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The application study of preventive maintenance during normal operation for APR1400 nuclear power plants considering risk

Preventive Maintenance(PM) for safety component during power operation at nuclear power plants, On-Line Maintenance(OLM) refers to intentionally entering the Limited Condition of Operation(LCO) specified in the Technical Specification(TS) for safety-related systems and components in order to perform...

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Published in:	Nuclear engineering and technology 2024, 56(10), , pp.4327-4334
Main Authors:	Kim, Jung-Wun, Lee, YoungJu, Shin, Weon Gyu
Format:	Article
Language:	English
Subjects:	Allowable outage time (AOT) Maintenance rule(MR) On line maintenance(OLM) Preventive maintenance(PM) Probabilistic safety assessment(PSA) Work management(WM) 원자력공학
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creator	Kim, Jung-Wun Lee, YoungJu Shin, Weon Gyu
description	Preventive Maintenance(PM) for safety component during power operation at nuclear power plants, On-Line Maintenance(OLM) refers to intentionally entering the Limited Condition of Operation(LCO) specified in the Technical Specification(TS) for safety-related systems and components in order to perform preventive maintenance within the Allowed Outage Time (AOT). This study assessed the feasibility of conducting OLM at the domestic APR1400 nuclear power plant. It focused on preventive maintenance duration and risk perspectives. A total of 78 FEGs were developed for 4450 facilities, considering system functions and preventive maintenance scope during output operation for eight safety-related systems. Additionally, maintenance items included in FEGs were selected, designated as targets for OLM, and their maintenance durations were evaluated and compared with AOT for each maintenance item. As a result, the Auxiliary Feedwater and Essential Chilled Water systems were identified as systems allowing OLM. Furthermore, utilizing the Risk Monitoring System (RIMS), the increased risk value due to the unavailability of target equipment during preventive maintenance was analyzed to determine whether it falls within the acceptable range. Regarding the temporary risk increase caused by OLM, it was observed that in all systems, it falls within Zone III according to NUMARC93-01 standards, allowing for normal equipment arrangement for OLM. However, according to the risk increase standards rate in domestic nuclear power plants, when maintaining the A-train in four systems including Component Cooling Water, they are all evaluated as 'Orange,' indicating that measures for risk mitigation are necessary for OLM to be feasible. When considering extending AOT up to 1.6 times the maintenance time, the risk increase falls within Zone III according to permissible change in risk standards, indicating that AOT extension might be feasible based solely on risk changes. To apply OLM within the permissible risk management scope in domestic nuclear power plants, regulatory policies need to allow voluntary LCO entry for preventive maintenance, necessitating clear determination by regulatory agencies using risk-informed policies. While OLM seems viable concerning maintenance duration and quantitative risk aspects, for inducing regulatory policy changes, comprehensive OLM guidelines are necessary, including risk management strategies.
