重水慢化熔盐反应堆的初步安全分析

IF 3.6 1区 物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Gao-Ang Wen, Jian-Hui Wu, Chun-Yan Zou, Xiang-Zhou Cai, Jin-Gen Chen, Man Bao
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引用次数: 0

摘要

重水慢化熔盐反应堆(HWMSR)是一种新提出的反应堆概念,它采用重水作为慢化剂,用溶解了易裂变元素和可裂变元素的熔盐作为燃料。传统熔盐反应堆中石墨产生的问题,包括正温度系数和高放射性乏石墨废料的管理,都可以利用 HWMSR 来解决。迄今为止,对重水堆的研究主要集中在堆芯设计和核燃料循环方面,以探索重水堆的可行性及其在燃料利用方面的优势。然而,对重水堆堆芯安全性的研究还不够广泛。因此,我们基于中子学和热工-水力学耦合代码,评估了小型模块化重水堆的典型事故,包括燃料盐入口温度过冷和过热事故、燃料盐入口流速下降事故、重水入口温度过冷事故和重水入口质量流速下降事故。结果表明,堆芯在所调查的事故中保持了安全。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Preliminary safety analysis for a heavy water-moderated molten salt reactor

Preliminary safety analysis for a heavy water-moderated molten salt reactor

The heavy water-moderated molten salt reactor (HWMSR) is a newly proposed reactor concept, in which heavy water is adopted as the moderator and molten salt dissolved with fissile and fertile elements is used as the fuel. Issues arising from graphite in traditional molten salt reactors, including the positive temperature coefficient and management of highly radioactive spent graphite waste, can be addressed using the HWMSR. Until now, research on the HWMSR has been centered on the core design and nuclear fuel cycle to explore the viability of the HWMSR and its advantages in fuel utilization. However, the core safety of the HWMSR has not been extensively studied. Therefore, we evaluate typical accidents in a small modular HWMSR, including fuel salt inlet temperature overcooling and overheating accidents, fuel salt inlet flow rate decrease, heavy water inlet temperature overcooling accidents, and heavy water inlet mass flow rate decrease accidents, based on a neutronics and thermal–hydraulics coupled code. The results demonstrated that the core maintained safety during the investigated accidents.

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来源期刊
Nuclear Science and Techniques
Nuclear Science and Techniques 物理-核科学技术
CiteScore
5.10
自引率
39.30%
发文量
141
审稿时长
5 months
期刊介绍: Nuclear Science and Techniques (NST) reports scientific findings, technical advances and important results in the fields of nuclear science and techniques. The aim of this periodical is to stimulate cross-fertilization of knowledge among scientists and engineers working in the fields of nuclear research. Scope covers the following subjects: • Synchrotron radiation applications, beamline technology; • Accelerator, ray technology and applications; • Nuclear chemistry, radiochemistry, radiopharmaceuticals, nuclear medicine; • Nuclear electronics and instrumentation; • Nuclear physics and interdisciplinary research; • Nuclear energy science and engineering.
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