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COMMERCE BUSINESS DAILY ISSUE OF JANUARY 22,1996 PSA#1514U.S. Department of Energy; Idaho Operations Office; Procurement
Services Division; 850 Energy Drive, MS 1221; Idaho Falls, ID
83401-1563 A -- MIXED WASTE CHARACTERIZATION, TREATMENT, AND DISPOSAL FOCUS AREA
DUE 022096 POC Contract Specialists; Dallas L. Hoffer,
208/526-0014/Linda A. Hallum, 208/526-5545 The U.S. Department Of
Energy, Idaho Operations Office (DOE-ID) is seeking expressions of
interests and capability from potential sources. The U.S. Department of
Energy (DOE) Mixed Waste Focus Area (MWFA) has identified thirty
deficiencies related to the treatment of mixed hazardous and
radioactive wastes within the DOE complex of facilities. These thirty
deficiencies are listed below in order of priority. Technology
Deficiency Descriptions: 1. Mercury stabilization - Mercury
contaminated wastes require stabilization to control mercury solubility
to meet Universal Treatment Standards. 2. Mercury amalgamation -
Methods and equipment designs are required for amalgamating bulk
non-recyclable mercury to meet Universal Treatment Standards. 3.
NDE/NDA-initial characterization - Nondestructive examination (NDE) and
nondestructive assay (NDA) techniques and equipment are required to
determine the nature of a waste matrix in drums and boxes, to confirm
the presence and concentration of RCRA-regulated materials and
radionuclides, and to identify characteristics of concern for
operational safety and process continuity. 4. Mercury
separation/removal - New techniques must be developed to physically or
chemically remove mercury from wastes as a pretreatment to other waste
treatment processes. 5. Material handling - Methods and equipment
designs are required that will provide for handling all types of DOE
waste materials in all process steps without undue risk of exposure of
operating personnel to radioactivity or hazardous materials. 6.
Sorting/segregation - Efficient separation of waste types, as well as
segregating nonradioactive, or radioactive only (no RCRA regulated
constituents) from mixed wastes is needed for safe, reliable, efficient
processing. 7. Salt stabilization - Stabilization processes are
required for salt-containing wastes that increase waste loadings,
improve durability, and/or reduce the volume increase typical of
today's standard practices. 8. Ash stabilization - Stabilization
processes are required for ash that increase waste loadings, improve
durability and/or reduce the volume typical of today's standard
practices. 9. Mercury monitoring - Although mercury monitors are
commercially available, it would be advantageous to develop real-time
monitors requiring minimal consumables and low maintenance, with
operating ranges covering the emission limits typical of incinerators.
10. Alpha monitoring - Although alpha monitors are commercially
available, it would be advantageous to develop real-time monitors
requiring minimal consumables and low maintenance, with operating
ranges covering the emission limits typical of alpha material
processing facilities. 11. VOC monitoring - Process monitoring could be
improved with real-time monitors requiring minimal consumables and low
maintenance, which can identify and quantify specific VOC contaminants
over operating ranges covering the emission limits typical of hazardous
waste treatment facilities. 12. Heavy metal monitoring - Process
monitoring could be improved with real-time monitors requiring minimal
consumables and low maintenance, which can identify and quantify
specific metals in operating ranges covering the emission limits
typical of hazardous waste incinerators. 13. Radionuclide
distribution/partitioning - More complete information on the fractional
distribution of radionuclides between the off-gas, the final waste
form, and any secondary waste streams in high temperature mixed waste
treatment processes is needed to support equipment design and process
permitting. 14. Waste form performance - An objective, technically
defensible evaluation of the long-term performance of advanced waste
forms must be conducted to allow flexibility in siting and operating
low-level waste (LLW) disposal facilities in a manner to best exploit
the more durable, higher waste-loading forms. 15. HEPA filter
improvements - A stronger, high-temperature, longer lived HEPA filter,
that can survive a greater pressure drop, and that requires less
frequent replacement, or that can be cleaned and reused, is needed. 16.
