CFD analysis on temperature homogenisation performance in experimental power reactor bottom plenum

R. A. P. Dwijayanto, Farisy Yogatama Sulistyo, M. Subekti
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Abstract

An issue concerning Experimental Power Reactor (Reaktor Daya Eksperimental/RDE), an HTGR-based experimental-scale nuclear power reactor proposed by National Nuclear Energy Agency (Badan Tenaga Nuklir Nasional/BATAN), is hot gas temperature deviation. To prevent safety-related problems caused by such deviation, RDE employs two levels of gas mixing for the heated coolant gas; the first level is bottom plenum and the second is hot gas chamber. Unlike the latter, bottom plenum is a simple empty column where the heated gas is mixed, but not homogeneous enough to be considered safe to be flown into the heat exchanger. To understand the mixing phenomena better, this paper will analyse the temperature homogenisation on the RDE bottom plenum, employing computational fluid dynamics-based method using FLUENT software. Simulation result shows that the coolant gas heterogeneity is reduced by 139.98°C, implying temperature homogeneity degree of 55.99%. This value provides insight on coolant gas parameter to perform more accurate calculation on the hot gas chamber. Temperature deviation pattern at the outlet channels is also discussed.An issue concerning Experimental Power Reactor (Reaktor Daya Eksperimental/RDE), an HTGR-based experimental-scale nuclear power reactor proposed by National Nuclear Energy Agency (Badan Tenaga Nuklir Nasional/BATAN), is hot gas temperature deviation. To prevent safety-related problems caused by such deviation, RDE employs two levels of gas mixing for the heated coolant gas; the first level is bottom plenum and the second is hot gas chamber. Unlike the latter, bottom plenum is a simple empty column where the heated gas is mixed, but not homogeneous enough to be considered safe to be flown into the heat exchanger. To understand the mixing phenomena better, this paper will analyse the temperature homogenisation on the RDE bottom plenum, employing computational fluid dynamics-based method using FLUENT software. Simulation result shows that the coolant gas heterogeneity is reduced by 139.98°C, implying temperature homogeneity degree of 55.99%. This value provides insight on coolant gas parameter to perform mor...
实验动力堆底充气室温度均匀性的CFD分析
国家原子能机构(BATAN Tenaga Nuklir Nasional/BATAN)提出的基于高温高温堆的实验规模核动力反应堆(Reaktor Daya ekexperimental /RDE)存在的一个问题是热气体温度偏差。为了防止这种偏差引起的安全问题,RDE对加热的冷却剂气体采用两级气体混合;第一层是底部静压室,第二层是热毒气室。与后者不同,底部静压室是一个简单的空柱,被加热的气体在其中混合,但不是均匀的,被认为是安全的,可以飞进热交换器。为了更好地理解混合现象,本文将使用FLUENT软件,采用基于计算流体动力学的方法分析RDE底部静压室内的温度均匀化。模拟结果表明,冷却剂气体的非均匀性降低了139.98℃,温度均匀度达到55.99%。该值提供了对冷却剂气体参数的洞察力,以便对热气室进行更准确的计算。还讨论了出口通道的温度偏差规律。国家原子能机构(BATAN Tenaga Nuklir Nasional/BATAN)提出的基于高温高温堆的实验规模核动力反应堆(Reaktor Daya ekexperimental /RDE)存在的一个问题是热气体温度偏差。为了防止这种偏差引起的安全问题,RDE对加热的冷却剂气体采用两级气体混合;第一层是底部静压室,第二层是热毒气室。与后者不同,底部静压室是一个简单的空柱,被加热的气体在其中混合,但不是均匀的,被认为是安全的,可以飞进热交换器。为了更好地理解混合现象,本文将使用FLUENT软件,采用基于计算流体动力学的方法分析RDE底部静压室内的温度均匀化。模拟结果表明,冷却剂气体的非均匀性降低了139.98℃,温度均匀度达到55.99%。该值提供了对冷却剂气体参数的洞察力,以执行更多…
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