SH51A-2438
Modeling the Impacts of Geomagnetic Disturbances on the New York State Power Transmission System

Friday, 18 December 2015
Poster Hall (Moscone South)
Djibrina Ouedraogo1, Orlando Castillo1, Ahmed Mohamed2, M. Chantale Damas1, Chigomezyo Mudala Ngwira3 and CUNY Space Weather Group, (1)Queensborough Community College, Bayside, NY, United States, (2)CUNY City College of New York, Electrical Engineering, New York, NY, United States, (3)Catholic University of America, Washington, DC, United States
Abstract:
Our society today relies heavily on electricity in order to meet its essential basic needs. However, to meet the rising demands for this energy, all power companies require smooth and efficient delivery of services to the consumers. The US power grid is a complex electrical apparatus that has well known sensitivities to space weather disturbances. Events produced by space weather includes solar storms or geomagnetic disturbances [GMD]. The propagation of such events in the direction of Earth perturbs the electric currents in the magnetosphere and the ionosphere, causing a unique effect known as a Geomagnetically Induced Current [GIC]. GICs are known to saturate and overheat transformers in the power grid, threatening the safe operation of the power system. A GMD induces a geoelectric field in high-voltage and extra high-voltage transmission circuits. This geoelectric field represents electromotive force, and causes GICs to circulate through transmission circuits and transformers. Power models are being developed using MATLAB/Simulink® software to simulate the propagation of GIC flows in a power system, while using New York State (NYS) power transmission network as an example. We will present results of the models used to assess the impacts of possible GMD strikes on the various parts of the power network.