International audienceThe quantitative reliability assessment of a thermal-hydraulic (T-H) passive safety system of a nuclear power plant can be obtained by (i) Monte Carlo (MC) sampling the uncertainties of the system model and parameters, (ii) computing, for each sample, the system response by a mechanistic T-H code and (iii) comparing the system response with pre-established safety thresholds, which define the success or failure of the safety function. The computational effort involved can be prohibitive because of the large number of (typically long) T-H code simulations that must be performed (one for each sample) for the statistical estimation of the probability of success or failure. In this work, Line Sampling (LS) is adopted for ef...
International audienceIn this paper, Artificial Neural Network (ANN) and quadratic Response Surface ...
Passive Safety Systems (PSSs) are increasingly employed in advanced Nuclear Power Plants (NPPs). The...
An approach for efficient estimation of passive safety system functional reliability has been develo...
International audienceThe quantitative reliability assessment of a thermal-hydraulic (T-H) passive s...
The quantitative reliability assessment of a thermal-hydraulic (T-H) passive safety system of a nucl...
International audienceThe computation of the reliability of a thermal-hydraulic (T-H) passive system...
International audienceThe assessment of the functional failure probability of a thermal-hydraulic (T...
The estimation of the functional failure probability of a thermal-hydraulic (T-H) passive system can...
International audienceThe estimation of the functional failure probability of a thermal-hydraulic (T...
Thermal-Hydraulic (T-H) passive safety systems are potentially more reliable than active systems, an...
An Adaptive Metamodel-Based Subset Importance Sampling (AM-SIS) approach, previously developed by th...
International audienceThermal-Hydraulic (T-H) passive safety systems are potentially more reliable t...
International audienceIn this paper, Artificial Neural Network (ANN) and quadratic Response Surface ...
Passive Safety Systems (PSSs) are increasingly employed in advanced Nuclear Power Plants (NPPs). The...
An approach for efficient estimation of passive safety system functional reliability has been develo...
International audienceThe quantitative reliability assessment of a thermal-hydraulic (T-H) passive s...
The quantitative reliability assessment of a thermal-hydraulic (T-H) passive safety system of a nucl...
International audienceThe computation of the reliability of a thermal-hydraulic (T-H) passive system...
International audienceThe assessment of the functional failure probability of a thermal-hydraulic (T...
The estimation of the functional failure probability of a thermal-hydraulic (T-H) passive system can...
International audienceThe estimation of the functional failure probability of a thermal-hydraulic (T...
Thermal-Hydraulic (T-H) passive safety systems are potentially more reliable than active systems, an...
An Adaptive Metamodel-Based Subset Importance Sampling (AM-SIS) approach, previously developed by th...
International audienceThermal-Hydraulic (T-H) passive safety systems are potentially more reliable t...
International audienceIn this paper, Artificial Neural Network (ANN) and quadratic Response Surface ...
Passive Safety Systems (PSSs) are increasingly employed in advanced Nuclear Power Plants (NPPs). The...
An approach for efficient estimation of passive safety system functional reliability has been develo...