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COMPUTATIONAL STUDY ON THE PARTICLE SEDIMENTATION PERFORMANCE OF A REACTOR BUILDING FLOOR WEIR BY MEANS OF TWO-DIMENSIONAL LATTICE BOLTZMANN METHOD

机译：二维格子螺栓法方法反应堆建筑地板堰颗粒沉降性能的计算研究

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A reactor building floor weir (RBFW) is proposed as a simple as well as an efficient option to sediment participate debris generated after loss of coolant accident of a nuclear power plant and its performance is computationally studied by means of two-dimensional Lattice Boltzmann Method (LBM) with momentum exchange boundary conditions. After benchmarking against a standard problem of a flow past a cylinder at relatively low Reynolds numbers, the RBFW is simulated for diverse parametric conditions such as height, inclination angle, number of weirs (one or two) and the distance between two weirs. The weir performance is measured by the area of quiescent and/or downward reverse flow region where particles have more chance to sediment. It is found a wake causing reverse downward flow behind the weir mainly contributes to generating the quiescent flow region. And the most effective option in terms of particle sedimentation performance is found to be relatively tall double weirs separated by two weir heights.

机译：建议反应堆建筑地板堰（RBFW）作为一种简单的和有效的沉积物选择在核电站冷却剂事故失去后产生的泥泥，其性能通过二维格子Boltzmann方法计算（ LBM）具有势头交换边界条件。在以相对低的雷诺数的流过汽缸的标准问题上基准测试之后，将RBFW模拟用于不同的参数条件，例如高度，倾斜角度，堰（一两个）和两个堰之间的距离。堰的性能由静态和/或向下反向流动区域的区域测量，其中粒子有更多机会沉积物。发现一个唤醒导致堰后面的反向向下流动主要有助于产生静止流动区域。在粒子沉降性能方面，最有效的选择是由两个堰高度分开的相对高的双堰。

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《International conference on nuclear engineering》|2012年||共8页
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Jong Woon Park; Won Seok Kim; Keun Sung Lee; Jinsu Kim;
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中图分类核反应堆工程;
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COMPUTATIONAL STUDY ON THE PARTICLE SEDIMENTATION PERFORMANCE OF A REACTOR BUILDING FLOOR WEIR BY MEANS OF TWO-DIMENSIONAL LATTICE BOLTZMANN METHOD

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