Techniques for Maintaining Situational Awareness During Large-Scale Electric Grid Simulations
Thomas J. Overbye, Komal S. Shetye, Jessica L. Wert, Wei Trinh, Adam B. Birchfield, Tracy L. Rolstad, James D. Weber
Abstract
Simulations of the dynamic response of high voltage, large-scale electric grids often generate large amounts of data. This can make it difficult for engineers to understand the overall system behavior. This paper presents various techniques to help with gaining situational awareness for electric grid simulations in the time frame of milliseconds to minutes. These techniques include the use of time-domain graphs, geographic data views in which geographic information embedded in the electric grid model is leveraged to create visualizations, contouring, animation loops, machine learning and modal analysis. Results are demonstrated on a 10,000 bus synthetic grid model and an actual electric grid model with 110,000 buses.