July 2016, Vol. 243, No. 7


PG&E Testing Safety Drones to Inspect Gas and Electric Infrastructure

Pacific Gas and Electric Company (PG&E) is testing unmanned aircraft systems (UAS), commonly referred to as drones, to enhance the safety and reliability of its electric and gas service. The Federal Aviation Administration (FAA) has authorized PG&E to use drones to assist with inspections of electric and gas infrastructure.

PG&E is conducting two separate testing programs to explore the feasibility of using safety drones to monitor electric infrastructure in hard-to-reach areas and to detect methane leaks across its 70,000-square-mile service area. These aircraft are small and controlled by human operators through remote commands. Drones are flown safely over PG&E’s electric and gas infrastructure and always within the visual line of sight of operators.

Test Flight

PG&E recently conducted its first drone test flight at the Balch Powerhouse, a hydroelectric facility located in the high Sierra Mountains outside Fresno. Currently, assessments of facilities like the Balch Powerhouse require employees to use fall-restraint equipment due to the height and the steep angle of the terrain as they visually inspect equipment.

This is a hazardous task requiring significant investment in training and protective equipment. Drones are able to accomplish such inspections easily and without safety risk to employees.

“These tests are helping PG&E demonstrate that drones can easily fly over remote or hard-to-reach terrain that is often inaccessible on foot, and send back imagery showing the condition of electric lines and equipment,” said Pat Hogan, senior vice president, Electric Transmission and Distribution, PG&E.

NASA Partnership

PG&E is also working with NASA’s Jet Propulsion Laboratory (JPL), the University of California, Merced’s Mechatronics Embedded Systems and Automation Lab (MESA Lab), and Pipeline Research Council International to conduct testing of NASA’s Open Path Laser Spectrometer sensor on a drone. The miniature methane sensor developed by JPL is similar to the technology developed to find life on Mars and is 1,000 times more sensitive than most commercially available technology. The first flight was performed Feb. 24, at UC Merced; the next series of tests began in June.

“The strategic investments we’re making in new technologies and innovative tools such as drones are part of our ongoing efforts to enhance safety and reliability of our utility infrastructure. The ability to deploy an aerial methane detection tool over long distances and in remote areas could signal a major turning point in future gas leak detection capabilities for PG&E, and the larger utility industry as a whole,” said Jesus Soto, senior vice president, Gas Operations, PG&E.

Future Benefits

While PG&E’s safety drone program is still undergoing testing, the utility is encouraged by its potential benefits. Drones can supplement PG&E’s current abilities to access and monitor remote infrastructure, and can be equipped with a wide variety of sensors to detect leaks and structural issues.

In the future, PG&E also envisions drones playing a key role in storm and disaster response. Obstacles such as downed trees or icy roads make it difficult for crews to assess damage, which in turn hinders response and restoration time. Using drones to capture high-resolution imagery in real time will help speed up damage assessments and the deployment of the right resources to restore power.

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