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PSAM 16 Conference Paper Overview

Welcome to the PSAM 16 Conference paper and speaker overview page.

Lead Author: Dusko Kancev Co-author(s): Rainer Hausherr rhausherr@kkg.ch Gerben Dirksen gerben.dirksen@framatome.com
Development of a new plant-specific, full-scope industrial-scale L1/L2 PSA-model with the application of the new RiskSpectrum® Model Builder Tool
In July 2020, the NPP Goesgen-Daeniken AG (KKG) launched a new project (PSASPECTRUM) of refurbishment and restructuring of its plant PSA model in a new software environment and using new software tools. The main purpose of this project is the progression of the current KKG PSA model into the RiskSpectrum® software, including its update in terms of consideration of all the additional plant modifications, model & documentation review, necessary model & documentation corrections, increasing the level of modelling detail as well as improving the level of modelling and documentation consistency. Hence, with the PSASPECTRUM project, one will achieve a consistent and comprehensive PSA model and documentation, compiled within a state-of the-art PSA modelling software environment, allowing to perform the relevant PSA applications and to fulfil the national regulatory requirements more effectively and in a more efficient time manner. The ultimate goal of this project is to produce a full-scope, all POSs (full-power, low power & shutdown), all IEs classes (internal & external), all hazards (internal & external), fully coupled (L1, L1+, L2) plant model. One of the main highlights of the project is the application of the RiskSpectrum® Model Builder (RSMB) tool on the system level PSA modelling. The RSMB is a software tool for building and maintaining risk-, reliability and availability models. Building on the strength of KB3, originally developed and used by EDF for risk analysis across their critical infrastructure, RiskSpectrum Model Builder, accelerates the generation of risk and reliability analysis by automating and standardising the risk modelling process. By using this platform, EDF has experienced productivity gains of 40-80%. As such, the RSMB was commercialized by Lloyd`s Register RiskSpectrum AB in 2019/2020 and rendered compatible with the RiskSpectrum PSA platform as part of the RiskSpectrum suite. The three key features of the RSMB tool are improving the automation, acceleration and the standardisation of the risk and reliability modelling process: • Intuitive drag-and-drop interface to draw systems and subsystems based on the actual P&IDs; • Central knowledge base containing standardised definitions of systems, structures and components (SSCs) as well as their functional properties and constraints; • Automatic generation of fault trees and other risk models for each system design, with automatic export into RiskSpectrum PSA ready for further analysis and/or PSA-modelling further on, on the plant-level. The application of the tool offers higher grade of consistency in the PSA studies, the modelling assumptions are systematic and traceable, a higher grade of homogeneity among the system models is achieved. Also, once the PSA model is built by using the RSMB tool, then a rapid, efficient and systematic model update potential is ensured for the future. This paper presents a summary of the system-level PSA modelling using the RSMB Tool within the framework of the PSASPECTRUM project. A new method for pre-FMEA analysis, based on the PSA-relevant systems` P&IDs, is presented as the first step of the system-level PSA modelling. Each of the relevant systems P&ID is screened for PSA-relevant components, which are in turn then marked in a way that is reflecting their corresponding failure mode relevant for the analysed PSA system function. These pre-formatted P&IDs are then used as the basis for building the corresponding system function availability models with the RSMB tool. In this regards, three different systems are presented within this paper as case studies – the ECCS, the essential CCWS, the auxiliary/start-up FWS, as well as the conventional intercooling circuit system as one of the important support systems. Each of the automatically generated FTs to the corresponding system functions is subsequently discussed. FT`s automatic export into the main environment for the plant-level PSA-modelling, the RiskSpectrum PSA, is then demonstrated and its binding within the corresponding ET discussed. In summary, this study underlines the need and importance of a systematic, homogeneous, traceable and easily validatable approach with a minimal potential for human error for a PSA-modelling in industrial-scale projects.

Paper DK40 Preview

Author and Presentation Info

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Lead Author Name: Dusko Kancev (dkancev@kkg.ch)

Bio: I am a PSA specialist, since 2014 employed at the NPP Goesgen – Daeniken, where I work mainly on development, upgrade, update of our PSA model. I hold a PhD (2012) in Nuclear Engineering from the University of Ljubljana, Slovenia and B.Sc. (2007) in Electrical Engineering from the University Ss. Cyril and Methodius, Skopje, Macedonia. Simultaneously with my PhD studies, I was working as a research assistant at the Reactor Engineering Division, Jozef Stefan Institute in Ljubljana. There I worked on development of time-dependent unavailability models in the nuclear industry; incorporation of ageing in PSA calculations; power systems reliability analysis. After the PhD, I did my postdoc research at the Joint Research Centre of the European Commission in Petten, NL. There I worked in the team of the Centralised EU Nuclear Safety Clearinghouse for Operational Experience Feedback, fostering the collection of operating experience from European nuclear regulators and operators.

Country: Switzerland
Company: NPP Goesgen - Daeniken
Job Title: PSA Specialist

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