatalytic
Inc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
ZENON Environmental
tnc.
Analytical and Remedial
Technology, Inc.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Technology
TechXtract™ Process
BiMelyze® Mercury Immunoassay
TechXtract™ Process
TechXtract™ Process
Biological Aqueous Treatment
System
[n Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
Rochem Disc Tube™ Module System
Liquified Gas Solvent Extraction
[LG-SX} Technology
High Energy Electron Beam
Irradiation
High Energy Electron Irradiation
CAV-OX® Process
Photocatalytic Water Treatment
X-ray Treatment of Aqueous
Solutions
VIembrane Filtration and
Bioremediation
Cross Flow Pervaporation System
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
HNU GC 31 ID Portable Gas
Chromatograph
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
ion Mobility Spectrometry
Volume, Page
Number
VI, 20
V3.18
VI ,20
V1.20
V1.38
V2.120
VI, 184
VI, 142
VI, 48
V2.54
VI ,94
VI, 108
V1.110
V2,90
VI, 144
VI, 182
V3.14
V3,20
V3.42
V3.60
V3,66
V3.78
VI, 178
V3.36
Page 216
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
Aromatic VOCs
(continued)
Cyanide
Dioxins
Explosives
Furans
Halogenated
VOCs
Treatment Type
Test Kits
Biological
Degradation
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Thermal Destruction
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
'ortable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Thermal Destruction
Jiological
)egradation
Technology Vendor
Hanby Environmental
Laboratory Procedure,
Inc.
Pintail Systems, Inc.
ELI Eco Logic Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
BWX Technologies, Inc.
STew Jersey Institute of
Technology
U.S. Filter/WTS Ultrox
ELI Eco Logic Inc.
CF Systems Corp.
ligh Voltage
Environmental
Applications, Inc.
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Jruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
BWX Technologies, Inc.
Biotrol®
ZENON Environmental,
nc.
Technology
Test Kits for Organic Contaminants
in Soil and Water
Spent Ore Bibremediation Process
Gas-Phase Chemical Reduction
Process
Liquified Gas Solvent Extraction
[LG-SX} Technology
High Energy Electron Irradiation
Photocatalytic Water Treatment
VIembrane Filtration and
Sioremediation
VIobile Environmental Monitor
PO*WW*ER™ Technology
'on Mobility Spectrometry
Cyclone Furnace
GHEA Associates Process
Ultraviolet Radiation and Oxidation
Gas-Phase Chemical Reduction
'rocess
jquified Gas Solvent Extraction
[LG-SX} Technology
High Energy Electron Irradiation
Photocatalytic Water Treatment
Membrane Filtration and
Jioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
on Mobility Spectrometry
Cyclone Furnace
Biological Aqueous Treatment
System
ZenoGem™ Process
Volume, Page
Number
V3.38
Vl,214
V1.68
V1.48
V1.94
VI, 110
VI, 144
V3,20
VI, 178
V3.36
VI, 44
V2,86
VI, 168
V1.68
V1.48
VI, 94
VI, 110
VI, 144
V3,20
VI, 178
V3.36
VI, 44
VI, 38
VI, 184
Page 217
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
Halogenated
VOCs
(continued)
Heavy Metals
Herbicides
Treatment Type
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Thermal Destruction
Field Portable X-ray
Fluorescence
Portable Gas
Chromatographs
Biological
Degradation
Technology Vendor
New Jersey Institute of
Technology
CF Systems Corp.
EnviroMetal
Technologies, Inc.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Matrix Photocatalytic
Inc.
Pulse Sciences, Inc.
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
UV Technologies, Inc.
Roy F. Weston, Inc.
ZENON Environmental
Inc.
Analytical and Remedial
Technology, Inc.
Bruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Energy and
Environmental Research
Corp.
HNU Systems, Inc.
Bruker Analytical
Systems, Inc.
