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引用次数: 0
摘要
:本研究介绍了使用不同代码进行的熔盐快堆堆芯计算。一开始使用 KENO(SCALE 软件包之一)代码计算基准设计的乘法系数 K eff。之后,使用 TRITON(SCALE 软件包之一)代码计算该设计不同区域的核常数。这些核常数被用于多物理场代码 COMSOL,以建立反应堆模型,计算中子扩散方程的中子通量特征值,然后计算乘法因子 K eff,并得到中子通量分布。该分布用于将反应堆的中子和热水力耦合起来。核代码 MCNP5 和 WIMS 也被用于该反应堆的建模,以计算 K eff。研究显示了每种代码的乘法因子值之间的差异,并与旧参考研究的值进行了比较,反映了选择数据 库和代码对结果的影响。研究还显示了 COMSOL 模拟基准的热水力结果。
Core calculations of the Molten Salt Fast Reactor using different computational codes
: This study presents core calculations of the Molten Salt Fast Reactor using different codes. The KENO (one of the SCALE package) code was used at the beginning to calculate the multiplication factor K eff for the benchmark design. After that, the TRITON (one of the SCALE package) was used to find the nuclear constants for the different regions of this design. These nuclear constants were used in the multi-physics code COMSOL to model the reactor and calculate the neutron flux Eigen values of the neutron diffusion equation and then calculate the multiplication factor K eff and get the neutron flux distribution. This distribution was used to make a coupling between the neutronic and the thermal hydraulic of the reactor. The nuclear codes MCNP5 and WIMS were also used in modelling this reactor to calculate K eff . The study showed the differences between the multiplication factor values from each code and compared them by the values from old reference studies and reflected the effect of the selection of the data libraries and the code on the results. It showed also the thermal hydraulic results for the benchmark as modelled by COMSOL.
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