Use of Multi-Attribute Utility Theory to Quantify the Desirability of Boiling Water Reactor Hydraulic Control Unit Maintenance Options

Abstract

The role of maintenance in a nuclear power plant is to ensure that plant equipment is kept at a proper level of functionality, thus increasing the level of overall plant safety. In a deregulated electricity market, nuclear power plants must remain competitive with conventional utilities in the production of electricity. Consequently, nuclear utilities must find ways to improve their operations and reduce costs without sacrificing the level of overall plant safety and relationships with its stakeholders. One area of operations in which nuclear utilities can gain a competitive edge is in the maintenance of its power plants. By reducing the frequency of preventive maintenance and shifting the performance of selected maintenance items on-line, the utilities are able to reduce costs without significant impact to plant safety and relations to stakeholders. This study focuses on the maintenance of hydraulic control units (HCUs) in Tokyo Electric Power Company's (TEPCO) boiling water reactors (BWRs). Using Multi-Attribute Utility Theory (MAUT), TEPCO decision makers can obtain a rank- ordering of multiple decision options based on their current preferences toward safety, cost, and stakeholder relations. In the case of HCU maintenance, the decision options considered are performance of HCU maintenance in the following conditions: 1) on-line with outage duration unchanged, 2) off-line with outage duration unchanged, 3) on-line with outage duration shortened, and 4) off-line with outage duration shortened. Because these options could have varying effects on safety, cost, and stakeholder relations, the use of MAUT facilitates decision making by providing a methodology that considers the effect of multiple factors simultaneously.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 2002

Accession Number

ADA410662

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