Biotrol®
Technology
GHEA Associates Process
Liquified Gas Solvent Extraction
[LG-SX) Technology
In Situ and Ex Situ Metal Enhanced
Abiotic Degradation of Dissolved
Halogenated Organic Compounds in
Groundwater
High Energy Electron Beam
Irradiation
High Energy Electron Irradiation
CAV-OX® Process
Photocatalytic Water Treatment
X-ray Treatment of Aqueous
Solutions
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
PhotoCAT™ Process
Ambersorb™ 563 Adsorbent
Cross Flow Pervaporation System
Automated Sampling and Analytical
Platform
Mobile Environmental Monitor
Scentograph Plus n Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Hybrid Fluidized Bed System
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-Ray
Fluorescence Analyzer
Mobile Environmental Monitor
Biological Aqueous Treatment
System
Volume, Page
Number
V2.86
VI, 48
V1.72
V2,54
VI, 94
VI, 108
VI, 110
V2.90
VI, 144
VI, 168
V2.H2
V2.116
VI, 182
V3.14
V3,20
V3,60
V3,66
V3,78
VI, 178
V3,36
V2.40
V3.44
V3,20
Vl,38
Page 218
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
Herbicides
(continued)
Inorganics
Metals
Treatment Type
Biological
Degradation
(continued)
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Thermal
destruction
Field Portable X-ray
'luorescence
Biological
Degradation
Field Portable X-ray
'luorescence
Physical/ Chemical
Radioactive Waste
'reatment
hysical/ Chemical
hermal Desorption
hysical/ Chemical
reatment
Technology Vendor
Electrokinetics, Inc.
ZENON Environmental,
Inc.
ELI Eco Logic Inc.
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Matrix Photocatalytic
Inc.
SBP Technologies, Inc.
Jruker Analytical
Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
HNU Systems, Inc.
Colorado Dept. of Public
lealth and
Environmental
Pintail Systems, Inc.
Pintail Systems, Inc.
HNU Systems, Inc.
Metorex, Inc.
Filter Flow Technology,
nc.
STew Jersey Institute of
technology
Rochem Separation
ystems, Inc.
Atomic Energy of
Canada. Limited
Technology
In Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
Gas-Phase Chemical Reduction
Process
Liquified Gas Solvent Extraction
[LG-SX} Technology
High Energy Electron Irradiation
CAV-OX® Process
3hotocatalytic Water Treatment
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
PO*WW*ER™ Technology
Ion Mobility Spectrometry
RaPID Assay®
Cyclone Furnace
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-Ray
Fluorescence Analyzer
Constructed Wetlands-Based
Treatment
Biomineralization of Metals
pent Ore Bioremediation Process
[NU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-Ray
'luorescence Analyzer
Field Portable X-ray Fluorescence
Analysis
Colloid Polishing Filter Method
GHEA Associates Process
Rochem Disc Tube™ Module System
hemical Treatment and
Itrafiltration
Volume, Page
V2.120
VI, 184
Vl,68
VI, 48
VI, 94
VI, 108
VI, 110
VI, 144
V3,20
VI, 178
' V3.36
V3.72
VI ,44
V3.44
VI ,54
V2,130
VI, 214
V3,44
V3,48
VI, 76
V2,86
VI, 142
V2.22
Page 219
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
Metals
(continued)
PAHs
PCBs
Treatment Type
Physical/ Chemical
Treatment
'continued)
Portable Gas
Chromatographs
Solidification/
Stabilization
Thermal Destruction
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Biological
Degradation
Field Portable X-ray
Fluorescence
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Technology Vendor
Atomic Energy of
Canada, Limited
S.I. DuPont de Nemours
and Company, and
Oberlin Filter Co.
Dynaphore, Inc.
EnviroMetal
Technologies, Inc.
EPOC Water, Inc.
Cure International, Inc.
Lewis Environmental
Services, Inc./Hickson
Corp.
Vlatrix Photocatalytic
Inc.
Morrison Knudsen
Corporation/Spetstampon
azhgeologia
Enterprises/STG
Technologies
RECRA Environmental,
Inc.
Selentec Environmental,
tnc.
U. of Washington
HNU Systems, Inc.
