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球床型固体燃料熔盐堆计算软件开发 被引量:5

Software Development for Pebble-bed MSR Calculation
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摘要 熔盐堆是第四代核能系统中唯一的液体燃料反应堆,在安全性、经济性、核不扩散、核废料嬗变和钍燃料增殖特性方面与其他反应堆相比具有很大的优势。目前国内的熔盐堆主要有两种堆型:液态燃料熔盐堆和球床式固体燃料熔盐堆。本文考虑到球床熔盐堆燃料球的双重非均匀性特点研究了其组件均匀化方法。基于SISXTUS三维六角形节块程序开发了堆芯燃料管理程序BORAGE,并进行了数值验证。验证结果表明,本文所开发的程序具有很好的精度和效率,可用于熔盐堆稳态计算。 Molten salt reactor (MSR), the unique liquid fuel reactor in the fourth generation nuclear power system, has great advantages in terms of inherent safety, neutron economy, nuclear non-proliferation, nuclear waste transmutation and thorium fuel breeding, compared with other solid fuel reactors. At present, there are two main types of molten salt reactor in domestic. Hexagonal assembly MSR and pebble-bed MSR. In this paper, the pebble-bed MSR fuel sphere homogenization method was studied with double heterogeneity characteristics taken into consideration, and the core fuel management code BORAGE was developed based on SIXTUS 3-D hexagonal node diffusion code. Numerical results suggest that the developed code achieves good accuracy, efficiency and can be used in MSR steady analytical calculation.
作者 庄坤 曹良志 吴宏春 郑友琦
机构地区 西安交通大学核科学与技术学院
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2013年第B12期463-466,共4页 Atomic Energy Science and Technology
基金 国家自然科学基金资助项目(91226106)
关键词 熔盐堆 堆芯燃料管理 六角形节块 双重非均匀性 MSR core fuel management hexagon node double heterogeneity
分类号 TL325 [核科学技术—核技术及应用]
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参考文献5

  • 1DELPECH S, MERLE-LUCOTTE E, HEUER D. Reactor physic and reprocessing scheme for innovative molten salt reactor system[J]. Journal of Fluorine Chemistry, 2009, 130: 11-17.
  • 2OKUMURA K, KUGO T. SRAC2006, A com- prehensive neutronics calculation code system, JAEA-Data/Code 2007 004[R]. Japan, Atomic Energy Agency, 2007.
  • 3ARKUSZEWSKI J J, KAWAGOE Y, TAKEDA T. SIXTUS-3, A three dimensional nodal diffu sion code in hex-Z geometry preprint[R]. [S. 1.]: [s.n.], 1991.
  • 4LI Yunzhao, WU Hongchun, CAO Liangzhi, et al. FMSR: A code system for in-core fuel man- agement calculation of aqueous homogeneous so lution reactor[J]. Nuclear Engineering and De- sign, 2010, 240, 763-770.
  • 5HOSKING J G, NEWTON T D. Results of a benchmark considering a high-temperature reac- tor (HTR) fuelled with reactor-grade plutonium [R]. Paris, OECD, 2007.

同被引文献40

  • 1刘一哲,薛秀丽,许义军,冯预恒,侯志峰.中国实验快堆全堆芯流量分配计算与试验[J].核动力工程,2012,33(S1):100-103. 被引量:3
  • 2FORSBERG C W, PETERSON P F, PICKARDP S. Molten-salt-cooled advanced high-tempera-ture reactor for production of hydrogen and elec-tricity[J], Nuclear Technology, 2003,144(1):289-302.
  • 3FORSBERG C,PETERSON P F,SRIDHA-RAN K. Fluoride-salt-cooled high-temperaturereactors (FHRs) for base-load and peak electrici-ty, grid stabilization, and process heat[R]. Bos-ton: Massachusetts Institute of Technology,2013.
  • 4HUDSON N H, OUGOUAG A M, RAHNE-MA F,et al. A pebble bed reactor cross sectionmethodology [ J]. Annals of Nuclear Energy,2009,36(1) : 1 138-1 150.
  • 5RUTTEN H J,HAAS K A. V S O P (99/05)computer code system for reactor physics and fuelcycle simulation[R]. Julich: ForschungszentrumJiilich, 2005.
  • 6BENDE E E, HOGENBIRK A H. Analyticalcalculation of the average dancoff factor for a fuelkernel in a pebble bed high-temperature reactor[J]. Nuclear Science and Engineering, 1999,133(1): 147-162.
  • 7GOLUOGLU S,LANDERS N F,PETRIE LM, et al. CSAS: Control module for enhancedcriticality safety analysis sequences [ R OakRidge: Oak Ridge National Laboratory, 2006.
  • 8OKUMURA K, KUGO T,KANEKO K,et al.SRAC2006 : A comprehensive neutronics calcula-tion code system[R], Ibarakiken: Japan AtomicEnergy Agency, 2007.
  • 9X-5 Monte Carlo Team. A general Monte CarloN-particle transport code, Version 5 [R]. LosAlamos: Los Alamos National Laboratory*2003.
  • 10ILAS G, RAHNEMA F. A Monte Carlo basednodal diffusion model for criticality analysis ofspent fuel storage lattices[J]. Annals of NuclearEnergy, 2003, 30(1) : 1 089-1 108.

引证文献5

二级引证文献6

原子能科学技术
2013年 第B12期

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