SoCalGas to Use Fiber Optic Technology to Monitor Pipelines in Real Time
Southern California Gas Company (SoCalGas) will be one of the first natural gas utilities in the United States to incorporate innovative fiber-optic cable technology to detect impacts and leaks along its transmission and high-pressure pipeline system.
The technology uses fiber-optic strands to transmit data across long distances, and can send early warning of pressure changes or vibrations that could indicate a leak or an impact to the gas line. The technology quickly detects when abnormal stress, movement or temperature conditions are present. Continuous monitoring and measurement will help the company quickly identify threats to a pipeline from heavy equipment operation, unexpected earth movement or physical impact. When a threat is identified, information will be sent within seconds along the fiber cable to a remote monitoring station. The system can pinpoint where a potential problem may be developing within 20 feet.
“This is game-changing technology,” said Jimmie Cho, senior vice president of gas operations and system integrity, SoCalGas. “It will help keep our communities safe and allow us to more quickly address accidental dig-ins by third-party contractors and service outages that happen every year.”
The system can prevent pipeline damage from unauthorized construction work, geologic conditions or other physical changes like structural stress from broken water mains. It can also detect pipeline leaks through both sound and temperature signal analysis. Access to immediate and area-specific data will give SoCalGas crews and first responders more time to plan, allocate resources, and take effective actions to mitigate leaks or potential leaks.
The system works on the principle that light signals vary when a fiber-optic cable is exposed to vibration, stress or an abnormal change in temperature. The advanced technology helps operators interpret these signal changes and determine the type of threat posed and the precise location along the continuous length of cable. In some cases, operators will be able to distinguish hand digging and routine traffic from heavy equipment use near the pipeline.
To test and gain a better understanding of how the new system performs, engineers at the company’s Pico Rivera test facility created a working scaled-down pipeline section and installed fiber-optic cabling in a pipeline trench.
Personnel pounded and dug into soil, pavement and other surfaces, drove heavy equipment over and around the test area, and simulated gas leaks of various magnitudes. From a remote location, special monitoring equipment successfully identified each of those activities by its unique data signature.
SoCalGas plans to install fiber-optic cable along all new and replacement pipeline segments 12 inches and greater in diameter and one-mile long. The fiber-optic cables will be installed about 36 inches below the ground surface and 12 inches above the pipelines. SoCalGas plans to install its first fiber-optic cables on a 7-mile stretch of pipeline in Bakersfield this year.
Incorporating fiber-optics into its operations is part of SoCalGas’ long-standing commitment to enhancing the safety and reliability of its more than 101,000 miles of natural gas pipelines.
Related News
From Archive
- Tunnel boring machine ‘Clack-A-Mole’ nears one-third completion in Oregon outfall project
- Lynchburg, Va., breaks ground on largest-ever Blackwater CSO tunnel project
- Texas A&M weighs underground transit plan with Elon Musk's Boring Co. to reduce campus traffic
- Wyo-Ben’s Max Gel, Max Bore HDD system boost drilling efficiency, performance
- Colorado's Wolf Creek Pass tunnel drainage project begins
- Wisconsin proposes new PFAS drinking water standards to align with federal rules
- Elgin, Ill., joins EPA drinking water initiative to accelerate lead pipe replacement
- Dog River pipeline replacement in Oregon improves water supply with new HDPE pipe
- Leaking wastewater systems named top source of San Diego River contamination, study finds
- New Portable Welding System From Miller
Comments