Mercury filter - A potential enhancement to traditional off gas
treatment design would be a selective mercury removal step, which
removes essentially all of the mercury from the off-gas stream for
separate treatment. 17. Molten product decanting - Operating techniques
and equipment design are required to facilitate decanting or transfer
of molten materials from furnaces in an effective, reliable, and safe
manner applicable to a radioactive environment. 18. Comparative
analysis/aqueous - A comparative analysis on the efficacy, reliability,
applicability, and maintainability of the many processes now being
developed for destruction of organic contamination in wastewaters
containing radionuclides will assist in identifying processes for
further consideration and development. 19. Aqueous organic nonthermal
destruction - Destruction/removal of most regulated organic
constituents expected to be found in wastewaters from mixed waste
treatment should be demonstrated to reliably attain regulatory limits
in a manner applicable to a radioactive environment. 20. Refractory
performance - Improved refractories, or operating techniques better
suited to the DOE- specific waste processing conditions, are required
to increase long-term refractory reliability. 21. Nitrate removal -
Methods are needed to destroy or remove residual nitrates in sludges
and wastewaters. 22. Fission product removal - Methods are needed for
removal or significant reduction of the concentrations of fission
products from mixed waste, especially process residues and sludges. 23.
Internal drum pressure measurement - Methods are needed to measure
internal drum pressure without penetrating the drums. 24. Container
integrity measurement - Methods are needed to test the integrity of
stored containers to identify any containers that may require
particularly careful handling or overpack in preparation for management
or processing of the contents. 25. Cyanide destruction - Methods are
required to treat cyanide in the presence of interfering dissolved,
suspended, and matrix materials. 26. Thermal desorption - Methods are
required to minimize pretreatment to adequately prepare wastes for
thermal desorption so the contaminants can escape, and to verify
cleanup levels can be attained while maintaining Radio nuclide
containment. 27. Evaporator design - Better designs are needed for
evaporators for DOE waste-specific treatment plant streams. 28. Sludge
washing - Sludge washing technologies should demonstrate reliable feed
preparation and washing of contaminated process residues, sludges, and
particulates to satisfy RCRA requirements. 29. Trace metal removal -
Techniques are needed to meet wastewater discharge permit requirements
(e.g. 0.001 mg/L cadmium, 0.003 mg/L lead, and 0.004 mg/L silver)
while minimizing secondary waste generation. 30. Supercritical CO2 -
Techniques are needed to minimize pretreatment to adequately prepare
the wastes for supercritical CO2 extraction so that the organics can be
removed, and the wastes can be fed and removed from the supercritical
environment while maintaining radionuclide containment. The MWFA
desires a list of interested parties who have technology available to
address one or more of the technology deficiency areas. This includes
technology that may need to be demonstrated in a radioactive
environment on DOE mixed waste to verify its applicability. The MWFA
also desires a list of parties interested in participating in
cooperative research and development leading to demonstration of
technologies. A document with more detailed descriptions of the
deficiencies can be obtained by accessing the Mixed Waste Focus Area
home page on the internet at -http://wastenot.inel.gov/mwfa,- or by
calling the Mixed Waste Focus Area, 208-526-7575. From the MWFA home
page, simply push the button for -News and Events.- Interested parties
are asked to submit a contact name and address plus a brief
description of existing technology or of capabilities for conducting
research and development (R&D) to Jihad Aljayoushi, U.S. Department of
Energy, 850 Energy Drive, MS 1118, Idaho Falls, ID 83401-1563. Written
expressions of interest should not include detailed proposals or
proprietary data, but should include the name, address, telephone
number, and facsimile (fax) number of the primary contact person.
Submittals should be as brief as practical (e.g., should not exceed
five pages). To assist in the -Organizational Conflicts of Interest-
determinations, all submittals are required to disclose business
affiliations, partners for teaming arrangements, sister organizations,
etc. To assist in the SBA determinations, all submittals are required
to disclose business size and type. Written expressions of interest
should be received on or before February 20, 1996. This synopsis is for
expressions of interest only, and is not associated with any specific
funding opportunity, solicitation, procurement, assistance award, etc.
(0018) Loren Data Corp. http://www.ld.com (SYN# 0011 19960119\A-0011.SOL)
A - Research and Development Index Page
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