Characterizing the Probability Law on Time Until Core Damage With PRA

Certain modeling assumptions underlying Probabilistic Risk Assessment (PRA) allow a simple computation of core damage frequency (CDF). These assumptions also guarantee that the time remaining until a core damage event follows an exponential distribution having parameter value equal to that computed for the CDF. While it is commonly understood that these modeling assumptions lead to an approximate characterization of uncertainty, we offer a simple argument that explains why the resulting exponential time until core damage distribution under-estimates risk. Our explanation will first review operational physics properties of hazard functions, and then offer a non-measure-theoretic argument to reveal the the consequences of these properties for PRA. The conclusions offered, here, hold for any possible operating history that respects the underlying assumptions of PRA. Hence, the measure-theoretic constructs on filtered probability spaces is unnecessary for our developments. We will then conclude with a brief discussion that connects intuition with our analytical development.