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Identification and investigation on thermal stratification characteristics of core make-up tank under ocean conditions
编号:1 访问权限:仅限参会人 更新:2024-09-04 21:19:14 浏览:78次 口头报告

报告开始:暂无开始时间(Asia/Shanghai)

报告时间:暂无持续时间

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摘要
The Core Makeup Tank (CMT) is a passive high-pressure injection technology that has been widely used in large commercial pressurized water reactors and small modular reactors.Based on the investigation and analysis of thermal hydraulic researches related to CMT , and combined with integral effect test or separate effect test, the thermal hydraulic phenomena of CMT and its branches are studied.This study aims to obtain the thermal stratification characteristics and its influencing factors under ocean conditions, and to compare and analyze the evolution characteristics of thermal stratification under different marine conditions.Based on the experimental device of the core makeup tank, under typical ocean motion conditions such as heaving, tilting, and rolling, experimental research on the thermal stratification phenomenon and its influencing factors inside CMT was conducted.The experimental results show that the effects of heaving and tilting conditions on the thermal stratification inside CMT are not significant. The rolling motion can enhance the mixing process of the hot and cold fluids inside CMT, with the thermal stratification region diffusing axially and becoming thicker, reducing the axial temperature gradient within the region, ultimately turning most of the CMT into a sloping temperature zone.The initial temperature difference has a small impact on the changes in thermal stratification. A decrease in the rolling period or an increase in the rolling angle will enhance the mixing process of the hot and cold fluids, accelerate the diffusion of the thermal stratification region, and reduce the temperature gradient within the sloping temperature zone.

 
关键词
core make-up tank,Ocean conditions, Natural circulation, Thermal stratification
报告人
TANG JIILIN
Student Harbin Engineering University;Heilongjiang Provincial Key Laboratory of Nuclear Power System & Equipment

稿件作者
TANG JIILIN Harbin Engineering University;Heilongjiang Provincial Key Laboratory of Nuclear Power System & Equipment
LI DONGYANG China; Heilongjiang;Heilongjiang Provincial Key Laboratory of Nuclear Power System & Equipment; Harbin Engineering University Harbin
LIU YUSHENG State Environmental Protection Key Laboratory of Nuclear and Radiation Safety Regulatory Simulation and Validation, Nuclear and Radiation Safety Center, MEE, Beijing 100086, China;Heilongjiang Provincial Key Laboratory of Nuclear Power System & Equipment,Harbin Engineering University,Harbin, Heilongjiang, China
TAN SICHAO Heilongjiang Provincial Key Laboratory of Nuclear Power System & Equipment, Harbin Engineering University Harbin, Heilongjiang, China
QIU LIQING China;Chengdu;Nuclear Power Institute of China;Sichuan
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重要日期

  • 会议日期

    09月23日

    2024

    09月25日

    2024

  • 09月24日 2024

    报告提交截止日期

  • 09月25日 2024

    注册截止日期

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Harbin Engineering University (HEU)
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