TechDirect Message #55 September 2001

Message #55: September 2001
Welcome to TechDirect. Since the August 1 message, TechDirect
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there.
Mention of non-EPA documents or presentations does not constitute
a U.S. EPA endorsement of their contents, only an acknowledgment
that they exist and may be relevant to the TechDirect audience.
Special Announcement
The USTfields Initiative: Proposal Guidelines for USTfields
Pilots (EPA 510-B-01-001). EPA will provide $4 million in financial
assistance to clean up contamination from leaking underground
storage tanks around the nation. The Agency expects to select up to
40 pilot projects to help states and cities clean up these properties
and foster redevelopment by returning them to productive economic
and public use. EPA is inviting states, territories and
federally-recognized Indian Tribes as well as eligible intertribal
consortia to compete for these pilots. Each selected pilot will receive
up to $100,000 in Leaking Underground Storage Tank Trust Fund
monies (August 2001, 28 pages). The deadline for submitting
proposals for the USTfields Pilots is October 22. View or download
the proposal at http://www.epa.aov/swerust1/ustfield/auidline.pdf . For hard copies, contact
(800) 490-9198 or (513) 489-8190 or fax to (513) 489-8695.
Live Internet Seminars
ITRC Advanced Techniques on Installation of Iron Based
Permeable Reactive Barriers and Non-Iron Based Barrier
Treatment Material - September 11 and 13. This ITRC seminar
uses case studies to describe long-term performance of iron-based
systems and details how to design them according to the
heterogeneities of the subsurface. New construction techniques for
excavation and wall emplacement have improved dramatically and
the attention to barrier construction is as critical as is performance
monitoring. It also describes non-iron barrier systems, the material
most commonly used and the mechanisms encouraging a reduction
in contaminant concentrations within the systems. For more
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information and to register, see or	0^,,^ or http://www.itrcweb.ora
Geophysical Characterization Techniques and Data Uses,
September 18 and 20. Learn to identify and understand factors to
be considered in scoping, executing, or reviewing projects that
involve geophysical instruments and techniques. The two hour
seminar starts by describing how the use of systematic planning,
dynamic work plans, and field technologies (a.k.a. the Triad) is
applied to site cleanup, and how geophysical technologies fit into
this smarter approach to cleaning up hazardous waste sites. The
course then walks you through the use several of technologies such
as resistivity profiling and ground penetrating radar. To register, see
http://clu-in.ora/studio.
ITRC In Situ Chemical Oxidation, September 25-27. This seminar
presents materials covered in the recently released ITRC In Situ
Chemical Oxidation Technical and Regulatory Guidance document.
It provides technical and regulatory information to assist site
managers in understanding, evaluating and making informed
decisions on ISCO proposals. It includes descriptions of the various
chemical oxidants, regulatory considerations, stakeholder concerns,
case studies, and technical references. For more information and to
register see or http://clu-in.org/studio Of http://www.itrcweb.org .
CLU-IN Studio Update
New videos on the CLU-IN Studio. Several new videos were
mounted on the CLU-IN Studio in August. These videos were
produced by the U.S. EPA Environmental Response Team and deal
with selected environmental remediation topics. The new videos,
located at http://clu-in.org/studio , include:
1.	Divex
2.	Manasota Plating
3.	Summitville Mine
Documents
Remediation Technology Cost Compendium - Year 2000 (EPA
542-R-01-009) This report, prepared by the U.S. EPA Technology
Innovation Office, provides a summary and analysis of historical cost
information for six commonly-applied remediation technologies:
bioremediation, thermal desorption, soil vapor extraction, on-site
incineration, groundwater pump-and-treat systems, and permeable
reactive barriers. The cost analysis was designed to be consistent
with acceptable statistical practices such as adjusting cost data to a
baseline year and for U.S. geographic variation. Cost data were
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obtained from federal agency sources with data extracted from
approximately 150 projects. Based on these data, cost curves were
developed for bioventing, thermal desorption, soil vapor extraction,
and pump-and-treat systems, showing the correlation between unit
cost and quantity of material treated (September 2001, 77 pages).
View or download at http://cluin.org/techpubs.htm. For hard copies, contact
NSCEP at (800) 490-9198 or (513) 489-8190 or fax to (513)
489-8695.
