Steady-state thermal–hydraulic analysis of an NTP reactor core based on the porous medium approach

IF 1.9 3区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY Annals of Nuclear Energy Pub Date : 2024-09-26 DOI:10.1016/j.anucene.2024.110942

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Abstract

Nuclear thermal propulsion (NTP) is a promising advanced technology which has attracted wide attention in recent years. The reactor core is an essential component of an NTP system and the corresponding thermal–hydraulic analysis is necessary. In this study, the porous medium approach was applied to the simulation of a two-pass NTP reactor core which consists of the porous prismatic cermet fuel elements. The thermodynamic property models of hydrogen and the fuel element materials were implemented, as well as the empirical correlations of the heat transfer coefficient and the friction factor. The three-dimensional simulation of a single fuel element was carried out and the results were compared against another code. The code-to-code comparison verified the applicability of the porous medium approach. The three-dimensional model of the two-pass NTP reactor core was established and the steady-state simulation was carried out. The distribution patterns of the parameters are determined by the thermal–hydraulic characteristics of the reactor core, including the nonuniform heat release, contact heat conduction and folded-flow scheme. The full-core heat-flow adaptability analysis is realized, which provides a reference for the thermal–hydraulic safety analysis of the NTP reactor.

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基于多孔介质方法的 NTP 反应堆堆芯稳态热流体力学分析

核热推进（NTP）是一项前景广阔的先进技术，近年来受到广泛关注。反应堆堆芯是 NTP 系统的重要组成部分，因此有必要进行相应的热-水力分析。本研究采用多孔介质方法模拟了由多孔棱柱形金属陶瓷燃料元件组成的双通道 NTP 堆芯。模拟中采用了氢和燃料元件材料的热力学性质模型，以及传热系数和摩擦因数的经验相关性。对单个燃料元件进行了三维模拟，并将结果与另一种代码进行了比较。代码间的比较验证了多孔介质方法的适用性。建立了双通道 NTP 反应堆堆芯的三维模型，并进行了稳态模拟。反应堆堆芯的热液特性决定了参数的分布模式，包括非均匀放热、接触导热和折流方案。实现了全堆芯热流适应性分析，为核反应堆的热工水力安全分析提供了参考。

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来源期刊

Annals of Nuclear Energy 工程技术-核科学技术

CiteScore

4.30

自引率

21.10%

发文量

632

审稿时长

7.3 months

期刊介绍： Annals of Nuclear Energy provides an international medium for the communication of original research, ideas and developments in all areas of the field of nuclear energy science and technology. Its scope embraces nuclear fuel reserves, fuel cycles and cost, materials, processing, system and component technology (fission only), design and optimization, direct conversion of nuclear energy sources, environmental control, reactor physics, heat transfer and fluid dynamics, structural analysis, fuel management, future developments, nuclear fuel and safety, nuclear aerosol, neutron physics, computer technology (both software and hardware), risk assessment, radioactive waste disposal and reactor thermal hydraulics. Papers submitted to Annals need to demonstrate a clear link to nuclear power generation/nuclear engineering. Papers which deal with pure nuclear physics, pure health physics, imaging, or attenuation and shielding properties of concretes and various geological materials are not within the scope of the journal. Also, papers that deal with policy or economics are not within the scope of the journal.