State of the art PRA methods, i.e. Dynamic PRA (DPRA) methodologies, largely employ system simulator codes to accurately model system dynamics. Typically, these system simulator codes (e.g., RELAP5 ) are coupled with other codes (e.g., ADAPT, RAVEN that monitor and control the simulation. The latter codes, in particular, introduce both deterministic (e.g., system control logic, operating procedures) and stochastic (e.g., component failures, variable uncertainties) elements into the simulation. A typical DPRA analysis is performed by: 1. Sampling values of a set of parameters from the uncertainty space of interest 2. Simulating the system behavior for that specific set of parameter values 3. Analyzing the set of simulation runs 4. Visualizing the correlations between parameter values and simulation outcome Step 1 is typically performed by randomly sampling from a given distribution (i.e., Monte-Carlo) or selecting such parameter values as inputs from the user (i.e., Dynamic Event Tree
Dynamic PRA: an Overview of New Algorithms to Generate, Analyze and Visualize Data / D., Mandelli; C., Smith; Alfonsi, Andrea; C., Rabiti; R., Youngblood; V., Pascucci; B., Wang; D., Maljovec; P. T., Bremer; T., Aldemir; A., Yilmaz. - STAMPA. - 109:(2013), pp. 949-953. (Intervento presentato al convegno 2013 ANS Winter Meeting and Nuclear Technology Expo: "The 75th Anniversary of the Discovery of Nuclear Fission" tenutosi a Washington, DC; United States).
Dynamic PRA: an Overview of New Algorithms to Generate, Analyze and Visualize Data
ALFONSI, ANDREA;
2013
Abstract
State of the art PRA methods, i.e. Dynamic PRA (DPRA) methodologies, largely employ system simulator codes to accurately model system dynamics. Typically, these system simulator codes (e.g., RELAP5 ) are coupled with other codes (e.g., ADAPT, RAVEN that monitor and control the simulation. The latter codes, in particular, introduce both deterministic (e.g., system control logic, operating procedures) and stochastic (e.g., component failures, variable uncertainties) elements into the simulation. A typical DPRA analysis is performed by: 1. Sampling values of a set of parameters from the uncertainty space of interest 2. Simulating the system behavior for that specific set of parameter values 3. Analyzing the set of simulation runs 4. Visualizing the correlations between parameter values and simulation outcome Step 1 is typically performed by randomly sampling from a given distribution (i.e., Monte-Carlo) or selecting such parameter values as inputs from the user (i.e., Dynamic Event Tree| File | Dimensione | Formato | |
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