Verification and validation of explicit moving particle simulation method for application to internal flooding analysis in nuclear reactor building |
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Authors: | Zidi Wang Kazuya Shibata Seiichi Koshizuka |
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Affiliation: | Department of Systems Innovation, The University of Tokyo, Tokyo, Japan |
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Abstract: | The Fukushima nuclear accident raised the importance of flooding study in nuclear reactor buildings. It is known that the external flooding can be attributed to natural causes, while the internal flooding is caused by the piping ruptures, tank failure or the actuation of fire suppression systems. The building flooding process can damage the safety-related components and systems, which needs to study carefully. In order to simulate this phenomenon which is accompanied by complex flow with free surface, a particle method based on Lagrangian approach named explicit moving particle simulation (EMPS) method, is employed in this analysis. Verification and validation analyses are carried out. The verification problems are a hydrostatic analysis and a water spreading to investigate the differences of the particle wall and polygon wall boundary models, while the validation studies of two experiments of dam-break induced flooding show good agreements. Afterwards, the internal flooding process in AP1000 is simulated by assuming a break of the in-containment refueling water storage tank as an example. The results achieved so far indicate that the EMPS method is capable to simulate the internal flooding process in the nuclear reactor buildings. |
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Keywords: | Particle method EMPS method V& V dam break flows internal flooding AP1000 |
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