EIA Cites New Battery Storage Applications as Usage Surges in The US

Highlights :

  • The ability of utility-scale batteries to draw energy from the grid during certain periods and discharge it to the grid at other periods creates opportunities for electricity dispatch optimization strategies based on system or economic conditions.
  • Frequency regulation remains the most common use for batteries, but other uses, such as ramping, arbitrage, and load following, are becoming more common as more batteries are added to the electric grid.
EIA Cites New Battery Storage Applications as Usage Surges in The US

Battery storage applications have shifted as more batteries are added to the U.S. grid, finds the U.S. Energy Information Administration (EIA). The ability of utility-scale batteries to draw energy from the grid during certain periods and discharge it to the grid at other periods creates opportunities for electricity dispatch optimization strategies based on system or economic conditions.

According to EIA’s Annual Electric Generator Report most utility-scale (greater than 1 megawatt [MW] of capacity) battery storage applications perform several roles depending on revenue opportunities or system support requirements.

Frequency regulation remains the most common use for batteries, but other uses, such as ramping, arbitrage, and load following, are becoming more common as more batteries are added to the electric grid.

The EIA collects data from battery storage operators regarding these roles in its Annual Electric Generator Report, which collects more information on U.S. electricity generators than EIA’s Preliminary Electric Generator Monthly. Operators can report multiple roles that their batteries play, and on average, operators cite 2.2 use cases for each battery storage generator.

The most common cited use case for batteries is frequency response. Frequency response is a service that maintains grid frequency as close to 60 hertz (Hz) as reasonably possible. Deviations below 60 Hz can lead to protective generator trips that result in a subsequent decline in system stability. Batteries are particularly well suited for frequency regulation because their output does not require any startup time and batteries can quickly absorb surges. At the end of 2020, 885 MW of battery storage capacity (59% of total utility-scale battery capacity) cited frequency response as a use case.

Ramping or spinning reserve is a set of ancillary services in which generators quickly respond to system disruptions, such as a sudden loss of generation or a rapid change in demand. Regions that have a relatively high proportion of electricity generation from sources such as wind and solar—whose output can fluctuate as wind speeds or cloud cover changes—tend to require resources that can respond quickly. At the end of 2020, 583 MW of battery storage capacity (39% of total) cited ramping or spinning reserve as a use case.

Arbitrage is a strategy of buying electricity during low price periods and selling during high price periods. Battery storage supports this strategy by charging when power prices are low and discharging when prices are high. This use case increased by 390 MW from 2019 to 2020—the greatest capacity increase among use cases. At the end of 2020, 586 MW of battery storage capacity (37% of total) was used for arbitrage.

Load following is an operating strategy in which generators change their output to match changes in electric demand, or load. Batteries are used for load following because their output can be digitally controlled and therefore can respond to load changes with less stress than mechanical systems. Nearly 400 MW of battery storage capacity was used for load following in 2020, showed EIA’s data.

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Soumya Duggal

Soumya is a master's degree holder in English, with a passion for writing. It's an interest she has directed towards environmental writing recently, with a special emphasis on the progress being made in renewable energy.

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