Wheelabrator Clean Air
Systems, Inc.
BWX Technologies, Inc.
Energy and
Environmental Research
Corp.
SBP Technologies, Inc.
Bruker Analytical
Systems, Inc.
SRI Instruments
ZENON Environmental,
Inc.
Metorex, Inc.
ELI Eco Logic Inc.
New Jersey Institute of
Technology
Calgon Carbon
Oxidation Technologies
Technology
Ultrasonic- Aided Leachate Treatment
Membrane Microfiltration
FORAGER® Sponge
Reactive Barrier
Precipitation, Microfiltration, and
Sludge Dewatering
CURE® Electrocoagulation
Wastewater Treatment System
Chromated Copper Arsenic Soil
Leaching Process
Photocatalytic Water Treatment
Clay-Base Grouting Technology
Alternating Current
Electrocoagulation Technology
Selentec MAG*SEP Technology
Adsorptive Filtration
HNU GC 31 ID Portable Gas
Chromatograph
PO*WW*ER™ Technology
Cyclone Furnace
Hybrid Fluidized Bed System
Membrane Filtration and
Bioremediation
Mobile Environmental Monitor
Compact Gas Chromatograph
ZenoGem™ Process
Field Portable X-ray Fluorescence
Analysis
Gas-Phase Chemical Reduction
Process
GHEA Associates Process
perox-pure™ Chemical Oxidation
Technology
Volume, Page
Number
V2.24
VI, 60
VI, 62
V1.194
VI, 74
Vl,58
V2,76
VI, 110
VI, 114
V2.92
VI, 226
V2.110
V3.42
VI, 178
VI, 44
V2.40
VI, 144
V3.20
V3.66
VI, 184
V3.48
V1.68
V2,86
VI, 46
Page 220
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
PCBs
(continued)
CP
Treatment Type
Physical/ Chemical
Treatment
(continued)
Portable Gas
Chromatographs
olidification/
tabilization
pectrometers
Test Kits
rhermal Destruction
hysical/ Chemical
'reatment
est Kits
Technology Vendor
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Matrix Photocatalytic
Inc.
Morrison Knudsen
Corporation/Spetstampon
azhgeologia
Enterprises/STG
Technologies
SBP Technologies, toe.
U.S. Filter/WTS Ultrox
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Sentex Sensing
"echnology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
ystems, Inc.
Graseby Ionics, Ltd.,
nd PCP, Inc.
trategic Diagnostic,
nc.
Hanby Environmental
.aboratory Procedure,
[nc.
WX Technologies, Inc.
Energy and
invironmental Research
orp.
BP Technologies, Inc.
U.S. Filter/WTS Ultrox
trategic Diagnostic,
nc.
trategic Diagnostic,
nc.
Technology
Liquified Gas Solvent Extraction
[LG-SX) Technology
High Energy Electron Beam
Irradiation
High Energy Electron Irradiation
CAV-OX® Process
Photocatalytic Water Treatment
Clay-Base Grouting Technology
vlembrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
Mobile Environmental Monitor
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-Ray
Fluorescence Analyzer
Scentograph Plus H Portable Gas
Chromatograph
Compact Gas Chromatograph
'ield Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
on Mobility Spectrometry
insys Penta Test System
Test Kits for Organic Contaminants
n Soil and Water
Cyclone Furnace
Hybrid Fluidized Bed System
Vlembrane Filtration and
Jioremediation
Ultraviolet Radiation and Oxidation
nsys Penta Test System
nviroGard™ PCP Immunoassay
est Kit
Volume, Page
VI, 48
V2,54
VI, 94
VI, 108
VI, 110
VI, 114
VI, 144
V1.168
V3.20
V3.42
V3,60
V3.66
V3.78
VI, 178
V3.36
V3.68
V3.38
VI, 44
V2,40
V1.144
VI, 168
V3,68
V3,70
Page 221
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
PCP
(continued)
Pesticides
Treatment Type
Test Kits
continued)
Biological
Degradation
'hysical/ Chemical
Thermal Desorption
'hysical/ Chemical
Treatment
Portable Gas
Chromatographs
Solidification/
Stabilization
Spectrometers
Test Kits
Technology Vendor
Strategic Diagnostic,
nc. Corp.
