As a part of the H2020 EU Project called “TeaM Cables” - which has, among its aims, modelling reliability of nuclear power plant cables - the goal of this paper is to develop a model for the prediction of residual reliability of low voltage cables for nuclear power plants subjected to gamma radiation stress. The model estimates the probability that such cables withstand random stress overshoots in-service, which can occur, e.g., in case of nuclear accidents.
Davide Fabiani, Giovanni Mazzanti, Simone Vincenzo Suraci, Bassel Diban (2021). Innovative Development and Application of a Stress-Strength Model for Reliability Estimation of Aged LV Cables for Nuclear Power Plants. IEEE TRANSACTIONS ON DIELECTRICS AND ELECTRICAL INSULATION, 28(6), 2083-2090 [10.1109/TDEI.2021.009581].
Innovative Development and Application of a Stress-Strength Model for Reliability Estimation of Aged LV Cables for Nuclear Power Plants
Davide Fabiani
;Giovanni Mazzanti;Simone Vincenzo Suraci;Bassel Diban
2021
Abstract
As a part of the H2020 EU Project called “TeaM Cables” - which has, among its aims, modelling reliability of nuclear power plant cables - the goal of this paper is to develop a model for the prediction of residual reliability of low voltage cables for nuclear power plants subjected to gamma radiation stress. The model estimates the probability that such cables withstand random stress overshoots in-service, which can occur, e.g., in case of nuclear accidents.| File | Dimensione | Formato | |
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Innovative_development_and_application_pp.pdf
Open Access dal 15/05/2022
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