Scaling analysis of the pressure suppression containment test facility for the small pressurized water reactor

The small PWR has been paid more and more attention due to its diversity of application and flexibility in the site selection. However, the large core power density, the small containment space and the rapid accident progress characteristics make it difficult to control the containment pressure like...

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Bibliographic Details
Published inNuclear engineering and technology Vol. 53; no. 3; pp. 793 - 803
Main Authors Liu, Xinxing, Qi, Xiangjie, Zhang, Nan, Meng, Zhaoming, Sun, Zhongning
Format Journal Article
LanguageKorean
Published 2021
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Summary:The small PWR has been paid more and more attention due to its diversity of application and flexibility in the site selection. However, the large core power density, the small containment space and the rapid accident progress characteristics make it difficult to control the containment pressure like the traditional PWR during the LOCA. The pressure suppression system has been used by the BWR since the early design, which is a suitable technique that can be applied to the small PWR. Since the configuration and operating conditions are different from the BWR, the pressure suppression system should be redesigned for the small PWR. Conducting the experiments on the scale down test facility is a good choice to reproduce the prototypical phenomena in the test facility, which is both economical and reasonable. A systematic scaling method referring to the H2TS method was proposed to determine the geometrical and thermohydraulic parameters of the pressure suppression containment response test facility for the small PWR conceptual design. The containment and the pressure suppression system related thermohydraulic phenomena were analyzed with top-down and bottom-up scaling methods. A set of the scaling criteria were obtained, through which the main parameters of the test facility can be determined.
Bibliography:KISTI1.1003/JNL.JAKO202124452937577
ISSN:1738-5733
2234-358X