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An Integrated Assessment of a G3 GMD Event on Large-Scale Power Grids: From Magnetometer Data To Geomagnetically Induced Current Analysis
Solar activity can cause geomagnetic disturbances (GMDs) that give rise to geomagnetically induced currents (GICs) which may compromise the reliability of the electric grid. In order to build more reliable models representing GMD interactions with the power grid, the power system's detailed ele...
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| Published in: | IEEE transactions on industry applications 2024-01, Vol.60 (1), p.1-12 |
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| Main Authors: | , , , , , , |
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| cites | cdi_FETCH-LOGICAL-c292t-8e16ef61edb188b35a642b2fb652fc1413830a405d4d1bd2749ffbf567a61e83 |
| container_end_page | 12 |
| container_issue | 1 |
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| container_title | IEEE transactions on industry applications |
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| creator | Dehghanian, Pooria Zhang, Anna Fatima, Rida Snodgrass, Jonathan Birchfield, Adam B. Davis, Katherine R. Overbye, Thomas J. |
| description | Solar activity can cause geomagnetic disturbances (GMDs) that give rise to geomagnetically induced currents (GICs) which may compromise the reliability of the electric grid. In order to build more reliable models representing GMD interactions with the power grid, the power system's detailed electrical model must be considered along with fluctuations in the earth's magnetic and induced surface electric fields. This study investigates the impact of incorporating spatially varying magnetic fields into surface electric field models on GMD risk metrics. A spatially independent magnetic field model and a spatially varying model are compared through simulations. To perform this analysis, the earth's magnetic field disturbances are transformed into surface electric fields using respective one-dimensional earth conductivity models. Then, the modeling impact of these electric fields is studied using a 2,000-bus grid for Texas and a 25,000-bus grid for the northeast and mid-Atlantic regions of the United States. Simulation results reveal that the inclusion of spatially varying magnetic fields results in considerable differences in GMD risk metrics, highlighting the importance of accounting for spatial variability when assessing GMD risks in the power system. |
| doi_str_mv | 10.1109/TIA.2023.3328974 |
| format | article |
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In order to build more reliable models representing GMD interactions with the power grid, the power system's detailed electrical model must be considered along with fluctuations in the earth's magnetic and induced surface electric fields. This study investigates the impact of incorporating spatially varying magnetic fields into surface electric field models on GMD risk metrics. A spatially independent magnetic field model and a spatially varying model are compared through simulations. To perform this analysis, the earth's magnetic field disturbances are transformed into surface electric fields using respective one-dimensional earth conductivity models. Then, the modeling impact of these electric fields is studied using a 2,000-bus grid for Texas and a 25,000-bus grid for the northeast and mid-Atlantic regions of the United States. 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| source | IEEE Electronic Library (IEL) Journals |
| subjects | Conductivity Disturbances Earth electric field Electric fields Electric power grids Electric power systems Geomagnetic disturbance (GMD) geomagnetic field geomagnetically induced currents (GICs) Geomagnetism Magnetic field measurement Magnetic fields Magnetic separation magnetometer Magnetometers Power grids Solar activity |
| title | An Integrated Assessment of a G3 GMD Event on Large-Scale Power Grids: From Magnetometer Data To Geomagnetically Induced Current Analysis |
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