Palo Alto, USA: The Electric Power Research Institute (EPRI), USA, completed tests determining that unmanned aerial vehicle (UAVs), or drones, can be used effectively to assess storm damage on utility distribution systems. The tests indicated that unmanned airborne technologies equipped with sensors, cameras and GPS could be deployed quickly, allowing utilities to evaluate large areas more quickly than ground-based crews, then develop a repair strategy and mobilise repair crews more quickly and effectively.
Conducted at the New Mexico State University Flight Test Center, the tests involved navigating several aircraft technologies and using high resolution video cameras to transmit images of power lines from a height of 5,000 to 7,000 feet. The tests determined that such images can be used by electric utilities to assess damage and pinpoint its location following a storm.
In the wake of a storm, damage assessment is frequently a choke point in power restoration due largely to obstacles, such as downed trees blocking roads or icy conditions that make it extremely difficult for utility crews to get to and report on distribution line damage.
EPRI will also be evaluating drones and remote sensing technologies for inspection and assessment of overhead transmission lines. As part of this research, functional requirements will be identified for UAV inspection and market surveys will identify available UAV inspection technologies, services, and their costs.
“Our research clearly shows that drones may provide utilities a tool that could reduce outage restoration time,” said Matthew Olearczyk, senior programme manager for distribution research at EPRI. “Using live streaming video information, utility system operators would be able to dramatically improve damage assessment.”
With more accurate and timely information, system operators can better dispatch crews, establish repair priorities, and communicate more timely and accurate information to their customers.
Other industries such as oil and gas, forestry, and meteorology are evaluating or using unmanned air vehicle technology.