HYDROTHERMAL STABILITY OF SPENT FUEL AND HIGH-LEVEL WASTE CERAMICS IN THE GEOLOGIC REPOSITORY ENVIRONMENT.

Gregory J. McCarthy, William B. White, Sridhar Komarneni, Barry E. Scheetz, W. Phelps Freeborn, Deane K. Smith

Research output: Contribution to conferencePaper

Abstract

The stability trends for four simulated waste forms (spent fuel, a reference glass, a supercalcine ceramic and a coated ceramic) under hydrothermal conditions (100 to 300 degree C; 400 degree C for the coated ceramic; 300 bars) with solutions alone and in contact with basalt and shale are summarized.

Original languageEnglish (US)
Pages274-276
Number of pages3
StatePublished - Jan 1 2017
EventCeram in Nucl Waste Manage, Proc of an Int Symp - Cincinnati, OH, Engl
Duration: Apr 30 1979May 2 1979

Other

OtherCeram in Nucl Waste Manage, Proc of an Int Symp
CityCincinnati, OH, Engl
Period4/30/795/2/79

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Basalt
Spent fuels
Shale
Contacts (fluid mechanics)
Glass

All Science Journal Classification (ASJC) codes

  • Engineering(all)

Cite this

McCarthy, G. J., White, W. B., Komarneni, S., Scheetz, B. E., Freeborn, W. P., & Smith, D. K. (2017). HYDROTHERMAL STABILITY OF SPENT FUEL AND HIGH-LEVEL WASTE CERAMICS IN THE GEOLOGIC REPOSITORY ENVIRONMENT.. 274-276. Paper presented at Ceram in Nucl Waste Manage, Proc of an Int Symp, Cincinnati, OH, Engl, .
McCarthy, Gregory J. ; White, William B. ; Komarneni, Sridhar ; Scheetz, Barry E. ; Freeborn, W. Phelps ; Smith, Deane K. / HYDROTHERMAL STABILITY OF SPENT FUEL AND HIGH-LEVEL WASTE CERAMICS IN THE GEOLOGIC REPOSITORY ENVIRONMENT. Paper presented at Ceram in Nucl Waste Manage, Proc of an Int Symp, Cincinnati, OH, Engl, .3 p.
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abstract = "The stability trends for four simulated waste forms (spent fuel, a reference glass, a supercalcine ceramic and a coated ceramic) under hydrothermal conditions (100 to 300 degree C; 400 degree C for the coated ceramic; 300 bars) with solutions alone and in contact with basalt and shale are summarized.",
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McCarthy, GJ, White, WB, Komarneni, S, Scheetz, BE, Freeborn, WP & Smith, DK 2017, 'HYDROTHERMAL STABILITY OF SPENT FUEL AND HIGH-LEVEL WASTE CERAMICS IN THE GEOLOGIC REPOSITORY ENVIRONMENT.', Paper presented at Ceram in Nucl Waste Manage, Proc of an Int Symp, Cincinnati, OH, Engl, 4/30/79 - 5/2/79 pp. 274-276.

HYDROTHERMAL STABILITY OF SPENT FUEL AND HIGH-LEVEL WASTE CERAMICS IN THE GEOLOGIC REPOSITORY ENVIRONMENT. / McCarthy, Gregory J.; White, William B.; Komarneni, Sridhar; Scheetz, Barry E.; Freeborn, W. Phelps; Smith, Deane K.

2017. 274-276 Paper presented at Ceram in Nucl Waste Manage, Proc of an Int Symp, Cincinnati, OH, Engl, .

Research output: Contribution to conferencePaper

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AU - White, William B.

AU - Komarneni, Sridhar

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AU - Freeborn, W. Phelps

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N2 - The stability trends for four simulated waste forms (spent fuel, a reference glass, a supercalcine ceramic and a coated ceramic) under hydrothermal conditions (100 to 300 degree C; 400 degree C for the coated ceramic; 300 bars) with solutions alone and in contact with basalt and shale are summarized.

AB - The stability trends for four simulated waste forms (spent fuel, a reference glass, a supercalcine ceramic and a coated ceramic) under hydrothermal conditions (100 to 300 degree C; 400 degree C for the coated ceramic; 300 bars) with solutions alone and in contact with basalt and shale are summarized.

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McCarthy GJ, White WB, Komarneni S, Scheetz BE, Freeborn WP, Smith DK. HYDROTHERMAL STABILITY OF SPENT FUEL AND HIGH-LEVEL WASTE CERAMICS IN THE GEOLOGIC REPOSITORY ENVIRONMENT.. 2017. Paper presented at Ceram in Nucl Waste Manage, Proc of an Int Symp, Cincinnati, OH, Engl, .

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