Advanced search
Publication Cover
Nuclear Technology Volume 209, 2023 - Issue sup1: Special issue on the U.S. Department of Energy Microreactor Program
Submit an article Journal homepage
1,183
Views
1
CrossRef citations to date
0
Altmetric
Technical Papers

Qualification of Metallic Fuel Data for Advanced SFR Applications

Abdellatif M. Yacouta Argonne National Laboratory, Chemical and Fuel Cycle Technologies Division, Lemont, Illinois60439Correspondence[email protected]
,
Kun Moa Argonne National Laboratory, Chemical and Fuel Cycle Technologies Division, Lemont, Illinois60439
,
Aaron Oaksa Argonne National Laboratory, Chemical and Fuel Cycle Technologies Division, Lemont, Illinois60439
,
Michael Billoneb Argonne National Laboratory, Nuclear Science and Engineering Division, Lemont, Illinois60439
,
Yinbin Miaoa Argonne National Laboratory, Chemical and Fuel Cycle Technologies Division, Lemont, Illinois60439
&
Jeffrey Aliczb Argonne National Laboratory, Nuclear Science and Engineering Division, Lemont, Illinois60439
Pages S109-S122 | Received 05 Oct 2021, Accepted 15 Jul 2022, Published online: 13 Sep 2022

References

  • G. L. HOFMAN, L. C. WALTERS, and T. H. BAUER, “Metallic Fast Reactor Fuels,” Prog. Nucl. Energy, 204, 141 (1997).
  • “Oklo Power Combined Operating License Application for the Aurora at INL-Part II: Final Safety Analysis Report,” ML20075A003, Oklo Power (2020).
  • “Pilot Application for DG-1353,” Oklo-2018-RlO-P, Rev. 0, Oklo Inc. (2018).
  • “Combined License Application Documents for Aurora—Oklo Power Plant Application,” U.S. Nuclear Regulatory Commission (2020); https://www.nrc.gov/reactors/new-reactors/col/aurora-oklo/documents.html ( current as of Oct. 5, 2021).
  • NATRiUM; https://natriumpower.com ( current as of Oct. 5, 2021).
  • J. SACKETT and E. D. ARTHUR, “The ARC-100 Advanced SMR,” presented at the Committee on the Merits and Viability of Different Nuclear Fuel Cycles and Technology Options and the Waste Aspects of Advanced Nuclear Reactors 2021 (2021).
  • C. E. STEVENSON, The EBR-II Fuel Cycle Story, American Nuclear Society (1987).
  • C. P. CABELL, “Summary Description of the Fast Flux Test Facility,” HEDL–400, Hanford Engineering Development Laboratory (1980).
  • Y. I. CHANG, “The Integral Fast-Reactor,” Nucl. Technol., 88, 2, 129 (1989); https://doi.org/10.13182/NT88-129.
  • C. E. TILL, Y. I. CHANG, and W. H. HANNUM, “The Integral Fast Reactor—An Overview,” Prog. Nucl. Energy, 31, 1, 3 (1997); https://doi.org/10.1016/0149-1970(96)00001-7.
  • A. M. YACOUT et al., “FIPD: The SFR Metallic Fuels Irradiation & Physics Database,” Nucl. Eng. Des., 380, 111225 (2021); https://doi.org/10.1016/j.nucengdes.2021.111225.
  • A. OAKS et al., “Development of FIPD: The EBR-II Fuels Irradiation & Physics Database,” presented at the GLOBAL 2019, September 22–26, 2019.
  • “Addenda to ASME NQA-1–2008 Quality Assurance Requirements for Nuclear Facility Applications,” ASME NQA-1a–2009, American Society of Mechanical Engineers (2009).
  • T. BENOIT, K. MO, and A. YACOUT, “Quality Assurance Program Plan for SFR Metallic Fuel Data Qualification,” ANL/NE-16-17 Rev 2, ML19311C506, Argonne National Laboratory (2019).
  • “Regulatory Audit Report of Argonne National Laboratory for Providing Legacy Data in Support of Advanced Reactor Technology License Applications (CAC NO. A17017),” ML21209A984, U.S. Nuclear Regulatory Commission (2021).
  • “Quality Assurance Requirements for Nuclear Facility Applications,” ASME NQA-1–2008, American Society of Mechanical Engineers (2008).
  • A. M. YACOUT and M. C. BILLONE, “Pre-Licensing Evaluation of Legacy SFR Metallic Fuel Data,” Argonne National Laboratory, ANL-ART–76 (Sep. 16, 2016).
  • R. D. MCNIGHT, “Validation of the REBUS-3/RCT Methodologies for EBR-II Core-Follow Analysis,” ANL-IFR-153, Argonne National Laboratory (1991).
  • K. L. DERSTINE, “DIF3D: A Code to Solve One-, Two-, and Three-Dimensional Finite-Difference Diffusion Theory Problems,” ANL-82-64, Argonne National Laboratory (1984).
