By 31 December, a half-dozen 1-megawatt lithium-ion batteries could be in place, helping to support Puerto Rico’s electric power grid, which was almost entirely destroyed by Hurricane Maria.
Independent power producer AES is working with the Puerto Rico Electric Power Authority (PREPA) to site and deploy the batteries. Most likely, says Chris Shelton, chief technology officer of the Virginia-based company, the batteries—which AES is donating—will support the still-fragile grid by enhancing both power quality and grid stability.
“We are not looking for commercial applications,” Shelton says. “We are focused on putting them to work to help.”
Storage batteries are gaining credibility as a reliable and rapidly deployable technology. A pair of crises thousands of miles apart illustrates how the technology can bolster grids when they face difficult challenges.
California Crisis
The first crisis struck in October 2015 when the Aliso Canyon natural gas storage facility in southern California began leaking. The accident shut the facility for months and threatened gas supplies to electric power generating facilities providing 10,000 megawatts of capacity to the region. Also at risk were dozens of industrial facilities and public buildings like schools and hospitals.
State regulators in May 2016 approved deployment of more than 100 MW of battery-based energy storage systems. Among the systems was the 20-MW/80 megawatt-hour (MWh) Mira Loma Battery Storage Facility, installed by Tesla in less than three months.
And at a utility substation in Escondido, Calif., a 30-MW, four-hour-duration lithium-ion Advancion battery array was installed by AES Energy Storage. At the time, it was one of the world’s largest such deployments.
The Aliso Canyon response showed that developers could design, build, and commission significant amounts of energy storage in a short amount of time. Installing an equal amount of natural gas-fired generation likely would have required years rather than months.
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