Assessment of shutdown dose rates at the ESS target cooling system using SCALE6.2

IF 1 Q3 NUCLEAR SCIENCE & TECHNOLOGY

Journal of Neutron Research Pub Date : 2020-01-01 DOI:10.3233/jnr-190136

A. Chambon, E. Klinkby, Leif Emås, B. Lauritzen

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Abstract

The production of high-energy neutrons at the European Spallation Source through the spallation process may cause an erosion of the tungsten target. The eroded particles could be released into the target helium cooling system which contains four kind of filters. Among them, the auxiliary filters called “getters” are designed to capture volatile elements and remaining dust. In this work, the ORNL’s SCALE6.2 modelling and simulation suite for nuclear safety analysis is applied to assess shutdown dose rates and determine if added shielding and/or robotic arms are needed for their maintenance. SCALE6.2 is well adapted to treat this problem as it allows for isotope selection regarding source term calculation. Dose rates are determined by an ORIGEN2 source term and a MAVRIC shielding sequence calculation. As SCALE6.2 is non-standard software for ESS, the results are verified against MCNP, which is the baseline tool for neutronics analysis at ESS. Dose rate calculations show that additional shielding and/or robot arm are not needed to remove the getters after 3 months of cooling time, following 5400 h of operation at 5 MW beam power. At a distance of 1 mm from the getter, the dose rate is 0.2 mSv/h in the most conservative estimation.

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使用SCALE6.2评估ESS目标冷却系统的关闭剂量率

欧洲散裂源通过散裂过程产生的高能中子可能导致钨靶的侵蚀。被侵蚀的颗粒可以被释放到目标氦冷却系统中，该系统包含四种过滤器。其中，被称为“捕集器”的辅助过滤器用于捕获挥发性元素和剩余粉尘。在这项工作中，ORNL的SCALE6.2核安全分析建模和仿真套件被用于评估关闭剂量率，并确定是否需要增加屏蔽和/或机械臂来维护它们。SCALE6.2很好地适应了处理这个问题，因为它允许在源项计算方面进行同位素选择。剂量率由ORIGEN2源项和MAVRIC屏蔽序列计算确定。由于SCALE6.2是ESS的非标准软件，结果与MCNP进行了验证，MCNP是ESS中子分析的基准工具。剂量率计算表明，在5兆瓦束流功率下运行5400小时，经过3个月的冷却时间后，不需要额外的屏蔽和/或机械臂来移除吸收器。在距吸气器1mm处，最保守的估计剂量率为0.2 mSv/h。

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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来源期刊

Journal of Neutron Research NUCLEAR SCIENCE & TECHNOLOGY-

CiteScore

2.30

自引率

9.10%

发文量