References
- “Technology Roadmap Update for Generation IV Nuclear Energy Systems,” presented at the Generation IV International Forum, Organisation for Economic Co-operation and Development/Nuclear Energy Agency (2014).
- A. J. HUNING, S. CHANDRASEKARAN, and S. GARIMELLA, “A Review of Recent Advances in HTGR CFD and Thermal Fluid Analysis,” Nucl. Eng. Des., 373, 111013 (2021); https://doi.org/10.1016/j.nucengdes.2020.111013.
- G. STRYDOM et al., “INL Results for Phases I and III of the OECD/NEA MHTGR-350 Benchmark,” INL/EXT-13-30176, Idaho National Laboratory (2013).
- R. W. JOHNSON, H. SATO, and R. R. SCHULTZ, “CFD Analysis of Core Bypass Phenomena,” INL/EXT-09-16882, Idaho National Laboratory (2009).
- C. WANG, X. SUN, and P. SABHARWALL, “CFD Investigation of MHTGR Natural Circulation and Decay Heat Removal in P-LOFC Accident,” Front. Energy Res., 8, 129 (2020); https://doi.org/10.3389/fenrg.2020.00129.
- L. ZOU and R. HU, “Recent SAM Code Improvement to Heat Transfer Modeling Capabilities,” ANL/NSE-19/46, Argonne National Laboratory (2019).
- R. HU et al., “SAM Theory Manual,” ANL/NE-17/4 Rev, Vol. 1, Argonne National Laboratory (2021).
- P. VEGENDLA, R. HU, and L. ZOU, “Multi-scale Modeling of Thermal-Fluid Phenomena Related to Loss of Forced Circulation Transient in HTGRs,” ANL-19/35, Argonne National Laboratory (2019).
- I. GUTOWSKA and B. WOODS, “OSU High Temperature Test Facility Design Technical Report,” OSU-HTTF-TECH-003-R2, Oregon State University (2019).
- T. HUA et al., “Ring Model Development and Validation for Prismatic HTGR Core Thermal-Hydraulics and Safety Analysis,” ANL/NSE-21/37, Argonne National Laboratory (2021).
- D.-H. SHIN et al., “Analytical Study on the Effective Thermal Conductivity of VHTR Fuel Block Geometry with Multiple Cylindrical Holes,” Nucl. Technol., 191, 3, 213 (2015); https://doi.org/10.13182/NT14-102.
- D.-H. SHIN et al., “Development of Effective Thermal Conductivity Models for Reserve Shutdown Control Fuel Block of Prismatic HTGR for Hydrogen Production,” Int. J. Hydrogen Energy, 42, 29, 18614 (2017); https://doi.org/10.1016/j.ijhydene.2017.04.128.
- C. J. PERMANN et al., “MOOSE: Enabling Massively Parallel Multiphysics Simulation,” SoftwareX, 11, 100430 (2020); https://doi.org/10.1016/j.softx.2020.100430.
- S. CADELL and B. WOODS, “OSU High Temperature Test Facility Test Acceptance Report, PG-27 Low Power (<350 kW) Complete Loss of Flow, 2 Heaters,” OSU-HTTF-TAR-027-R0, Oregon State University (2019).
- I. GUTOWSKA and B. WOODS, “Instrumentation Plan for the OSU High Temperature Test Facility,” OSU-HTTF-TECH-002-R4, Oregon State University (2019).