Biotrol®
ilectrokinetics, Inc.
ZENON Environmental,
nc.
ELI Eco Logic Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
Environmental
Applications, Inc.
High Voltage
Environmental
Applications, Inc.
Magnum Water
Technology
Vlatrix Photocatalytic
Inc.
Morrison Knudsen
Corporation/Spetstampon
azhgeologia
Enterprises/STG
Technologies
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
Bruker Analytical
Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Strategic Diagnostic,
Inc.
Hanby Environmental
Laboratory Procedure,
Inc.
Strategic Diagnostic,
Inc. Corp.
Technology
RaPID Assay®
Biological Aqueous Treatment
System
n Situ Bioremediation by
ilectrokinetic Injection
ZenoGem™ Process
Gas-Phase Chemical Reduction
'rocess
lerox-pure™ Chemical Oxidation
Technology
jquified Gas Solvent Extraction
LG-SX} Technology
High Energy Electron Beam
Irradiation
High Energy Electron Irradiation
CAV-OX* Process
Photocatalytic Water Treatment
Clay-Base Grouting Technology
Membrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
Mobile Environmental Monitor
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Field Analytical Screening Program -
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Ensys Penta Test System
Test Kits for Organic Contaminants
in Soil and Water
RaPID Assay®
Volume, Page
Number
V3,72
V1.38
V2,120
VI, 184
Vl,68
VI, 46
VI, 48
V2,54
VI, 94
VI, 108
VI, 110
VI, 114
VI, 144
V1.168
V3.20
V3.60
V3,66
V3,78
VI, 178
V3,36
V3,68
V3,38
V3,72
Page 222
-------�
APPLICABILITY INDEX (continued)
Media
=====
Wastewater
(continued)
Contaminants
Pesticides
(continued)
Petroleum
Hydrocarbons
Radionuclides
SVOCs
Treatment Type
Thermal Destruction
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Portable Gas
Chromatographs
Test Kits
Physical/ Chemical
Radioactive Waste
Treatments
Physical/ Chemical
Treatment
Thermal Destruction
Biological
degradation
hysical/ Chemical
'hermal Desorption
hysical/ Chemical
'reatment
ortable Gas
iromatographs
Technology Vendor
BWX Technologies, Inc
Energy and
Environmental Research
Corp.
New Jersey Institute of
Technology
Calgon Carbon
Oxidation Technologies
SBP Technologies, Inc.
SRI Instruments
detek, Inc.
Filter Flow Technology,
Inc.
Atomic Energy of
Canada, Limited
Atomic Energy of
Canada, Limited
Selentec Environmental,
nc.
3WX Technologies, Inc.
Biotrol®
ZENON Environmental,
nc.
ELI Eco Logic Inc.
New Jersey Institute of
'echnology
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
High Voltage
invironmental
pplications, Inc.
igh Voltage
invironmental
pplications, Inc.
ulse Sciences, Inc.
BP Technologies, Inc.
nalytical and Remedial
echnology, Inc.
ruker Analytical
ystems. Inc.