doi_str_mv	10.1016/j.net.2024.05.038
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This study assessed the feasibility of conducting OLM at the domestic APR1400 nuclear power plant. It focused on preventive maintenance duration and risk perspectives. A total of 78 FEGs were developed for 4450 facilities, considering system functions and preventive maintenance scope during output operation for eight safety-related systems. Additionally, maintenance items included in FEGs were selected, designated as targets for OLM, and their maintenance durations were evaluated and compared with AOT for each maintenance item. As a result, the Auxiliary Feedwater and Essential Chilled Water systems were identified as systems allowing OLM. Furthermore, utilizing the Risk Monitoring System (RIMS), the increased risk value due to the unavailability of target equipment during preventive maintenance was analyzed to determine whether it falls within the acceptable range. Regarding the temporary risk increase caused by OLM, it was observed that in all systems, it falls within Zone III according to NUMARC93-01 standards, allowing for normal equipment arrangement for OLM. However, according to the risk increase standards rate in domestic nuclear power plants, when maintaining the A-train in four systems including Component Cooling Water, they are all evaluated as 'Orange,' indicating that measures for risk mitigation are necessary for OLM to be feasible. When considering extending AOT up to 1.6 times the maintenance time, the risk increase falls within Zone III according to permissible change in risk standards, indicating that AOT extension might be feasible based solely on risk changes. To apply OLM within the permissible risk management scope in domestic nuclear power plants, regulatory policies need to allow voluntary LCO entry for preventive maintenance, necessitating clear determination by regulatory agencies using risk-informed policies. 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This study assessed the feasibility of conducting OLM at the domestic APR1400 nuclear power plant. It focused on preventive maintenance duration and risk perspectives. A total of 78 FEGs were developed for 4450 facilities, considering system functions and preventive maintenance scope during output operation for eight safety-related systems. Additionally, maintenance items included in FEGs were selected, designated as targets for OLM, and their maintenance durations were evaluated and compared with AOT for each maintenance item. As a result, the Auxiliary Feedwater and Essential Chilled Water systems were identified as systems allowing OLM. Furthermore, utilizing the Risk Monitoring System (RIMS), the increased risk value due to the unavailability of target equipment during preventive maintenance was analyzed to determine whether it falls within the acceptable range. Regarding the temporary risk increase caused by OLM, it was observed that in all systems, it falls within Zone III according to NUMARC93-01 standards, allowing for normal equipment arrangement for OLM. However, according to the risk increase standards rate in domestic nuclear power plants, when maintaining the A-train in four systems including Component Cooling Water, they are all evaluated as 'Orange,' indicating that measures for risk mitigation are necessary for OLM to be feasible. When considering extending AOT up to 1.6 times the maintenance time, the risk increase falls within Zone III according to permissible change in risk standards, indicating that AOT extension might be feasible based solely on risk changes. To apply OLM within the permissible risk management scope in domestic nuclear power plants, regulatory policies need to allow voluntary LCO entry for preventive maintenance, necessitating clear determination by regulatory agencies using risk-informed policies. While OLM seems viable concerning maintenance duration and quantitative risk aspects, for inducing regulatory policy changes, comprehensive OLM guidelines are necessary, including risk management strategies.</description><subject>Allowable outage time (AOT)</subject><subject>Maintenance rule(MR)</subject><subject>On line maintenance(OLM)</subject><subject>Preventive maintenance(PM)</subject><subject>Probabilistic safety assessment(PSA)</subject><subject>Work management(WM)</subject><subject>원자력공학</subject><issn>1738-5733</issn><issn>2234-358X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>DOA</sourceid><recordid>eNp9kU2L2zAQhkVpoeluf0BvOhfs6tNy6Cks_QgsdFly6E3I0ihV4khGclLy76uNS4-9zMDwPi8z8yL0gZKWEtp9OrQR5pYRJloiW8L7V2jFGBcNl_3P12hFFe8bqTh_i96VciCkE0KRFbrufgE20zQGa-aQIi7z2V1x8njKcIE4hwvgkwlxhmiiBezOOcQ9jimfzIjTBHnhfMp48_RMBSE4nu0IJuMp_YZaRxPngm2KJTi40TmU4z16481Y4P3ffod2X7_sHr43jz--bR82j43ljM8No0xYyZRjzPYgJB0UIYJ0tuMwDN6vraDcqTqmIF1PlfCKiMF5BdwZ4Hfo42Ibs9dHG3Qy4db3SR-z3jzvtpqSjirKeBVvF7FL5qCnHE4mX2_EbZDyXps8h3qdNlYar2THbV2QDLIX6zXrHHODM5JwWr3o4mVzKiWD_-dHiX7JTB90zUy_ZKaJ1DWzynxeGKgPuQTIutgA9e0uZLBz3SL8h_4DllKgFw</recordid><startdate>202410</startdate><enddate>202410</enddate><creator>Kim, Jung-Wun</creator><creator>Lee, YoungJu</creator><creator>Shin, Weon Gyu</creator><general>Elsevier B.V</general><general>Elsevier</general><general>한국원자력학회</general><scope>6I.