氙-135 向熔盐反应堆石墨的转移

IF 0.5 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Terry Price, Ondrej Chvala
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引用次数: 0

摘要

熔盐反应堆是指使用熔融碱-卤化盐作为主冷却剂流体的一大类核反应堆。本文涉及的是带有石墨慢化剂的热谱液体燃料熔融氟化盐反应堆(MSR),其中熔融盐还溶解锕系元素燃料。氙同位素 135(135Xe)是核能生产过程中产生的裂变产物,具有中子毒物的作用。由于 MSR 中燃料盐的循环性质,135Xe 在 MSR 中的行为与固体燃料反应堆相比存在质的差异。裂变产生的 135Xe 有一部分可能最终进入 MSR 所用石墨慢化剂的孔隙空间。本文研究了 135Xe 在 MSR 石墨中的转移和储存。回顾了之前的出版物,研究了 MSR 石墨的孔隙率,详细介绍了调控方程,讨论了膜层的产生和破坏,探讨了石墨/盐界面,考虑了传输途径,阐述了传输过程,研究了带电物种的影响,研究了惰性气体在熔融氟化盐中的溶解度,探讨了熔融盐中的质量扩散系数,并介绍了质量传输系数的计算方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Transfer of Xenon-135 to Molten Salt Reactor Graphite
Molten salt reactors refers to a broad class of nuclear reactors that use a molten alkali-halide salt as the primary coolant fluid. This paper pertains to thermal spectrum liquid fuel molten fluoride salt reactors with graphite moderator (MSRs), where the molten salt also dissolves the actinide fuel. Xenon isotope 135, 135Xe, is a fission product that is produced during nuclear energy production and it acts as a neutron poison. Due to the circulating nature of the fuel salt in MSRs, there is a qualitative difference in the behavior of 135Xe in an MSR compared to a solid fueled reactor. Some of the 135Xe produced in fission may end up in the pore space of the graphite moderator used in a MSR. This paper examines the transfer and storage of 135Xe in MSR graphite. Prior publications are reviewed, the porosity of the MSR graphite is examined, governing equations are detailed, film layer production and destruction is discussed, the graphite / salt interface is explored, transport pathways are considered, transfer processes are exposited, the effect of charged species is examined, the solubility of noble gases in molten fluoride salts is examined, the mass diffusion coefficient in molten salts is explored, and the calculation of mass transfer coefficients is described.
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
56
期刊介绍: The Journal of Nuclear Engineering and Radiation Science is ASME’s latest title within the energy sector. The publication is for specialists in the nuclear/power engineering areas of industry, academia, and government.
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