Technology
Cyclone Furnace
Hybrid Fluidized Bed System
GHEA Associates Process
>erox-pure™ Chemical Oxidation
Technology
Membrane Filtration and
Bioremediation
Compact Gas Chromatograph
iquate® Immunoassay
Colloid Polishing Filter Method
Chemical Treatment and
Ultrafiltration
Ultrasonic-Aided Leachate Treatment
Selentec MAG*SEP Technology
Cyclone Furnace
Jiological Aqueous Treatment
ystem
ZenoGem™ Process
Gas-Phase Chemical Reduction
rocess
GHEA Associates Process
lerox-pure™ Chemical Oxidation
'echnology
iquified Gas Solvent Extraction
[LG-SX} Technology
ligh Energy Electron Beam
radiation
igh Energy Electron Irradiation
-ray Treatment of Aqueous
olutions
'embrane Filtration and
loremediation
utomated Sampling and Analytical
atform
Mobile Environmental Monitor
1 I,
Volume, Page
Number |
=====1
VI ,44
V2.40
V2,86
VI, 46
VI, 144
V3.66
V3,46
Vl,76
V2,22
V2,24
VI ,226
VI ,44
V1.38
VI, 184
V1.68
V2.86
VI, 46
V1.48
V2,54
VI, 94
V2,90
VI, 144
V3.14
V3,20
Page 223
-------�
APPLICABILITY INDEX (continued)
Media
Wastewater
(continued)
Contaminants
SVOCs
continued)
VOCs
Treatment Type
'ortable Gas
Chromatographs
continued)
olidification/
tabilization
Test Kits
Thermal Destruction
Jiological
Degradation
Physical/ Chemical
Thermal Desorption
'hysical/ Chemical
Treatment
Portable Gas
Chromatograph
Technology Vendor
U.S. EPA
Wheelabrator Clean Air
y stems, Inc.
trategic Diagnostic,
Inc. Corp.
BWX Technologies, Inc.
Biotrol®
ilectrokinetics, Inc.
ZENON Environmental,
nc.
^ew Jersey Institute of
Technology
Rochem Separation
Systems, Inc.
Calgon Carbon
Oxidation Technologies
CF Systems Corp.
EnviroMetal
Technologies, Inc.
EnviroMetal
Technologies, Inc.
ligh Voltage
invironmental
Applications, Inc.
3ulse Sciences, Inc.
SBP Technologies, Inc.
U.S. Filter/WTS Ultrox
UV Technologies, Inc.
Roy F. Weston, Inc.
ZENON Environmental
Inc.
Bruker Analytical
Systems, Inc.
HNU Systems, Inc.
Sentex Sensing
Technology, Inc.
SRI Instruments
Technology
ield Analytical Screening Program -
CB Method
O*WW*ER™ Technology
RaPID Assay®
Cyclone Furnace
Biological Aqueous Treatment
ystem
n Situ Bioremediation by
Electrokinetic Injection
ZenoGem™ Process
GHEA Associates Process
Rochem Disc Tube™ Module System
>erox-pure™ Chemical Oxidation
Technology
Liquified Gas Solvent Extraction
LG-SX} Technology
In Situ and Ex Situ Metal Enhanced
Abiotic Degradation of Dissolved
Halogenated Organic Compounds in
Groundwater
leactive Barrier
ligh Energy Electron Irradiation
X-ray Treatment of Aqueous
Solutions
Vlembrane Filtration and
Bioremediation
Ultraviolet Radiation and Oxidation
PhotoCAT™ Process
Ambersorb™ 563 Adsorbent
Cross Flow Pervaporation System
Mobile Environmental Monitor
HNU Source Excited Fluorescence
Analyzer-Portable (SEFA-P) X-Ray
Fluorescence Analyzer
Scentograph Plus II Portable Gas
Chromatograph
Compact Gas Chromatograph
Volume, Page
Number
V3,78
VI, 178
V3.72
VI, 44
V1.38
V2,120
VI, 184
V2.86
VI, 142
VI, 46
V1.48
VI, 72
VI, 194
VI, 94
V2,90
VI, 144
VI, 168
V2,112
V2.116
VI, 182
V3.20
V3.42
V3,60
V3.66
Page 224
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APPLICABILITY INDEX (continued)
Media
=====
Wastewater
(continued)
II
Other
Contaminants
VOCs
(continued)
Other
Aromatic VOCs
Dioxins
Furans
Halogenated
VOCs
Metals
CBs
esticides
Treatment Type
Portable Gas
Chromatograph
(continued)
Solidification/
Stabilization
Spectrometers
lest Kits
Thermal Destruction
Physical/ Chemical
Treatment
Solidification/
Stabilization
Physical/ Chemical
Treatment
Solidification/
Stabilization
Physical/ Chemical
Treatment
Solidification/
tabilization
Physical/ Chemical
'reatment
olidification/
tabilization
Field Portable X-ray
luorescence
Materials Handling
olidification/
tabilization
hermal Destruction
hysical/ Chemical
reatment
olidification/
tabilization
hysical/ Chemical
'reatment
olidification/
abilization
Technology Vendor
U.S. EPA
Wheelabrator Clean Air
Systems, Inc.
