FUELPOOL: A Computer Program to Model CANDU Spent Fuel Pool Severe Accident Progression and Consequences

核工程研究与设计 Pub Date : 2020-08-04 DOI:10.1115/icone2020-16634

Y. Song, Jong-Yeob Jung, S. Nijhawan

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Abstract

CANDU PHWR spent fuel pools (SFPs), smaller than a tennis court, contain up to 38,000 or more (49,000 in Wolsong)fuel bundles in geometries not replicated in any other power reactor. Therefore, the phenomenological issues, accident progression pathways and effectiveness of mitigative actions are somewhat different. This requires a dedicated approach in progression and consequence assessments of potential accidents and development of mitigation measures. The SFPs house densely packed fuel bundles stacked in about a hundred vertical stainless steel tray towers, each containing 24 spent fuel bundles in each of the 16 or more (19 in Wolsong) horizontal fish basket style steel trays. Some of theupto 10 year worth of the on-line refuelled bundles in the SFP are at relatively high decay powers as fuel trays are prepped for the towers in near daily basis. In addition, there is a provision (see Figure 1) that a full core of bundles 20 days after being at full power can be transferred to the spent fuel bay at any time. About 4.5m of additional water layer on top of the tray towers provide radiation protection and a healthy margin to small rate of fluid loss.

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一个模拟CANDU乏燃料池严重事故进展和后果的计算机程序

CANDU PHWR的乏燃料池(SFPs)比网球场还小，可容纳多达38,000个或更多(月城有49,000个)燃料束，其几何形状在任何其他动力反应堆中都无法复制。因此，现象学问题、事故进展途径和缓解措施的有效性有些不同。这需要在潜在事故的进展和后果评估以及制定缓解措施方面采取专门的方法。SFPs将密集的燃料束堆放在大约100个垂直不锈钢托盘塔中，每个塔中有16个或更多(月松有19个)水平鱼篮式钢托盘，每个托盘中有24个乏燃料束。SFP中一些长达10年的在线加注束具有相对较高的衰变功率，因为几乎每天都为塔准备燃料托盘。此外，还有一项规定(见图1)，在满负荷运行20天后，可以随时将堆芯全部转移到乏燃料舱。托盘塔顶部约4.5m的额外水层提供辐射防护，并以较小的流体损失率提供健康的余量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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核工程研究与设计

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