实验堆热静压室设计的结构分析

Farisy Yogatama Sulistyo, R. Himawan, A. Nugroho, S. Bakhri, S. Sudadiyo
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引用次数: 0

摘要

底反射器在实验堆堆芯内部结构中起着重要的作用。然而,它必须能够承受位于堆芯反应堆内部的卵石和自身负载的载荷。底部反射器有柱状结构,用于将氦气从锥形的小孔输送到热气室的较大孔中。这个柱被称为热静压室,是一个由圆形石墨块组成的简单柱。然而,这种结构很容易倒塌。因此,本文将根据与荷载对应的石墨块高度,模拟底部反射镜的强度,并分析安全系数(FOS)来预测底部反射镜的安全性。FOS值越高,说明设计是安全的。在SolidWork软件下采用有限元法进行仿真。采用H.250mm、H.200mm、H.150mm、H.100mm、H.50mm四种不同型号的热静压室,其最小FOS分别为40.782、40.891、41.374、42.257、43.394。根据这些结果的计算,H.50mm型号具有最大的FOS值。研究结果对实验堆的失效设计准则、设计脆性断裂行为和设计材料的选择具有指导意义。底反射器在实验堆堆芯内部结构中起着重要的作用。然而,它必须能够承受位于堆芯反应堆内部的卵石和自身负载的载荷。底部反射器有柱状结构,用于将氦气从锥形的小孔输送到热气室的较大孔中。这个柱被称为热静压室,是一个由圆形石墨块组成的简单柱。然而,这种结构很容易倒塌。因此,本文将根据与荷载对应的石墨块高度,模拟底部反射镜的强度,并分析安全系数(FOS)来预测底部反射镜的安全性。FOS值越高,说明设计是安全的。在SolidWork软件下采用有限元法进行仿真。采用H.250mm、H.200mm、H.150mm、H.100mm、H.50mm等不同型号的热静压箱,其最小FOS分别为40.782、40.891、41.374、42.257…
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural analysis on the hot plenum design of experimental power reactor
The bottom reflector plays an important role in the internal core structure of Experimental Power Reactor (RDE). However, it must be able to bear the load either the pebbles that is situated inside the core reactor and from its self-load. The Bottom reflector has column to distribute helium gas from small hole in the cone shaped to through the larger hole in the hot gas chamber. This column, known as hot plenum, is a simple column that consist of circular graphite block. However, this type of structure is vulnerable to collapse. Therefore, this paper will simulate the strength of the bottom reflector based on height of the graphite block that corresponds to the load and analyse Factor of Safety (FOS) to predict the bottom reflector safety. The higher FOS value mean the design is safe. This simulation employs finite elements method under the SolidWork software. The models of hot plenum are named H.250mm, H.200mm, H.150mm, H.100mm and H.50mm, which resulting the minimum FOS of 40.782, 40.891, 41.374, 42.257, 43.394, respectively. Based on calculation among these results, model H.50mm has the maximum value of FOS. This result will be benefit for Experimental Power Reactor design criteria of failure, the design brittle fracture behavior, and the design material selection.The bottom reflector plays an important role in the internal core structure of Experimental Power Reactor (RDE). However, it must be able to bear the load either the pebbles that is situated inside the core reactor and from its self-load. The Bottom reflector has column to distribute helium gas from small hole in the cone shaped to through the larger hole in the hot gas chamber. This column, known as hot plenum, is a simple column that consist of circular graphite block. However, this type of structure is vulnerable to collapse. Therefore, this paper will simulate the strength of the bottom reflector based on height of the graphite block that corresponds to the load and analyse Factor of Safety (FOS) to predict the bottom reflector safety. The higher FOS value mean the design is safe. This simulation employs finite elements method under the SolidWork software. The models of hot plenum are named H.250mm, H.200mm, H.150mm, H.100mm and H.50mm, which resulting the minimum FOS of 40.782, 40.891, 41.374, 42.257...
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