</scope><scope>AAFTH</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>DOA</scope><scope>ACYCR</scope></search><sort><creationdate>202410</creationdate><title>The application study of preventive maintenance during normal operation for APR1400 nuclear power plants considering risk</title><author>Kim, Jung-Wun ; Lee, YoungJu ; Shin, Weon Gyu</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c323t-2124c527d22c8e451b700406c63ebbff9c413d71b71e5d8174f704bdf7e3dae3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Allowable outage time (AOT)</topic><topic>Maintenance rule(MR)</topic><topic>On line maintenance(OLM)</topic><topic>Preventive maintenance(PM)</topic><topic>Probabilistic safety assessment(PSA)</topic><topic>Work management(WM)</topic><topic>원자력공학</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Kim, Jung-Wun</creatorcontrib><creatorcontrib>Lee, YoungJu</creatorcontrib><creatorcontrib>Shin, Weon Gyu</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>CrossRef</collection><collection>DOAJ Directory of Open Access Journals</collection><collection>Korean Citation Index</collection><jtitle>Nuclear engineering and technology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Kim, Jung-Wun</au><au>Lee, YoungJu</au><au>Shin, Weon Gyu</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The application study of preventive maintenance during normal operation for APR1400 nuclear power plants considering risk</atitle><jtitle>Nuclear engineering and technology</jtitle><date>2024-10</date><risdate>2024</risdate><volume>56</volume><issue>10</issue><spage>4327</spage><epage>4334</epage><pages>4327-4334</pages><issn>1738-5733</issn><eissn>2234-358X</eissn><abstract>Preventive Maintenance(PM) for safety component during power operation at nuclear power plants, On-Line Maintenance(OLM) refers to intentionally entering the Limited Condition of Operation(LCO) specified in the Technical Specification(TS) for safety-related systems and components in order to perform preventive maintenance within the Allowed Outage Time (AOT). This study assessed the feasibility of conducting OLM at the domestic APR1400 nuclear power plant. It focused on preventive maintenance duration and risk perspectives. A total of 78 FEGs were developed for 4450 facilities, considering system functions and preventive maintenance scope during output operation for eight safety-related systems. Additionally, maintenance items included in FEGs were selected, designated as targets for OLM, and their maintenance durations were evaluated and compared with AOT for each maintenance item. As a result, the Auxiliary Feedwater and Essential Chilled Water systems were identified as systems allowing OLM. Furthermore, utilizing the Risk Monitoring System (RIMS), the increased risk value due to the unavailability of target equipment during preventive maintenance was analyzed to determine whether it falls within the acceptable range. Regarding the temporary risk increase caused by OLM, it was observed that in all systems, it falls within Zone III according to NUMARC93-01 standards, allowing for normal equipment arrangement for OLM. However, according to the risk increase standards rate in domestic nuclear power plants, when maintaining the A-train in four systems including Component Cooling Water, they are all evaluated as 'Orange,' indicating that measures for risk mitigation are necessary for OLM to be feasible. When considering extending AOT up to 1.6 times the maintenance time, the risk increase falls within Zone III according to permissible change in risk standards, indicating that AOT extension might be feasible based solely on risk changes. To apply OLM within the permissible risk management scope in domestic nuclear power plants, regulatory policies need to allow voluntary LCO entry for preventive maintenance, necessitating clear determination by regulatory agencies using risk-informed policies. While OLM seems viable concerning maintenance duration and quantitative risk aspects, for inducing regulatory policy changes, comprehensive OLM guidelines are necessary, including risk management strategies.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.net.2024.05.038</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Allowable outage time (AOT) Maintenance rule(MR) On line maintenance(OLM) Preventive maintenance(PM) Probabilistic safety assessment(PSA) Work management(WM) 원자력공학
title	The application study of preventive maintenance during normal operation for APR1400 nuclear power plants considering risk
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