Pyroprocessing of fast flux test facility nuclear fuel

B. R. Westphal; L. A. Wurth; G. L. Fredrickson; G. G. Galbreth; D. Vaden; M. D. Elliott; J. C. Price; E. M. Honeyfield; M. N. Patterson

Pyroprocessing of fast flux test facility nuclear fuel

B. R. Westphal, L. A. Wurth, G. L. Fredrickson, G. G. Galbreth, D. Vaden, M. D. Elliott, J. C. Price, E. M. Honeyfield, M. N. Patterson

Research output: Contribution to conference › Paper › peer-review

1 Scopus citations

Abstract

Used nuclear fuel from the Fast Flux Test Facility (FFTF) was recently transferred to the Idaho National Laboratory and processed by pyroprocessing in the Fuel Conditioning Facility. Approximately 213 kg of uranium from sodium-bonded metallic FFTF fuel was processed over a one year period with the equipment previously used for the processing of EBR-II used fuel. The peak burnup of the FFTF fuel ranged from 10 to 15 atom% for the 900+ chopped elements processed. Fifteen low-enriched uranium ingots were cast following the electrorefining and distillation operations to recover approximately 192 kg of uranium. A material balance on the primary fuel constituents, uranium and zirconium, during the FFTF campaign will be presented along with a brief description of operating parameters. Recoverable uranium during the pyroprocessing of FFTF nuclear fuel was greater than 95% while the purity of the final electrorefined uranium products exceeded 99%.

Original language	English
Pages	186-189
Number of pages	4
State	Published - 2013
Event	International Nuclear Fuel Cycle Conference: Nuclear Energy at a Crossroads, GLOBAL 2013 - Salt Lake City, UT, United States Duration: Sep 29 2013 → Oct 3 2013

Conference

Conference	International Nuclear Fuel Cycle Conference: Nuclear Energy at a Crossroads, GLOBAL 2013
Country/Territory	United States
City	Salt Lake City, UT
Period	09/29/13 → 10/3/13

Cite this

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title = "Pyroprocessing of fast flux test facility nuclear fuel",

abstract = "Used nuclear fuel from the Fast Flux Test Facility (FFTF) was recently transferred to the Idaho National Laboratory and processed by pyroprocessing in the Fuel Conditioning Facility. Approximately 213 kg of uranium from sodium-bonded metallic FFTF fuel was processed over a one year period with the equipment previously used for the processing of EBR-II used fuel. The peak burnup of the FFTF fuel ranged from 10 to 15 atom% for the 900+ chopped elements processed. Fifteen low-enriched uranium ingots were cast following the electrorefining and distillation operations to recover approximately 192 kg of uranium. A material balance on the primary fuel constituents, uranium and zirconium, during the FFTF campaign will be presented along with a brief description of operating parameters. Recoverable uranium during the pyroprocessing of FFTF nuclear fuel was greater than 95% while the purity of the final electrorefined uranium products exceeded 99%.",

author = "Westphal, {B. R.} and Wurth, {L. A.} and Fredrickson, {G. L.} and Galbreth, {G. G.} and D. Vaden and Elliott, {M. D.} and Price, {J. C.} and Honeyfield, {E. M.} and Patterson, {M. N.}",

year = "2013",

language = "English",

pages = "186--189",

note = "International Nuclear Fuel Cycle Conference: Nuclear Energy at a Crossroads, GLOBAL 2013 ; Conference date: 29-09-2013 Through 03-10-2013",

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TY - CONF

T1 - Pyroprocessing of fast flux test facility nuclear fuel

AU - Westphal, B. R.

AU - Wurth, L. A.

AU - Fredrickson, G. L.

AU - Galbreth, G. G.

AU - Vaden, D.

AU - Elliott, M. D.

AU - Price, J. C.

AU - Honeyfield, E. M.

AU - Patterson, M. N.

PY - 2013

Y1 - 2013

N2 - Used nuclear fuel from the Fast Flux Test Facility (FFTF) was recently transferred to the Idaho National Laboratory and processed by pyroprocessing in the Fuel Conditioning Facility. Approximately 213 kg of uranium from sodium-bonded metallic FFTF fuel was processed over a one year period with the equipment previously used for the processing of EBR-II used fuel. The peak burnup of the FFTF fuel ranged from 10 to 15 atom% for the 900+ chopped elements processed. Fifteen low-enriched uranium ingots were cast following the electrorefining and distillation operations to recover approximately 192 kg of uranium. A material balance on the primary fuel constituents, uranium and zirconium, during the FFTF campaign will be presented along with a brief description of operating parameters. Recoverable uranium during the pyroprocessing of FFTF nuclear fuel was greater than 95% while the purity of the final electrorefined uranium products exceeded 99%.

AB - Used nuclear fuel from the Fast Flux Test Facility (FFTF) was recently transferred to the Idaho National Laboratory and processed by pyroprocessing in the Fuel Conditioning Facility. Approximately 213 kg of uranium from sodium-bonded metallic FFTF fuel was processed over a one year period with the equipment previously used for the processing of EBR-II used fuel. The peak burnup of the FFTF fuel ranged from 10 to 15 atom% for the 900+ chopped elements processed. Fifteen low-enriched uranium ingots were cast following the electrorefining and distillation operations to recover approximately 192 kg of uranium. A material balance on the primary fuel constituents, uranium and zirconium, during the FFTF campaign will be presented along with a brief description of operating parameters. Recoverable uranium during the pyroprocessing of FFTF nuclear fuel was greater than 95% while the purity of the final electrorefined uranium products exceeded 99%.

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M3 - Paper

AN - SCOPUS:84903151108

SP - 186

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T2 - International Nuclear Fuel Cycle Conference: Nuclear Energy at a Crossroads, GLOBAL 2013

Y2 - 29 September 2013 through 3 October 2013

ER -

Pyroprocessing of fast flux test facility nuclear fuel

Abstract

Conference

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