TY - GEN
T1 - Process Improvements For Pu-238 Production at Idaho National Laboratory
AU - Green, William S.
AU - Zillmer, Andrew J.
AU - Mitchell, Jill R.
AU - Rosvall, Erik
AU - Grayson, Brittany
AU - Fradeneck, Austen D.
AU - Geddes, Kevin M.
AU - Paulsen, Randel
AU - Lower, Justin D.
N1 - Publisher Copyright:
© 2024 AMERICAN NUCLEAR SOCIETY. All rights reserved.
PY - 2024/5/8
Y1 - 2024/5/8
N2 - Idaho National Laboratory (INL) has supported the production of Pu-238 for future NASA deep space missions since 2017. Over this time, INL has worked to improve the qualification process of Pu-238 production targets as well as improve processes related to the shipping, storage, irradiation, and storage of Pu-238 production targets. Qualification of Pu-238 production targets began with flux measurements and scoping analysis to provide fundamental data to confirm the impacts on the operation of the Advanced Test Reactor (ATR), Fig1. Later, initial production targets were irradiated in ATR’s I-7 position, and then the South Flux Trap (SFT). A modified target design was then implemented which would use the full length of the ATR core and increase Pu-238 production. While working to improve and streamline the qualification of the Pu-238 production targets, INL worked to improve multiple operational aspects of the Pu-238 production process. These changes include updating procedures to streamline operations, supporting modification of shipping containers to contain five rather than one production target, reviewing target receipt procedures and changing work flow to provide flexibility in target receipt, and designing and fabricating support equipment for the storage and internal transfer of production targets.
AB - Idaho National Laboratory (INL) has supported the production of Pu-238 for future NASA deep space missions since 2017. Over this time, INL has worked to improve the qualification process of Pu-238 production targets as well as improve processes related to the shipping, storage, irradiation, and storage of Pu-238 production targets. Qualification of Pu-238 production targets began with flux measurements and scoping analysis to provide fundamental data to confirm the impacts on the operation of the Advanced Test Reactor (ATR), Fig1. Later, initial production targets were irradiated in ATR’s I-7 position, and then the South Flux Trap (SFT). A modified target design was then implemented which would use the full length of the ATR core and increase Pu-238 production. While working to improve and streamline the qualification of the Pu-238 production targets, INL worked to improve multiple operational aspects of the Pu-238 production process. These changes include updating procedures to streamline operations, supporting modification of shipping containers to contain five rather than one production target, reviewing target receipt procedures and changing work flow to provide flexibility in target receipt, and designing and fabricating support equipment for the storage and internal transfer of production targets.
UR - http://www.scopus.com/inward/record.url?scp=85202824946&partnerID=8YFLogxK
U2 - 10.13182/NETS24-43937
DO - 10.13182/NETS24-43937
M3 - Conference contribution
T3 - Proceedings of Nuclear and Emerging Technologies for Space, NETS 2024
SP - 523
EP - 528
BT - Proceedings of Nuclear and Emerging Technologies for Space, NETS 2024
PB - American Nuclear Society
T2 - 2024 Nuclear and Emerging Technologies for Space, NETS 2024
Y2 - 6 May 2024 through 10 May 2024
ER -