Post-LOCA control room dose analysis for Maanshan NPP using the AST methodology

IF 0.4 4区 工程技术 Q4 NUCLEAR SCIENCE & TECHNOLOGY Kerntechnik Pub Date : 2023-03-24 DOI:10.1515/kern-2022-0089
Cheng-Der Wang
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Abstract

Abstract To address the issue identified in USNRC’s Generic Letter (GL) 2003-01 that the unfiltered air in-leakage rate through plant’s control room envelope during design basis accident may exceed that assumed in the licensing analysis and thus threat the control room habitability, the control room envelope unfiltered in-leakage Tracer Gas Test (TGT) for Maanshan nuclear power plant (NPP) has been performed in 2020. For future applications, an improved control room dose analysis approach using Alternative Source Terms (AST) has been developed in present study to check whether the TGT results meet regulatory limits and have sufficient safety margins. The AST method follows Regulatory Guide 1.183 (RG 1.183) and the TGT results must be fulfilled the total effective dose criteria set forth in 10 CFR 50.67. Based on the AST approach and the TGT results, the control room personnel dose for Maanshan NPP during Loss of Coolant Accident (LOCA) is 14.35 mSv, and the safety margin is 71.3%. It is sufficient to cover the effects of structural ageing and changes in meteorological data during the control room habitability reassessment and the analysis uncertainty.
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马鞍山核电站loca后控制室剂量分析应用AST方法
摘要为解决USNRC通用函(GL) 2003-01中提出的设计基础事故中通过控制室围护结构的未过滤空气泄漏率可能超过许可分析中假设的泄漏率,从而威胁控制室可居住性的问题,于2020年对马鞍山核电站控制室围护结构进行了未过滤泄漏示色气体试验(TGT)。为了将来的应用,本研究开发了一种改进的控制室剂量分析方法,使用替代源项(AST)来检查TGT结果是否符合法规限制并具有足够的安全裕度。AST方法遵循法规指南1.183 (RG 1.183), TGT结果必须满足10 CFR 50.67中规定的总有效剂量标准。基于AST方法和TGT结果,马鞍山核电站失冷剂事故控制室人员剂量为14.35 mSv,安全裕度为71.3%。在控制室可居住性再评估和分析不确定性中,足以涵盖结构老化和气象数据变化的影响。
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来源期刊
Kerntechnik
Kerntechnik 工程技术-核科学技术
CiteScore
0.90
自引率
20.00%
发文量
72
审稿时长
6-12 weeks
期刊介绍: Kerntechnik is an independent journal for nuclear engineering (including design, operation, safety and economics of nuclear power stations, research reactors and simulators), energy systems, radiation (ionizing radiation in industry, medicine and research) and radiological protection (biological effects of ionizing radiation, the system of protection for occupational, medical and public exposures, the assessment of doses, operational protection and safety programs, management of radioactive wastes, decommissioning and regulatory requirements).
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