Computational analysis of a neutron trap in the center of the WWR-K reactor core for irradiation tests of large-sized objects

Q4 Physics and Astronomy

Eurasian Journal of Physics and Functional Materials Pub Date : 2022-03-24 DOI:10.32523/ejpfm.2022060104

A. Shaimerdenov, D. Sairanbayev, S. Gizatulin, N. Romanova, M. Aitkulov, M. Tulegenov, Zh. T. Bugubay, S. Baitelesov

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引用次数: 1

Abstract

Nowadays, the WWR-K research reactor is operated with low-enriched uranium fuel and a beryllium neutron reflector. Irradiation positions located in the core make it possible to irradiate objects no larger than 50 mm in size. In the reactor tank, behind the beryllium reflector, there are irradiation positions with a diameter of 200 mm, but in them, in comparison with irradiation positions in the core, the neutron intensity is lower. This motivated us to carry out computational studies on the generation of a large diameter neutron trap in the center of the WWR-K reactor core. The paper presents the results of neutron-physical calculations on the generation of a neutron trap in the center of the WWR-K reactor core. The generation of a large diameter neutron trap in the core of the WWR-K reactor will make it possible to carry out radiation tests of large objects. For this, it is necessary to change the layout of the core. The influence of the transformation of the core on the experimental characteristics of the WWR-K reactor is shown.

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用于大型物体辐照试验的WWR-K堆芯中心中子阱的计算分析

如今，WWR-K研究反应堆使用低浓缩铀燃料和铍中子反射器。位于堆芯中的照射位置使得可以照射尺寸不大于50mm的物体。在反应堆槽中，铍反射器后面有直径为200mm的辐照位置，但与堆芯中的辐照位置相比，在这些辐照位置中，中子强度较低。这促使我们对在WWR-K反应堆堆芯中心产生大直径中子阱进行计算研究。本文介绍了WWR-K堆芯中心产生中子阱的中子物理计算结果。WWR-K反应堆堆芯中大直径中子阱的产生将使对大型物体进行辐射测试成为可能。为此，有必要改变核心的布局。显示了堆芯的转变对WWR-K反应堆实验特性的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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