New 3-D measurements improve understanding of geomagnetic storm hazards

New 3-D measurements improve understanding of geomagnetic storm hazards
It is during geomagnetic storms that beautiful aurora borealis, or northern lights, are visible at high latitudes. However, geomagnetic storms can also cause risks to the power grid. Credit: Joshua Strang, US Air Force

Measurements of the three-dimensional structure of the earth, as opposed to the one-dimensional models typically used, can help scientists more accurately determine which areas of the United States are most vulnerable to blackouts during hazardous geomagnetic storms.

Space weather events such as geomagnetic storms can disturb the earth's magnetic field, interfering with , radio communication, GPS systems, satellite operations, oil and gas drilling and air travel. Scientists use models of the earth's structure and measurements of Earth's taken at USGS observatories to determine which sections of the electrical grid might lose power during a geomagnetic .

In a new U.S. Geological Survey study, scientists calculated voltages along power lines in the mid-Atlantic region of the U.S. using 3D data of the earth. These data, taken at Earth's surface, reflect the complex structure of the earth below the measurement sites and were collected during the National Science Foundation EarthScope USArray project. The scientists found that for many locations, the voltages they calculated were significantly different from those based on previous 1D calculations, with the 3D data producing the most precise results.

New 3-D measurements improve understanding of geomagnetic storm hazards
This artist illustration depicts events on the sun that can change the conditions in near-Earth space. Space weather begins with an eruption such as a huge burst of light and radiation called a solar flare or a gigantic cloud of solar material called a coronal mass ejection. Credit: NASA

"Using the most accurate data available to determine vulnerable areas of the power grid can help maintain life-saving communications and protect national security during severe geomagnetic storms," said Greg Lucas, a USGS scientist and the lead author of the study. "Our study suggests that 3D data of the earth should be used whenever they are available."

Electric currents from a March 1989 geomagnetic storm caused a blackout in Quebec and numerous glitches in the U.S. power grid. In past studies, scientists using simple 1D models of the earth would have found that 16 high-voltage electrical transmission lines were disturbed in the mid-Atlantic region during the storm, resulting in the blackout. However, by using realistic 3D data to calculate the 1989 scenario, the new study found that there might have actually been 62 vulnerable lines.

"This discrepancy between 1D- and 3D-based calculations of the 1989 storm demonstrates the importance of realistic data, rather than relying on previous 1D models, to determine the impact that a has on power grids," Lucas said.

More information: Greg M. Lucas et al, Calculation of Voltages in Electric Power Transmission Lines During Historic Geomagnetic Storms: An Investigation Using Realistic Earth Impedances, Space Weather (2018). DOI: 10.1002/2017SW001779

Citation: New 3-D measurements improve understanding of geomagnetic storm hazards (2018, March 8) retrieved 28 March 2024 from https://phys.org/news/2018-03-d-geomagnetic-storm-hazards.html
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