用于高温气冷反应堆氚生产的中子辐照 LiAlO2(含 Zr)氚释放行为的实验研究

IF 1.9 3区 工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Hiroki Isogawa , Kazunari Katayama , Seiyo Kobayashi , Hideaki Matsuura , Yuto Iinuma
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引用次数: 0

摘要

利用高温气冷反应堆中子与锂的核反应产生氚,作为聚变反应堆运行初期燃料氚的外部来源,已被研究过。为了控制氚在整个反应堆中的迁移,了解用作产氚材料的含 Zr LiAlO2 的氚释放行为非常重要。在本研究中,通过加热至 900 °C,研究了中子辐照下含 Zr 和不含 Zr 的 LiAlO2 的氚释放行为。在只加热 LiAlO2 的情况下,大部分氚以 HTO 的化学形式释放出来。另一方面,在加热含 Zr 的 LiAlO2 时,氚的化学形态主要是 HT。这一结果表明,即使氚以 HTO 的形式从 LiAlO2 中释放出来,在 900 °C 时也会被 Zr 有效吸收。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental investigation of tritium release behavior from neutron irradiated LiAlO2 with Zr for tritium production in a high-temperature gas-cooled reactor

Tritium production using nuclear reactions of neutrons with lithium in a high temperature gas-cooled reactors has been studied as an external source of fuel tritium in the early stage of fusion reactor operation. In order to control tritium migration throughout the reactor, it is important to understand tritium release behaviors from Zr-containing LiAlO2, which are used as tritium producing materials. In this study, tritium release behavior from neutron irradiated LiAlO2 with and without Zr ware investigated by heating to 900 °C. In the case of heating only LiAlO2, most tritium was released in the chemical form of HTO. On the other hand, in the case of heating Zr-containing LiAlO2, the chemical form of tritium was mostly HT. This result indicates that even if tritium is released from LiAlO2 as HTO, it is effectively absorbed by Zr at 900 °C.

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来源期刊
Fusion Engineering and Design
Fusion Engineering and Design 工程技术-核科学技术
CiteScore
3.50
自引率
23.50%
发文量
275
审稿时长
3.8 months
期刊介绍: The journal accepts papers about experiments (both plasma and technology), theory, models, methods, and designs in areas relating to technology, engineering, and applied science aspects of magnetic and inertial fusion energy. Specific areas of interest include: MFE and IFE design studies for experiments and reactors; fusion nuclear technologies and materials, including blankets and shields; analysis of reactor plasmas; plasma heating, fuelling, and vacuum systems; drivers, targets, and special technologies for IFE, controls and diagnostics; fuel cycle analysis and tritium reprocessing and handling; operations and remote maintenance of reactors; safety, decommissioning, and waste management; economic and environmental analysis of components and systems.
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