Application development of RPT module based on OpenMC for double-heterogeneous system

Pengfei Liu; Yuqing Chen; Song Li; Tong Zhu

doi:10.11884/HPLPB202335.230193

[1] Lou Lei, Chai Xiaoming, Yao Dong, . Research of double-heterogeneity physical boundary on dispersed particle-type systems[J]. Nuclear Power Engineering, 42, 82-88(2021).

[2] Brown F B, Martin W R. Stochastic geometry capability in MCNP5 for the analysis of particle fuel[J]. Annals of Nuclear Energy, 31, 2039-2047(2004).

[3] Liu Shichang, Wang Kan, Chen Yixue. Development of Improved chord-length sampling method and its application in Monte Carlo simulation of dispersion fuel[J]. Atomic Energy Science and Technology, 54(2020).

[4] Murata I, Takahashi A, Mori T, et al. New sampling method in continuous energy Monte Carlo calculation for pebble bed reactors[J]. Journal of Nuclear Science and Technology, 34, 734-744(1997).

[5] Ji Wei, Martin W R. Monte Carlo simulation of VHTR particle fuel with chd length sampling[C]Proceedings of 2007 Joint International Topical Meeting on Mathematics & Computation Supercomputing in Nuclear Applications. 2007: 4210448109.

[6] Liang C. Radiation transpt computation in stochastic media: method application[D]. Troy: Rensselaer Polytechnic Institute, 2014.

[7] She Ding, Liu Zhihong, Shi Lei. An equivalent homogenization method for treating the stochastic media[J]. Nuclear Science and Engineering, 185, 351-360(2017).

[8] Hebért A. A collision probability analysis of the Double-Heterogeneity problem[J]. Nuclear Science and Engineering, 115, 177-184(1993).

[9] Sanchez R, Pomraning G C. A statistical analysis of the double heterogeneity problem[J]. Annals of Nuclear Energy, 18, 371-395(1991).

[10] Zhu Tong, Chen Yuqing, Li Ang, . Application of random media program based on SuperMC in solving double-heterogeneity[J]. High Power Laser and Particle Beams, 34, 026013(2022).

[11] Kim Y, Kim K S, Noh J M. Reactivityequivalent physical transfmation f homogenization of doubleheterogeneous fuels[C]Transactions of the Kean Nuclear Society Autumn Meeting. 2005.

[12] Romano P K, Horelik N E, Herman B R, et al. OpenMC: a state-of-the-art Monte Carlo code for research and development[J]. Annals of Nuclear Energy, 82, 90-97(2015).

[13] Li Jian, She Ding, Shi Lei. An improved reactivity-equivalent physical transformation for treating FCM fuel with burnable poisons[J]. Annals of Nuclear Energy, 121, 577-581(2018).

[14] Lou Lei, Peng Xingjie, Chai Xiaoming, et al. The ring RPT method for DH systems containing dispersed particle-type of fuel and burnable poisons[J]. Frontiers in Energy Research, 9, 704307(2021).

[15] Lou Lei, Yao Dong, Chai Xiaoming, et al. A novel reactivity-equivalent physical transformation method for homogenization of double-heterogeneous systems[J]. Annals of Nuclear Energy, 142, 107396(2020).

[16] Lou Lei, Chai Xiaoming, Yao Dong, et al. Research of ring RPT method on spherical and cylindrical Double-Heterogeneous systems[J]. Annals of Nuclear Energy, 147, 107741(2020).

[17] Torquato S, Uche O U, Stillinger F H. Random sequential addition of hard spheres in high Euclidean dimensions[J]. Physical Review E, 74, 061308(2006).

[18] Yu Jiankai, Forget B. Verification of depletion capability of OpenMC using VERA depletion benchmark[J]. Annals of Nuclear Energy, 170, 108973(2022).