Graseby Ionics, Ltd.,
and PCP, Inc.
Hanby Environmental
Laboratory Procedure,
inc.
Energy and
Environmental Research
Corp.
North American
Technologies Group,
nc.
RECRA Environmental,
Inc.
Western Product
Recovery Group, Inc.
Terra-Kleen Response
Group, Inc.
Geosafe Corp.
Terra-Kleen Response
Group, Inc.
Geosafe Corp.
Process Technologies,
nc.
Geosafe Corp.
NITON Corp.
N Spectrace
AEA Technology
nvironment
aeosafe Corp.
Western Product
lecovery Group, Inc.
oncurrent Technologies
erra-Kleen Response
roup, Inc.
eosafe Corp.
erra-Kleen Response
roup, Inc. .
eosafe Corp.
Technology
Field Analytical Screening Program
PCB Method
PO*WW*ER™ Technology
Ion Mobility Spectrometry
Test Kits for Organic Contaminants
in Soil and Water
Hybrid Fluidized Bed System
Oleophilic Amine-Coated Ceramic
Chip
Alternating Current
Slectrocoagulation Technology
Coordinate, Chemical Bonding, and
Adsorption Treatment
Solvent Extraction Treatment System
GeoMelt Vitrification
Solvent Extraction Treatment System
GeoMelt Vitrification
'hotolytic Destruction of
Vapor-Phase Halogens
GeoMelt Vitrification
XL Spectrum Analyzer
000 X-ray Fluorescence Analyzer
nd Lead X-ray Fluorescence
Analyzer
oil Separation and Washing Process
eoMelt Vitrification
oordinate, Chemical Bonding, and
dsorption Treatment
melting Lead-Containine Wastes
olvent Extraction Treatment System
eoMelt Vitrification
olvent Extraction Treatment System
eoMek Vitrification
1
Volume, Page
Number
V3,78
VI, 178
V3.36
V3.38
V2,40
VI, 132
V2.92
V2.114
VI, 158
VI, 84
VI, 158
VI, 84
V1.218
V1.84
V3,52
V3.74
V2.16
VI, 84
V2.114
V2.34
VI, 158
V1.84
VI, 158
VI, 84
Page 225
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APPLICABILITY INDEX (continued)
• ' .' ' ! ' . "• ' . ' ':" •' "
Media
Other
(continued)
Contaminants
SVOCs
VOCs
Not Applicable
Treatment Type
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Solidification/
Stabilization
Materials Handling
Physical/ Chemical
Thermal Desorption
Physical/ Chemical
Treatment
Solidification/
Stabilization
Data Management
Technology Vendor
Process Technologies,
Inc.
Terra-Kleen Response
Group, Inc.
Western Product
Recovery Group, Inc.
ABA Technology
Environment
Process Technologies,
Inc.
Terra-Kleen Response
Group, Inc.
Western Product
Recovery Group, Inc.
GISVSolutions, Inc.
Technology
Photolytic Destruction of
Vapor-Phase Halogens
Solvent Extraction Treatment System
Coordinate, Chemical Bonding, and
Adsorption Treatment
Soil Separation and Washing Process
Photolytic Destruction of
Vapor-Phase Halogens
Solvent Extraction Treatment System
Coordinate, Chemical Bonding, and
Adsorption Treatment
GIS\Key™ Environmental Data
Volume, Page
Number
VI, 218
VI, 158
V2.114
V2.16
V1.218
V1.158
V2.114
V1.88
* U.S. GOVERNMENT PRINTING OFFICE: 1999- 550 - 101 / 20004
Page 226
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$300
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