Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
586148 | Journal of Loss Prevention in the Process Industries | 2012 | 12 Pages |
Operational safety is receiving more and more attention in the Norwegian offshore industry. Almost two thirds of all leaks on offshore installations in the period 2001–2005, according to the Risk Level Project by the Petroleum Safety Authority in Norway, resulted from manual operations and interventions, as well as shut-down and start-up. The intention with the Risk OMT (risk modelling – integration of organisational, human and technical factors) program has been to develop more representative models for calculation of leak frequencies as a function of the volume of manual operations and interventions. In the Risk OMT project a generic risk model has been developed and is adapted to use for specific failure scenarios. The model considers the operational barriers in event trees and fault trees, as well as risk influencing factors that determine the basic event probabilities in the fault trees. The full model, which applies Bayesian belief networks, is presented more thoroughly in a separate paper. This paper presents the evaluation of the model. The model has been evaluated through some case studies, and one important aspect is the evaluation of the importance of each risk influencing factor. In addition some risk-reducing measures have been proposed, and the paper presents how the effect of these measures has been evaluated by using the model. Finally, possible applications and recommendations for further work are discussed.
► We presents a risk analysis model of the platform hydrocarbon release frequency. ► The model includes operational barriers as well as risk influencing factors. ► The model has been evaluated through some case studies. ► Special emphasis is on the importance of each risk influencing factor. ► The model is used to evaluate the effect of some risk-reducing measures.