BEAVRS benchmark analyses by DeCART stand-alone calculations and comparison with DeCART/MATRA multi-physics coupling calculations |
Park, Ho Jin
(Korea Atomic Energy Research Institute)
Kim, Seong Jin (Korea Atomic Energy Research Institute) Kwon, Hyuk (Korea Atomic Energy Research Institute) Cho, Jin Young (Korea Atomic Energy Research Institute) |
1 | A. Graham, et al., Assessment of Thermal-Hydraulic Feedback Models, PHYSOR2016, Sun Valley, ID, USA, 2016. May 1-5. |
2 | S.J. Kim, et al., Preliminary coupling of MATRA code for multi-physics analysis, in: Transactions of the Korean Nuclear Society Spring Meeting, Jeju, Korea, May 29-30, 2014. |
3 | J.Y. Cho, et al., "DeCART v1.2 User's Manual," KAERI/TR-3438/2007, 2007. |
4 | H.G. Joo, et al., "Methods and Performance of a Three-Dimensional Whole-Core Transport Code DeCART," PHYSOR 2004 - the Physics of Fuel Cycles and Advanced Nuclear System, Global Developments, Chicago, Illinois, 2004. April 25-29. |
5 | S.J. Kim, et al., Development and Assessment of Core T/H Code's Real Time Model for SMART Simulator, 2013. KAERI/TR-4904/2013. |
6 | D.N. Horelik, et al., Benchmark for evaluation and validation of reactor simulations, MIT Computational Reactor Physics Group, rev03 29 (August) (2018). |
7 | B.S. Collins, et al., Simulation of the BEAVRS benchmark using VERA, in: International Conference on Mathematics & Computational Method Applied to Nuclear Science and Engineering (M&C 2017), Jeju, Korea, April 16-20, 2017. |
8 | M. Ryu, et al., Solutions of the BEAVRS benchmark using the nTRACER direct whole core calculation code, J. Nucl. Sci. Technol. 52 (2015) 961-969. DOI |
9 | P. Darnowski, et al., Analysis of the BEAVR PWR benchmark using SCALE and PARCS, Nukleonika 64 (3) (2019) 87. DOI |
10 | S. Kumar, et al., Integral Full Core Multi-Physics PWR Benchmark with Measured Data, 2018. NEUP 14-6741. |
11 | J. Leppanen, et al., Validation of the serpent-ARES code sequence using the MIT BEAVRS benchmark e initial core at HZP conditions, Ann. Nucl. Energy 69 (2014) 212-225. DOI |
12 | H. Lee, et al., MCS - a Monte Carlo particle transport code for large-scale power reactor analysis, Ann. Nucl. Energy 139 (2020) 107276. DOI |
13 | S. Choi, et al., Preliminary Results of BEAVRS Whole-Core Multi-Cycle Analysis with Neutron Transport Code System, 2019. M&C2019, Portland, OR, USA, August 25-29. |
14 | D.J. Kelly, et al., Analysis of select BEAVRS PWR benchmark cycle 1 results using MC21 and OpenMC, 2014. PHYSOR2014 - the role of reactor physics toward a sustainable future, Kyoto, Japan, September 28 - October 3. |
15 | H. Finnemann, A. Galati, "NEACRP 3-D LWR Core Transient Benchmark," NEACRP-L-335, 1992. Revision 1. |
16 | H.J. Park, et al., Real variance analysis of Monte Carlo eigenvalue calculation by McCARD for BEAVRS benchmark, Ann. Nucl. Energy 90 (2016) 205-211. DOI |
17 | H.J. Park, et al., An improved DeCART library generation procedure with explicit resonance interference using continuous energy Monte Carlo calculation, Ann. Nucl. Energy 105 (2017) 95-105. DOI |
18 | S. Choi, et al., Resonance treatment using pin-based pointwise energy slowing-down method, J. Comput. Phys. 330 (2017) 134-155. DOI |
19 | K.S. Kim, S.G. Hong, A new procedure to generate resonance integral table with an explicit resonance interference for transport lattice code, Ann. Nucl. Energy 38 (2011) 118-127. DOI |
20 | D. Hwang, et al., Accuracy and Uncertainty Analysis of PSBT Benchmark Exercises Using a Subchannel Code MATRA, vol. 2012, Science and Technology of Nuclear Installation, 2012. Article ID 603752. |
21 | C.A. Meyer, et al., 1967 ASME Steam Table, American Society of Mechanical Engineers, New York, 1968. |
22 | H.J. Shim, et al., McCARD: an Monte Carlo code for advanced reactor design and analysis, Nucl. Eng. Tech. 44 (2) (2012) 161-176. DOI |
23 | New York Power, Indian Point 3 Nuclear Power Plant Cycle 11 Physics Test Report, New York Power Authority, 2000. |
24 | D.C. Groeneveld, et al., The 1995 look-up table for critical heat flux in tubes, Nucl. Eng. Des. 163 (1996) 1-23. DOI |