Use of Bioremediation at Superfund Sites (EPA 542-R-01-019).
This document was produced by the EPA Technology Innovation
Office. It provides site-specific information about 104 Superfund
remedial action sites where bioremediation has been applied,
including available performance data. It also provides a snapshot of
current applications and presents trends overtime concerning
selection and use, contaminants and site types treated, and cost and
performance of the technology (August 2001, 48 pages). View or
download at http://clu-in.org/techpubs.htm .
Monitored Natural Attenuation: USEPA Research Program - An
EPA Science Advisory Board Review (EPA-SAB-EEC-01-004).
The Natural Attenuation Research Subcommittee of the EPA
Science Advisory Board's (SAB) Environmental Engineering
Committee reviewed EPA's research program for monitored natural
attenuation (MNA) of contaminants in groundwater, soils, and
sediments. The Subcommittee evaluated the Office of Research and
Development's (ORD) research in terms of its scientific quality and
its effectiveness and utility for promoting sound decisions regarding
the use of MNA as a remedy at specific sites. The Subcommittee
approached this review using science and engineering disciplines
related to the fate of contaminants in the subsurface (May 2001, 66
pages). View or download at http://clu-in.org/techpubs.htm .
Evaluation of the Protocol for Natural Attenuation of
Chlorinated Solvents: Case Study at the Twin Cities Army
Ammunition Plant (EPA 600-R-01-025). EPA's Office of Research
and Development carried out an independent evaluation of the
Technical Protocol for Evaluating Natural Attenuation of Chlorinated
Solvents in Ground Water (EPA/600/R-98/128). The Protocol was
developed around case studies on relatively small plumes in sand
aquifers. Staff in the Regions wished to know if the Protocol could be
usefully applied to large plumes, or to plumes in aquifers in fractured
consolidated rock. The results show that the Protocol was successful
in predicting the development of the ground-water plume at the Twin
Cities Army Ammunition Plant (TCAAP). The screening analysis in
the Protocol predicts that the geochemical environment at TCAAP is
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not favorable to rapid reductive dechlorination. The modeling portion
of the study indicated that the current ground-water plume should be
expected when the rate of reductive dechlorination is slow. The
study also shows that natural biodegradation complements the
ongoing efforts to extract contaminated ground water at the source,
and should greatly reduce the time required to reduce the
concentration of contaminants to U.S. EPA drinking water standards
(March 2001, 49 pages). View or download at
http://www.epa.aov/ada/download/reports/epa 600 rQ1 025.pdf .
In Situ Thermal Treatment Site Profile Database (Beta Version).
Recent developments in the area of in situ thermal treatment
methods offer the potential for significantly increased ability to
address subsurface contamination. Approaches to in situ thermal
treatment include steam, hot air, or hot water injection, conductive
heating, electrical resistive heating, and radio-frequency heating.
These methods are in various stages of development and
deployment, largely as a function of the cleanup problem (size and
type of site, location and nature of contamination) under
consideration. The In Situ Thermal Treatment Site Profile Database
is an initial attempt to capture information on sites deploying or
planning to deploy these methods. See http://clu-in.org/products/thermal . Also note
on the CLU-IN Studio there is an archive of a June 2000 In Situ
Thermal one-day conference. Slides for all nine presenters as well
as the accompanying audio files can be accessed any time night or
day. This enables anyone to see and hear the presentations given at
that event. See http://clu-in.ora/thermal 060700/ .
Cost and Performance Report for Explosives Detecting
Immunosensors. This report was prepared for by the Environmental
Security Technology Certification Program (ESTCP). The Naval
Research Laboratory developed two methods for measuring TNT
and RDX. These methods employ either the Analyte 2000 or the
FAST 2000 optical instruments, both engineered by Research
International in collaboration with NRL.To demonstrate these methods,
extensive field trials (three for groundwater and one for soil), were
conducted at several geochemically diverse sites. Data was used to test
detection limits (5-10 ppb in groundwater and 50-100 mg/kg for soil),
reproducibility, bias, precision, calibration, waste generation, and matrix
effect on detection limits. A cost analysis for the methods was also done
(September 2000, 74 pages). See
Cost and Performance Report for Electromagnetic Surveys for 3D
Imaging of Subsurface Contaminants. This report was published by the
DoD Environmental Security Technology Certification Program (ESTCP).
