A methodological study on extending an empirical model to predict self-leveling behavior of debris beds with non-spherical particles

Songbai Cheng, Hirotaka Tagami, Hidemasa Yamano, Tohru Suzuki, Yoshiharu Tobita, Yuya Nakamura, Bin Zhang, Tatsuya Matsumoto, Koji Morita

研究成果: 会議への寄与タイプ学会誌査読

抄録

Studies on the self-leveling behavior of debris bed are crucial in the assessment of core-disruptive accident (CDA) that could occur in sodium-cooled fast reactors (SFR). In our previous publications, a simple empirical model, with its wide applicability confirmed over various experimental conditions, has been successfully proposed to predict the transient leveling behavior. However, up until now this model is restricted to beds of spherical particles. Focusing on this aspect, based on the existing experimental knowledge obtained, in this study a methodological framework is proposed with the purpose of extending its predicative capability to cover non-spherical particles. The proposed framework principally consists of two empirical terms - with one for correcting the terminal velocity of a single non-spherical particle, which is the key parameter in our modeling, and the other for representing the additional particle-particle interactions caused by the shape-related parameters. Through the preliminary analyses, it was found that by linking the Geldart's method with our recently developed pressure-drop measurement facility, the terminal velocity of irregularly-shaped particles can be readily achieved, while for modeling the additional particle-particle interactions, based on the latest data available a parametric study is also conducted to identify the potential contributors. Although further investigations would be necessary, the current study confirms the possibility and provides a guideline for our future studies regarding empirical model development for predictions of debris bed self-leveling behavior within more realistic conditions.

本文言語英語
出版ステータス出版済み - 2013
イベントInternational Conference on Power Engineering 2013, ICOPE 2013 - Wuhan, 中国
継続期間: 10月 23 201310月 27 2013

その他

その他International Conference on Power Engineering 2013, ICOPE 2013
国/地域中国
CityWuhan
Period10/23/1310/27/13

!!!All Science Journal Classification (ASJC) codes

  • エネルギー工学および電力技術
  • 燃料技術
  • 電子工学および電気工学

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