Abstract
Safe operation and industrial improvements are coming from the technology development and operational experience (OE) feedback. A long life span for many industrial facilities makes OE very important. Proper assessment and understanding of OE remains a challenge because of organization system relations, complexity, and number of OE events acquired. One way to improve OE events understanding is to focus their investigation and analyze in detail the most important. The OE ranking method is developed to select the most important events based on the basic event parameters and the analytical hierarchy process applied at the level of event groups. This paper investigates further how uncertainty in the model affects ranking results. An analysis was performed on the set of the two databases from the 20 years of nuclear power plants in France and Germany. From all uncertainties the presented analysis selected ranking indexes as the most relevant for consideration. Here the presented analysis of uncertainty clearly shows that considering uncertainty is important for all results, especially for event groups ranked closely and next to the most important one. Together with the previously performed sensitivity analysis, uncertainty assessment provides additional insights and a better judgment of the event groups’ importance in further detailed investigation.
Highlights
Collecting and understanding operating experience are an important part of keeping continuous, reliable, and safe operation of any complex industrial facility including nuclear power plants
The operational experience (OE) ranking method is developed to select the most important events based on the basic event parameters and the analytical hierarchy process applied at the level of event groups
Uncertainty assessment is important for enhancing the model results interpretation and usability
Summary
Collecting and understanding operating experience are an important part of keeping continuous, reliable, and safe operation of any complex industrial facility including nuclear power plants. This operating experience is taken from the facility to the national and international levels (e.g., [1, 2]). More detailed investigation is performed only for selected important events. The selection process is easy for accidents, but not so easy for a large number of events because this requires resources and may imply a degree of subjectivity. One approach to select events for detailed investigation is to develop and apply a method based on event groups ranking. Ranking results are useful to regulators and industry for better resource prioritization in maintaining and improving safety and operation
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