Analysis of flow distribution and bypass flow for DHR-400 low temperature heating reactor

International Journal of Advanced Nuclear Reactor Design and Technology Pub Date : 2024-06-01 DOI:10.1016/j.jandt.2024.12.003

Yan Zhang , Mingyu Liu , Jing Chen , Shizhao Song , Hao Yin

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Abstract

Flow distribution at the core inlet and the fraction of bypass flow are important aspects of thermal hydraulic design for reactor. Three-dimensional fluid dynamics analysis was used to numerically simulate the overall flow phenomenon in the pool type low temperature heating reactor. Model of porous media was used to modify fuel assemblies. Thermal hydraulic parameters such as flow distribution of inlet and bypass flows were obtained. The results show that the deviation between the maximum flow rate and the average flow rate at the core inlet is 4.36 %, and the deviation between the minimum flow rate and the average flow rate is −3.08 %. The fraction of bypass flow of reflectors is 2.3 %, and the fraction of bypass flow between baffles and core shroud is 0.34 %. The total pressure drop from inlet to outlet is 56.8 kPa. It can be concluded that the distribution of inlet is relatively uniform, and the fraction of bypass flows is within the allowable range. The calculation results can provide a basis for subsequent engineering design.

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DHR-400低温加热反应器流量分布及旁通流量分析

堆芯入口的流动分布和旁通流的比例是反应堆热工设计的重要方面。采用三维流体力学方法对池式低温加热反应器内的整体流动现象进行了数值模拟。采用多孔介质模型对燃料组件进行改造。得到了入口流场和旁通流场等热工参数。结果表明：堆芯进口最大流量与平均流量的偏差为4.36%，最小流量与平均流量的偏差为−3.08%；反射板旁通流量占比为2.3%，挡板与堆芯叶冠间的旁通流量占比为0.34%。进出口总压降为56.8 kPa。结果表明，进气道分布较为均匀，旁通流占比在允许范围内。计算结果可为后续工程设计提供依据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Advanced Nuclear Reactor Design and Technology

CiteScore

2.50

自引率

0.00%

发文量