Concept for comprehensive Hazards PSA and Fire PSA application

• Standardized approach for performing a comprehensive Hazards PSA (HPSA).
• Consideration of all potential failure dependencies induced by hazards.
• Systematic extension of a Level 1 PSA for internal events by hazard-induced failures.
• Application of the HPSA approach for the internal hazard fire.
• Fire risk comparison of alternatives for spent fuel pool cooling.

This contribution presents results of recent research and development activities in the field of Hazards PSA (HPSA). The reactor accidents at Fukushima Dai-ichi in March 2011 gave reason and indications for checking the risk assessment approach for internal and external hazards as currently described in the German PSA Guideline and its supplementary technical documents. A standardized approach for performing a comprehensive HPSA has been developed emphasizing the complete consideration of all potential failure dependencies induced by hazards. The systematic extension of the given plant model of Level 1 PSA is the real crux of the new HPSA approach. The extension is carried out for each hazard H using the corresponding hazard equipment list (H-EL) and the corresponding hazard dependency list (H-DL). Parts of the approach have already been tested.In the paper a successful application for the plant internal hazard fire is presented. A German licensee plans a system modification of the spent fuel pool cooling, therefore a Level 1 PSA has been carried out to compare the fuel damage frequencies for the existing and the modified version. It is outlined how the systematic (and partly automatic) extension of the fault trees is performed using a so-called Fire Equipment List (F-EL). The F-EL contains a compartment assignment for all relevant components and cables. The probability of a compartment failure by fire must be determined for any compartment mapped. This is the conditional probability that the components and cables within the compartment are inoperable due to the fire.