Quantitative application of Monte Carlo simulation in Fire-PSA

In a power plant a fire cell forms the basic subunit. Since the fire is initially located there, the full-scale time dependent fire simulation and estimation of target response must be performed within the fire cell. Conditional, time dependent damage probabilities in a fire cell can now be calculat...

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Veröffentlicht in:Kerntechnik (1987) 2007-05, Vol.72 (3), p.149-155
Hauptverfasser: Keski-Rahkonen, O., Mangs, J., Hostikka, S., Korhonen, T.
Format: Artikel
Sprache:eng
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Zusammenfassung:In a power plant a fire cell forms the basic subunit. Since the fire is initially located there, the full-scale time dependent fire simulation and estimation of target response must be performed within the fire cell. Conditional, time dependent damage probabilities in a fire cell can now be calculated for arbitrary targets (component or a subsystem) combining probabilistic (Monte Carlo) and deterministic simulation. For the latter a spectrum from simple correlations up to latest computational fluid dynamics models is available. Selection of the code is made according to the requirements from the target cell. Although calculations are numerically heavy, it is now economically possible and feasible to carry out quantitative fire-PSA for a complete plant iteratively with the main PSA. From real applications examples are shown on assessment of fire spread possibility in a relay room, and potential of fire spread on cables in a tunnel.
ISSN:0932-3902
2195-8580
DOI:10.3139/124.100333