02872nam 22005293 450 991100684830332120250523181837.09781523150014152315001797892014102149201410212(MiAaPQ)EBC6891124(Au-PeEL)EBL6891124(CKB)21325846600041(NjHacI)9921325846600041(OCoLC)1303087336(EXLCZ)992132584660004120250523d2021 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierTechnical insights from benchmarking different methods for predicting pipe failure rates in water cooled reactors final report of a coordinated research project /International Atomic Energy Agency1st ed.Vienna :International Atomic Energy Agency,2021. 1 online resource (128 pages)IAEA TECDOC series ;v.1988Print version: IAEA Technical Insights from Benchmarking Different Methods for Predicting Pipe Failure Rates in Water Cooled Reactors Vienna : IAEA,c2021 9789201411211 Includes bibliographical references.This publication presents the outcome of an IAEA coordinated research project (CRP) on methodologies for assessing pipe failure rates in advanced water cooled reactors. The goal of the CRP was to provide Member States with a strong technical basis for establishing nuclear power plant piping reliability parameters. To meet this goal two parallel and interrelated activities were carried out. In a first CRP activity, the participating institutions performed a series of benchmark studies. These studies, as described in this publication, were formulated for the purpose of evaluating different methodologies when applied to a common problem. The results were compared, and the reasons for differences were identified. This publication provides a description of the benchmark studies, the participants' individual methodologies applied, and simulations and analyses carried out, an independent synthesis of the results, and the main insights and conclusions from the exercise.IAEA-TECDOC ;v. 1988.Benchmarking (Management)Water cooled reactorsPipeline failuresBenchmarking (Management)Water cooled reactors.Pipeline failures.658.562International Atomic Energy Agency,MiAaPQMiAaPQMiAaPQBOOK9911006848303321Technical insights from benchmarking different methods for predicting pipe failure rates in water cooled reactors4413341UNINA