Design Study of Beam Window for Accelerator-Driven System With Subcriticality Adjustment Rod

Volume 5: Advanced Reactors and Fusion Technologies; Codes, Standards, Licensing, and Regulatory Issues Pub Date : 2018-07-22 DOI:10.1115/ICONE26-81233

T. Sugawara, Y. Eguchi, K. Tsujimoto, H. Obayashi, H. Iwamoto, H. Matsuda

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Abstract

Engineering feasibility of the beam window is one of the design issues in the accelerator-driven system (ADS). This study aims to perform the coupled analysis for the feasible beam window concept. To mitigate the design condition, namely to reduce the required proton beam current, subcriticality adjustment rod (SAR) was installed to the ADS core. The burnup analysis was performed for the ADS core with SAR and the results indicated that the maximum proton beam current during the burnup cycle was reduced from 20 to 13.5 mA. Based on the burnup analysis result, the coupled analysis; particle transport, thermal hydraulics and structural analyses, was performed. As the final result, the following design; the hemisphere shape, the outer radius = 180 mm, the thickness at the top of the beam window = 1.5 mm, and the factor of safety for the buckling = 3.8, was presented. The buckling pressure was almost same as the previous one and more feasible beam window concept was presented through this study.

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带亚临界调节杆的加速器驱动系统光束窗设计研究

光束窗的工程可行性是加速器驱动系统(ADS)的设计问题之一。本研究旨在对可行梁窗概念进行耦合分析。为了减轻设计条件，即减少所需的质子束电流，在ADS核心安装了亚临界调节棒(SAR)。利用SAR对ADS核心进行了燃耗分析，结果表明，在燃耗周期内，最大质子束电流从20 mA降低到13.5 mA。在燃耗分析结果的基础上，进行了耦合分析;进行了颗粒输运、热工力学和结构分析。作为最终的结果，设计如下;给出了外半径为180 mm、梁窗顶部厚度为1.5 mm、屈曲安全系数为3.8的半球形结构。屈曲压力与之前的计算结果基本一致，提出了更可行的梁窗概念。

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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Volume 5: Advanced Reactors and Fusion Technologies; Codes, Standards, Licensing, and Regulatory Issues

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