The Pacific Northwest National Laboratory developed a risk framework for modeling high-impact, low-frequency power grid events to support risk-informed decisions. In this research article, we briefly recap the framework and demonstrate its implementation for seismic and geomagnetic hazards using a benchmark reliability test system. We describe integration of a collection of models implemented to perform hazard analysis, fragility evaluation, consequence estimation and post-event restoration. We demonstrate the value of the framework as a multi-hazard power grid risk assessment and management tool. The research will benefit transmission planners and emergency planners by improving their ability to maintain a resilient grid infrastructure against impacts from major events.
Revised: February 25, 2020 |
Published: December 1, 2018
Citation
Veeramany A., G.A. Coles, S.D. Unwin, J.E. Dagle, and T.B. Nguyen. 2018.Trial Implementation of a Multihazard Risk Assessment Framework for High-Impact Low-Frequency Power Grid Events.IEEE Systems Journal 12, no. 4:3807-3815.PNNL-SA-124609.doi:10.1109/JSYST.2017.2737993