小型模块化重水反应堆慢化剂热和流体流动的CFD计算

IF 0.5 Q4 NUCLEAR SCIENCE & TECHNOLOGY Journal of Nuclear Engineering and Radiation Science Pub Date : 2023-07-21 DOI:10.1115/1.4063007
T. Kořínek, R. Škoda, M. Lovecký, O. Burian
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引用次数: 0

摘要

重水反应堆概念Teplator是一种压力通道型反应堆,具有主冷却剂和慢化剂的独立系统。本文对Teplator满负荷运行时的低压慢化剂冷却系统进行了分析。慢化剂通过中子热化、伽马射线吸收、裂变产物衰变和活化产物衰变来加热。此外,在慢化剂冷却系统的分析中必须考虑来自冷却剂通道的热传递。对冷却系统的初步热水力分析,辅以缓和剂容器内的热量和流体流动的CFD模拟,强调流动型状态。CFD模拟结果表明,以浮力为主导的流动(MF-22)导致慢化容器上板附近的热分层和高慢化温度。惯性主导的流动模式MF-90导致了慢化剂的良好混合和容器内的低热分层。最后,确定了中质量流型MF-45是一个由浮力主导型向混合型过渡的区域。
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CFD Calculations of Moderator Heat and Fluid Flow of Small Modular Heavy Water Reactor
The heavy water reactor concept Teplator is a pressure channel type reactor with independent systems for the primary coolant and the moderator. The present study analyses the low-pressure moderator cooling system of Teplator during full-power operation. The moderator is heated from neutron thermalization, gamma rays absorption, fission product decay and decay of activation products. Additionally, heat transfer from the coolant channels has to be taken in the analyses of the moderator cooling system. Preliminary thermal-hydraulic analyses of the cooling system are supplemented by CFD simulations of heat and fluid flow in the moderator's vessel, emphasizing flow-type regimes. Results from CFD simulations showed that the buoyancy-dominated flow (case MF-22) resulted in a higher thermal stratification and high moderator temperature close to the upper plate of the moderator vessel. The inertia-dominated flow regime MF-90 resulted in good mixing of the moderator and a low thermal stratification in the vessel. Finally, the mid-mass flow rate regime MF-45 was identified as a transitional region from a buoyancy-dominated to a mix-type regime.
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
56
期刊介绍: The Journal of Nuclear Engineering and Radiation Science is ASME’s latest title within the energy sector. The publication is for specialists in the nuclear/power engineering areas of industry, academia, and government.
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