Abstract
Unlike the current risk monitors, Real-time Online Risk Monitoring and Management Technology is characterized by time-dependent modeling on the state duration of components. Given the real-time plant configuration, it eventually provides the time-dependent risk level and importance measures for operation and maintenance management. This paper focuses on the assessment method of time-dependent importance measures and its risk-informed applications in real-time online risk monitoring and management technology, including Fussell-Vesely (FV), risk achievement worth (RAW), and risk reduction worth (RRW). In this study, the values of component importance have been investigated with a time-dependent risk quantification model, as well as the common cause failure treatment model. Here three options of common cause failure treatment have been developed, assuming that the unavailability of a component could be due to an independent factor (Option 1), a common cause factor (Option 2), or an unconfirmed cause (Option 3). In the special case of “what if a component is out-of-service” of the RAW numerator, a hybrid method for the RAW evaluation is presented resulting in a balanced and reasonable RAW value. A simple case study was demonstrated. The results showed that the absolute values and ranking order of time-dependent importance not only reflected the effect of the cumulative state duration of component on risk, but also comprehensively accounted for all possible situations of component unavailability. Moreover, time-dependent importance measures improved and provided novel insights for online configuration management, 1) ranking SSCs/events/human actions for controlling increased risk and optimizing near–term plans; and 2) exempting or limiting temporary configurations during online operation.
Highlights
Time-Dependent Characteristics of Real-Time Online Risk Monitoring and Management TechnologyThe safety and reliability of nuclear power plants (NPP) depend on the inherent safety of reactor design, as well as the operational safety under different operating conditions
For a predefined mission time of the system, the risk level is only dependent on the plant configuration regardless of state duration, so the risk is constant under the same configuration
risk monitoring and management technology (RORMT) is characterized by time-dependent modeling and updating for online risk monitoring of NPP
Summary
Time-Dependent Characteristics of Real-Time Online Risk Monitoring and Management TechnologyThe safety and reliability of nuclear power plants (NPP) depend on the inherent safety of reactor design, as well as the operational safety under different operating conditions. Time-Dependent Characteristics of Real-Time Online Risk Monitoring and Management Technology. The unavailability of components may increase with operational time, which imposes on the risk level during accident scenarios. It is a fundamental requirement for online operation and maintenance management to be kept informed of the current risk level and importance measures (IMs) of NPP. Real-time online risk monitoring and management technology (RORMT) is based on a time-dependent living-PSA model and an updated method of NPP (Zhang et al, 2015b). All of them affect the logical values of events (normal, true, false) or reliability parameters (such as failure rate/ failure probability of component, frequency of initiating event (IE)) in the time-dependent living-PSA model, named as “RORM model”
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