The demonstration investigated the use of quasi-static EM resistivity
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surveys to detect and generate 3-D images of subsurface DNAPL
contamination. This EM resistivity survey technique is a surface to
borehole geophysical method that generates a 3-D image of
DNAPL-contaminated subsurface zones based on their high resistive
properties as contrasted with non-contaminated subsurface soil, rock and
groundwater. The objective was to verify that the EM technique could
consistently, rapidly and accurately perform high resolution site
characterization and DNAPL source delineation. This study clearly shows
that EM technology will not successfully detect low concentrations of
DNAPL in soil and sediments. Based on the results of the demonstration, it
appears doubtful, given the types of conditions that DNAPL are thought to
typically accumulate and reside in the subsurface (e.g., in small, scattered
pools and ganglia), whether the EM resistivity method can distinguish
between aqueous media and the DNAPLs and/or their dissolved-phase
constituents (November 2000, 54 pages). See
Cost and Performance Report for Continuous Emissions Monitor for
HAP Metals. Under this ESTCP project, validation of the Multimetal
Continuous Emissions Monitor System (MMCEMS) was carried out in two
demonstrations. The first took place at Tooele Army Depot (TEAD), Utah,
on the stack emissions from a munitions deactivation incinerator. The
second took place at the Retech Corporation's manufacturing facility at
Ukiah, California, on the Plasma Arc Hazardous Waste Treatment System
(PAHWTS). The MMCEMS employs an argon inductively coupled plasma
(ICP) spectrometer as an elemental analyzer, a shrouded probe for
extracting a stream of stack gas, and a patented sampling interface for
plasma sample introduction. The MMCEMS measures all 14 Hazardous Air
Pollutant (HAP) metals simultaneously following sample stack gas
introduction into the argon plasma, which occurred at approximately
one-minute intervals. Operation of the MMCEMS system is entirely
automated and only minimum human interaction is required (February
2001, 48 pages). See http ://w ww. estcp.org/do cuments/techdo cs/199807. pdf
Ground Water Currents (EPA 542-N-01-006). GWC is a quarterly
newsletter published by the EPA Technology Innovation Office. This issue
highlights field testing of innovative technologies for the cleanup and
characterization of ground water contaminated with DNAPL. The field tests
range from a large side-by-side demonstration of technologies at Cape
Canaveral, FL, to a smaller pilot study in Ogallala, NE. In addition, the use
of acoustic cross-well tomography to produce permeability images of the
subsurface, which can aid in locating DNAPL, is highlighted in this issue
July 2001, 6 pages). View or download at http: //c lu- in. or g/techpubs. htm . For hard
copies, contact (800) 490-9198 or (513) 489-8190 or fax to (513) 489-8695.
Conferences and Symposia
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Reminder - ITRC Phytotechnologies, October 24-25, Amherst, MA.
This two-day course discusses the latest applications of phytotechnologies
in remediation and waste management. The curriculum focuses systems
design using hands-on team problem solving and evening homework. Case
studies are incorporated into each major subject area.. For more
information, see http ://www. itrc web, org
Reminder - ITRC Accelerated Bioremediation of Chlorinated Solvents,
October 23-24, Pasadena, CA and December 4-5 New Orleans, LA. This
two-day course examines the roles of site characterization, modeling,
design, monitoring, and regulatory interaction in applying in-situ engineered
bioremediation. Lectures, case studies, hands on exercises and discussion
sessions are used to give participants knowledge and information that can
be put together immediately. For more information, see http://www.itrcweb.org
2001 ITRC Fall Conference, November 5-8, Long Beach, CA. The
ITRC Fall conference will feature panel sessions on issues in remediation
technology with national authorities, open sessions of eight ITRC work
teams (Chemical Oxidation, MTBE, UXO, bioremediation, etc.), training
for participants on six technology/technical areas, networking with public
and private sector professionals and exhibits on environmental technology.
For up to date agenda information and to register, see http ://www.itrcweb. org .
If you have any questions regarding TechDirect, contact Jeff
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httn://ciu-in.om/techrtrct at any time night or day.
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