基于区域分解的CTF全堆子通道热工计算研究
郭娟娟, 刘仕倡, 尚晓通, 郭啸宇, 叶辛欧文, 黄善仿, 王侃. 基于区域分解的CTF全堆子通道热工计算研究[J]. 强激光与粒子束, 2017, 29(1): 016008.
Guo Juanjuan, Liu Shichang, Shang Xiaotong, Guo Xiaoyu, Yexin Ouwen, Huang Shanfang, Wang Kan. Parallelization of subchannel thermal-hydraulic code CTF of reactor core based on domain decomposition[J]. High Power Laser and Particle Beams, 2017, 29(1): 016008.
[1] 李林森. 基于中子随机输运理论的物理-热工耦合研究[J].原子能科学技术, 2013, 47(1): 292-294.(Li Linsen. Research on physics and thermal-hydraulics coupling based on neutron stochastical transport theory. Atomic Energy Science and Technology, 2013, 47(1): 292-294).
[2] CASL. Coupled single assembly solution with COBRA-TF/MPACT(Problem 6)[R/OL]. http: //www.casl.gov/
[3] Ivanov J. A flexible coupling scheme for Monte Carlo and thermal-hydraulics codes[C]//International Conference on Mathematics and Computational Methods Applied to Nuclear Science and Engineering.2001.
[4] 唐霄. 基于BEAVRS全堆基准题的RMC临界计算验证[C]//第 15 届反应堆数值计算与粒子输运学术会议暨2014年反应堆物理会议. 2014.(Tang Xiao. Validation of critical calculation for RMC based on BEAVRS benchmark//The 15th Reactor Numerical Calculation and Particle Transport Academic Conferences and Reactor Physics Conference in 2014. 2014)
[5] Wang K, Li Z, She D, et al. RMC-A Monte Carlo code for reactor core analysis[J]. Annals of Nuclear Energy, 2015, 82: 121-129.
[6] Salko J. Optimization and parallelization of the thermal-hydraulic subchannel code CTF for high-fidelity multi-physics applications[J]. Annals of Nuclear Energy, 2015, 84: 122-130.
[7] CASL. COBRA-TF subchannel thermal-hydraulics code (CTF) theory manual[R/OL]. http: //www.casl.gov/
[8] MIT: Benchmark for evaluation and validation of reactor simulations (BEAVRS) [R/OL].http: //crpg.mit.edu/pub/beavrs.
郭娟娟, 刘仕倡, 尚晓通, 郭啸宇, 叶辛欧文, 黄善仿, 王侃. 基于区域分解的CTF全堆子通道热工计算研究[J]. 强激光与粒子束, 2017, 29(1): 016008. Guo Juanjuan, Liu Shichang, Shang Xiaotong, Guo Xiaoyu, Yexin Ouwen, Huang Shanfang, Wang Kan. Parallelization of subchannel thermal-hydraulic code CTF of reactor core based on domain decomposition[J]. High Power Laser and Particle Beams, 2017, 29(1): 016008.