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Technical Papers

Development of Subchannel Void Sensor for Wide Pressure and Temperature Ranges and Its Application to Boiling Flow Dynamics in a Heated Rod Bundle

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Pages 203-221 | Received 14 Oct 2020, Accepted 26 Feb 2021, Published online: 30 Jun 2021
 

Abstract

A subchannel void sensor (SCVS) acquires the two-phase flow in a rod bundle as the time-series data of cross-sectional distributions. Herein, the temperature and pressure ranges of an SCVS were extended to include the rated conditions of boiling water reactors. The improved SCVSs were installed in a 5 × 5 heated rod bundle at eight height levels. In a boiling experiment using the rod bundle, the three-dimensional distributions of the boiling two-phase flow were measured over a wide pressure range (up to 7.2 MPa). The new experimental data were compared with existing experimental data and the results of a subchannel analysis. Experimental results were consistent with those of a high-energy X-ray computed tomography study of a heated rod bundle with the same geometry and under the same heat and flow conditions as those used in our study. The subchannel analysis code reproduced the experimental results fairly well, and the obtained database is applicable for validating and improving thermal-hydraulic analysis codes.

Acknowledgments

Part of this research was conducted as the Infrastructure Development Project for Enhancement of Safety Measures at Nuclear Power Plants “Advanced Models for Thermalhydraulic Analysis During Nuclear Fuel Boil-off Process” sponsored by the Ministry of Economy, Trade and industry. The authors would like to thank Takio Endo, Yuki Miyazawa, and Yoshiyuki Shiratori of the Electric Power Engineering Systems Co., Ltd. for their help in conducting these experiments.

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