A level‐1 probabilistic risk assessment to blackout hazard in transmission power systems

A level‐1 probabilistic risk assessment to blackout hazard in transmission power systems

0.00 Avg rating0 Votes
Article ID: iaor20123541
Volume: 102
Issue: 17
Start Page Number: 41
End Page Number: 52
Publication Date: Jun 2012
Journal: Reliability Engineering and System Safety
Authors: , ,
Keywords: estimation, Monte Carlo method, power grid
Abstract:

The blackout risk in power systems is difficult to estimate by actual probabilistic methods because they usually neglect, or do not properly consider, the dependencies between failures and the dynamic evolution of the grid in the course of a transient. Our purpose is therefore to develop an integrated probabilistic approach to blackout analysis, capable of handling the coupling between events in cascading failure, and the dynamic response of the grid to stochastic initiating perturbations. This approach is adapted from dynamic reliability methodologies. This paper focuses on the modeling adopted for the first phase of a blackout, ruled by thermal transients. The goal is to identify dangerous cascading scenarios and better calculate their frequency. A Monte Carlo code specifically developed for this purpose is validated on a test grid. Some dangerous scenarios are presented and their frequency calculated by this method is compared with a more classical estimation neglecting thermal effects, showing significant differences. In particular, our method can reveal dangerous scenarios neglected or underestimated by the more classical method because they do not take into account the increase of failure rates in stress conditions.

Reviews

Required fields are marked *. Your email address will not be published.