  • G. PALMIOTTI, E. E. LEWIS, and C. B. CARRICO, “VARIANT: VARIational Anisotropic Nodal Transport for Multidimensional Cartesian and Hexagonal Geometry Calculation,” ANL–95/40, Argonne National Laboratory (1995).
  • B. J. TOPPEL, “User’s Guide for the REBUS-3 Fuel Cycle Analysis Capability,” ANL-83-2, Argonne National Laboratory (1983).
  • A. GOPALAKRISHNAN and J. L. GILLETTE, “EBRFLOW—A Computer Program for Predicting the Coolant Flow Distribution in the Experimental Breeder Reactor-II,” Nucl. Technol., 17, 3, 205 (1973); https://doi.org/10.13182/NT73-A31264.
  • W. S. YANG and A. M. YACOUT, “Assessment of the SE2-ANL Code Using EBR-II Temperature Measurements,” presented at the 7th Int. Mtg. on Nuclear Reactor Thermal-Hydraulics, Saratoga Springs, New York (1995).
  • K. L. BASEHORE and N. E. TODREAS, “SUPERENERGY-2: A Multiassembly, Steady-State Computer Code for LMFBR Core Thermal-Hydraulic Analysis,” PNL-3379, Pacific Northwest Laboratory (1980).
  • A. YOUNG, J. WOODFORD, and A. YACOUT, “Software Quality Assurance Program Plan for Nuclear Fuel Codes and Data,” Argonne National Laboratory (2017).
  • M. A. SMITH, L. IBARRA, and A. OAKS, “Software Quality Assurance for EBR-II Fuels Irradiation and Physics Database (FIPD),” ANL-ART-238, Argonne National Laboratory (2021).
  • W. S. YANG, “RCT—A Code to Reconstruct Pin Power and Burnup Characteristics from Nodal Calculations in Hexagonal Geometry,” ANL-IFR-192, Argonne National Laboratory (1993).
  • B. J. T. H. HENRYSON II and C. G. STENBERG, “MC2-2: A Code to Calculate Fast Neutron Spectra and Multigroup Cross Sections,” ANL–8144, Argonne National Laboratory (1976).
  • D. L. PORTER, “X441 Profilometry,” Idaho National Laboratory, Personal Communication (2020).
  • D. C. CRAWFORD, S. L. HAYES, and J. J. POWERS, “VTR Startup Fuel Paper for NFSM,” INL/EXT-18-44673, Idaho National Laboratory (2018).
  • C. E. LAHM et al., “Experience with Advanced Driver Fuels in EBR-II,” J. Nucl. Mater., 204, 119 (1993); https://doi.org/10.1016/0022-3115(93)90207-F.
  • D. C. CRAWFORD et al., “Performance of U-Pu-Zr Fuel Cast into Zirconium Molds,” J. Nucl. Mater., 204, 157 (1993); https://doi.org/10.1016/0022-3115(93)90212-H.
  • H. TSAI and G. L. BATTE, “X489 Data Package,” Argonne National Laboratory, Unpublished Information (1990).
  • T. SOFU, “Development of Safety, Irradiation, and Reliability Databases Based on Past U.S. SFR Testing and Operational Experiences,” presented at the Int. Conf. on Fast Reactors and Related Fuel Cycles: Next Generation Nuclear Systems for Sustainable Development (FR17), Yekaterinburg, Russia, International Atomic Energy Agency (2017).
  • R. D. MCKNIGHT et al., “Validation and Application of a Physics Database for Fast Reactor Fuel Cycle Analysis,” presented at the American Nuclear Society 1994 Topl. Mtg. on Advances in Reactor Physics, Knoxville, Tennessee (1994).
  • R. G. PAHL et al., “Experimental Studies of U-Pu-Zr Fast-Reactor Fuel-Pins in the Experimental Breeder Reactor-II,” Metall. Trans. A, 21, 7, 1863 (1990); https://doi.org/10.1007/BF02647233.
  • K. M. PAAREN et al., “Cladding Profilometry Analysis of Experimental Breeder Reactor-II Metallic Fuel Pins with HT9, D9, and SS316 Cladding,” Energies, 14, 2, 515 (2021); https://doi.org/10.3390/en14020515.
  • K. M. PAAREN et al., “Initial Demonstration of Automated Fuel Performance Modeling with 1977 EBR-II Metallic Fuel Pins Using BISON Code with FIPD and IMIS Databases,” Nucl. Eng. Des., 382, 111393 (2021); https://doi.org/10.1016/j.nucengdes.2021.111393.
  • A. OAKS et al., “FY20 Progress Report on FIPD Development and User Support,” ANL-ART-215, Argonne National Laboratory (2020).
  • A. M. YACOUT, “Legacy Metal Fuel Data Exploration for Commercial Scale-Up,” ANL/CFCT-C16144, Argonne National Laboratory (2019).

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.