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Waste Forms Technology and Performance: Interim Report (2010)

Chapter: Attachment A: References

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Suggested Citation:"Attachment A: References." National Research Council. 2010. Waste Forms Technology and Performance: Interim Report. Washington, DC: The National Academies Press. doi: 10.17226/12937.
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Attachment A:
References

ASME (American Society of Mechanical Engineers). 1985. The Evolution of HIP: Commemorating the First Hot and Cold Isostatic Processing Vessels. ASME Landmarks Program. Available at http://files.asme.org/ASMEORG/Communities/History/Landmarks/5569.pdf

Clarke, D.R. 1981. Preferential dissolution of an intergranular amorphous phase in a nuclear waste ceramic. J. Am. Ceram. Soc 64, C89-90.

Cooper, J.A., Cousens, D.R., Hanna, J.A., Lewis, R.A., Myhra, S., Segall, R.L., Smart, R. St.C., Turner, P.S., and T.J. White, 1986. Intergranular films and pore surfaces in Synroc C: Structure, Composition, and Dissolution characteristics, J. Am. Ceram. Soc, 69(4), 347-352.

DOE (U.S. Department of Energy). 1998. Accelerating Cleanup: Paths to Closure. DOE/EM-0362. Washington, D.C.: Office of Environmental Management.

DOE. 2010a. Technical Evaluation of Strategies for Transforming the Tank Waste System: Tank Waste System Integrated Project Team Final Report. Washington, D.C.: U.S. Department of Energy.

DOE. 2010b. Amended Record of Decision: Idaho High-Level Waste and Facilities Disposition Final Environmental Impact Statement Revised by State 12/21/09. Federal Register 75(1), 137-140. Available at http://edocket.access.gpo.gov/2010/pdf/E9-31151.pdf.

Elliott, M.L. 1996. Letter report: Cold Crucible Melter Assessment. PNNL-11018. Richland, Wash.: Pacific Northwest National Laboratory.

IPET [Independent Project Evaluation Team]. 2003. Technical Evaluation of Hanford HLW Vitrification Process Alternatives: Report of the Independent Project Evaluation Team. U.S. Department of Energy.

Jantzen, C.M. 2004. Disposition of Tank 48H Organics by Fluidized Bed Steam Reforming (FBSR). WSRC-TR-2003-00352, Rev. 1. Aiken, S.C.: Westinghouse Savannah River Co.

Jantzen, C.M. 2006. Fluidized Bed Steam Reformer (FBSR) Product: Monolith Formation and Characterization. WSRC-STI-2006-00033. Aiken, S.C.: Westinghouse Savannah River Co..

Jantzen, C.M. and M.R. Williams. 2008. Fluidized bed steam reforming (FBSR) mineralization for high organic and nitrate waste streams for the Global Nuclear Energy Partnership (GNEP), Waste Management ‘08, Paper #8314.

Marshall, D.W., Soelberg, N.R., and K.M. Shaber. 2003. THORsm Bench-Scale Steam Reforming Demonstration. INEEL/EXT-03-00437. Idaho Falls: Idaho National Engineering & Environmental Laboratory.

Mason, J.B., Oliver, T.W., Carson, M.P., and G.M. Hill. 1999. Studsvik Processing Facility Pyrolysis/Steam Reforming Technology for Volume and Weight Reduction and Stabilization of LLRW and Mixed Wastes, Waste Management ‘99.

Suggested Citation:"Attachment A: References." National Research Council. 2010. Waste Forms Technology and Performance: Interim Report. Washington, DC: The National Academies Press. doi: 10.17226/12937.
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NRC [National Research Council]. 2001. Research Needs for High-Level Waste Stored in Tanks and Bins at U.S. Department of Energy Sites. Washington, D.C.: National Academy Press.

NRC. 2006. Tank Waste Retrieval, Processing, and On-Site Disposal at Three Department of Energy Sites. Washington, D.C.: National Academy Press.

OECD-NEA [Organisation for Economic Co-Operation and Development, Nuclear Energy Agency]. 2003. Engineered Barrier Systems and the Safety of Deep Geological Repositories: State-of-the-art Report. Paris, France: OECD. 76 pp.

Steefel, C.I., DePaolo, D.J., and P. C. Lichtner. 2005. Reactive transport modeling: An essential tool and a new research approach for the Earth sciences. Earth and Planetary Science Letters 240, 539-558.

Vernaz, E.Y., and C. Poinssot. 2008. Overview of the CEA French Research Program on Nuclear Waste. Mater. Res. Soc. Symp. Proc. 1107.

Vernaz, E.Y. 2009. (editor) Nuclear Waste Conditioning. Paris, France: Commissariat à l'Énergie Atomique.

Zhang Z., and M.L. Carter. 2010. An X-ray photoelectron spectroscopy investigation of highly soluble grain-boundary impurity films in hollandite. J. Am. Ceram. Soc. 93(3), 894-899.

Suggested Citation:"Attachment A: References." National Research Council. 2010. Waste Forms Technology and Performance: Interim Report. Washington, DC: The National Academies Press. doi: 10.17226/12937.
×
Page 15
Suggested Citation:"Attachment A: References." National Research Council. 2010. Waste Forms Technology and Performance: Interim Report. Washington, DC: The National Academies Press. doi: 10.17226/12937.
×
Page 16
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The Waste Forms Technology and Performance study examines requirements for waste form technology and performance in the context of the disposal system in which the waste will be emplaced. The Department of Energy, Office of Environmental Management requested this interim report to provide timely information for fiscal year 2011 technology development planning. The authoring committee has focused this interim report on opportunities associated with selected aspects of three components of its statement of task. These tasks are:

  • The state-of-the-art tests and models of waste forms used to predict their performance for time periods appropriate to their disposal system.
  • Potential modifications of waste form production methods that may lead to more efficient production of waste forms that meet their performance requirements.
  • Potential new waste forms that may offer enhanced performance or lead to more efficient production.

The committee judges that the opportunities identified in this report are sufficiently mature to justify consideration by DOE-EM as it plans its fiscal year 2011 technology development program.

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