The mechanism and prediction of critical heat flux in inverted geometries

S. Angelini; J.P. Tu; Yu.A. Buyevich

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The mechanism and prediction of critical heat flux in inverted geometries

机译：倒置几何中临界热通量的机理和预测

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Recent interest in a severe accident management scheme known as ‘In-Yessel Retention' has created the need to establish the coolability limits of large, inverted geometries. In this paper, full-scale simulations conducted at UCSB's ULPU facility are examined at the microscopic level. Because of the peculiar geometry, it has become possible to directly visualize the boiling transition phenomenon, and with the help of microthermocouples to quantitatively identify the mechanism of dryout. Altogether, a new boiling transition regime was identified, with a significant coupling between overall systems dynamics and the microphenomena. This leads the way to the a priori prediction of critical heat flux and factors that may influence it.

机译：最近，人们对一种严重的事故管理计划（称为“容器内滞留”）产生了浓厚的兴趣，这就要求建立大型的倒置几何形状的可冷却性极限。在本文中，从微观层面检查了在UCSB的ULPU设施中进行的全面模拟。由于特殊的几何形状，可以直接可视化沸腾过渡现象，并借助微热电偶来定量确定变干的机理。总的来说，确定了一种新的沸腾过渡状态，在整个系统动力学和微观现象之间存在显着耦合。这导致对临界热通量和可能影响其的因素进行先验预测。

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《Nuclear Engineering and Design》 |2000年第2期|p.83-94|共12页
作者
S. Angelini; J.P. Tu; Yu.A. Buyevich;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类原子能技术;
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The mechanism and prediction of critical heat flux in inverted geometries

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