ESTIMATION OF CRITICAL FLOW VELOCITY FOR COLLAPSE OF GAS TEST LOOP BOOSTER FUEL ASSEMBLY

机译：气体测试环增压燃料组件坍塌的临界流速估算

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This paper presents calculations performed to determine the critical flow velocity for plate collapse due to static instability for the Gas Test Loop booster fuel assembly. Long, slender plates arranged in a parallel configuration can experience static divergence and collapse at sufficiently high coolant flow rates. Such collapse was exhibited by the Oak Ridge High Flux Reactor in the 1940s and the Engineering Test Reactor at the Idaho National Laboratory in the 1950s. Theoretical formulas outlined by Miller, based upon wide-beam theory and Bernoulli's equation, were used for the analysis. Calculations based upon Miller's theory show that the actual coolant flow velocity is only 6% of the predicted critical flow velocity. Since there is a considerable margin between the theoretically predicted plate collapse velocity and the design velocity, the phenomena of plate collapse due to static instability is unlikely.

机译：本文介绍了为确定由于气体测试回路助推器燃料组件的静态不稳定性而导致的板塌陷的临界流速而进行的计算。平行配置的细长板会在足够高的冷却液流量下发生静态发散和塌陷。 1940年代的Oak Ridge高通量反应堆和1950年代的爱达荷国家实验室的工程测试反应堆都表现出了这种坍塌。根据宽光束理论和伯努利方程，将米勒概述的理论公式用于分析。基于米勒理论的计算表明，实际的冷却剂流速仅为预测的临界流速的6％。由于理论上预测的板坍塌速度与设计速度之间有相当大的余量，因此不太可能因静态不稳定性而导致板塌陷现象。

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来源
《14th International Conference on Nuclear Engineering 2006(ICONE14) vol.2: Thermal Hydraulics》|2006年|P.119-122|共4页
会议地点 MiamiFL(US)
作者
Donna Post Guillen; Mark J. Russell;
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Idaho National Laboratory Idaho Falls, Idaho 83415;

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原文格式 PDF
正文语种 eng
中图分类核反应堆工程;
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ESTIMATION OF CRITICAL FLOW VELOCITY FOR COLLAPSE OF GAS TEST LOOP BOOSTER FUEL ASSEMBLY

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