基于间隔网格和OpenFOAM验证的核燃料组件流动数值研究

IF 0.4 4区工程技术 Q4 NUCLEAR SCIENCE & TECHNOLOGY

Kerntechnik Pub Date : 2023-03-24 DOI:10.1515/kern-2022-0109

Hemish Mistry

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引用次数: 0

摘要

摘要带有混合叶片的间隔栅具有复杂的几何形状，用于支撑核燃料组件中的燃料棒，并通过在压水堆堆芯间隔栅下游产生湍流来改善传热。为了验证CFD代码OpenFOAM对相关间隔网格几何形状的适用性，在OECD/NEA MATiS-H基准上进行了数值分析。分析了两种不同类型的间隔栅设计后的流动:分裂型和旋涡型。最初，生成了一个合适的入口速度分布图。下一步，建立间隔网格的计算机辅助设计模型，并使用ANSYS Mesher 19.2进行网格划分。采用k-ω-SST湍流模式进行了瞬态URANS模拟，并与实测数据进行了比较。旋流型构型的平均速度廓线和涡量的计算结果吻合较好，而劈裂型构型的一些测量位置的横向速度廓线的数值计算结果略高。本文的内容最初是在3月22日至23日在德国Garching GRS举行的第33届德国CFD网络能力会议上提出的。

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Numerical investigations of flow in nuclear fuel assembly with spacer grid and OpenFOAM validation

Abstract Spacer grids with mixing vanes have complex geometry and are used to support the fuel rods in nuclear fuel assemblies as well as to improve heat transfer by generating turbulence downstream of the spacer grid in the cores of the pressurized water reactors. To validate the CFD code OpenFOAM for relevant spacer grid geometries, numerical analyses on the OECD/NEA MATiS-H benchmark were performed. The flow behind two different types of spacer grid designs was analysed: split- and swirl-type. Initially, an appropriate inlet velocity profile was generated. In a next step, Computer-Aided Design models of the spacer grids were prepared and then meshed using ANSYS Mesher 19.2. Transient URANS simulations were performed with the k-ω-SST turbulence model and the results were compared with data. Good agreement was obtained for the mean velocity profile and the vorticity in the swirl-type configuration, while the numerical results slightly overestimated the transverse velocity profile at some measurements locations of the split-type configuration. The content of this article was initially presented at the 33rd German CFD Network of Competence Meeting, held on March 22–23 at GRS in Garching, Germany.

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来源期刊

Kerntechnik 工程技术-核科学技术

CiteScore

0.90

自引率

20.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Kerntechnik is an independent journal for nuclear engineering (including design, operation, safety and economics of nuclear power stations, research reactors and simulators), energy systems, radiation (ionizing radiation in industry, medicine and research) and radiological protection (biological effects of ionizing radiation, the system of protection for occupational, medical and public exposures, the assessment of doses, operational protection and safety programs, management of radioactive wastes, decommissioning and regulatory requirements).