SMR中容错燃料的敏感性和不确定性初步分析

IF 0.4 Q4 NUCLEAR SCIENCE & TECHNOLOGY

Journal of Nuclear Fuel Cycle and Waste Technology Pub Date : 2022-08-08 DOI:10.1115/icone29-92887

Yuxuan Liang, Xiang Wang

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引用次数: 1

摘要

随着小型模块化反应堆技术的日趋成熟，其安全性越来越受到人们的重视。近年来在大型商用压水堆中使用的事故容忍燃料(ATF) U3Si2由于其高导热性和良好的物理化学性质，可以显著提高堆芯的安全性。因此，在SMR中应用ATF也可以提高SMR的安全性。B&W公司设计的热电输出功率为530兆瓦的mPower被选为SMR之一。在燃料棒的设计生产过程中，燃料球团直径、包壳内径、燃料球团密度等设计制造参数存在不确定因素。这些因素都会影响有效乘法系数(keff)的计算结果。在这项工作中，我们使用sepret和DAKOTA对mPower中具有事故耐受包层(FeCrAl, SiC)的U3Si2进行了初步的灵敏度和不确定度分析。敏感性分析分析了不同ATF组合下各输入参数的相对重要性。不确定度分析给出了不同ATF组合的容差范围和不确定度。

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Preliminary Sensitivity and Uncertainty Analysis of Accident Tolerant Fuel in SMR

As the technology of small modular reactor (SMR) becomes mature, its safety is getting more attention. In recent research of accident tolerant fuel (ATF) such as the U3Si2 used in a large commercial pressurized water reactor can significantly improve the safety of the core due to its high thermal conductivity and good physicochemical properties. Therefore, applying the ATF in the SMR can also enhance its safety. The mPower with a thermal power output of 530 MW designed by B&W company is selected as one of the SMR. In the design and production process of fuel rods, the design and manufacturing parameters such as fuel pellet diameter, inner diameter of cladding, fuel pellet density and other parameters have uncertain factors. These factors affect the results of effective multiplication factor (keff). In this work, we carried out preliminary sensitivity and uncertainty analysis of the U3Si2 with accident tolerant cladding (FeCrAl, SiC) in mPower using SEPRENT and DAKOTA. Sensitivity analysis performed the relative importance of each input parameters for different ATF combination. Uncertainty analysis gave the tolerance range and uncertainty for different ATF combination.

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来源期刊

Journal of Nuclear Fuel Cycle and Waste Technology Energy-Fuel Technology

CiteScore

0.80

自引率

25.00%

发文量