One of the biggest challenges with using renewable energy for electricity generation—specifically wind and solar power—is intermittency. The wind doesn’t always blow and the sun doesn’t always shine. Affordable, reliable, and deployable storage is seen as the holy grail of renewable energy integration, and recent advances in storage technology are getting closer to finding it.

The current electricity grid has virtually no storage—pumped hydropower is the most prevalent, but is largely location dependent. As higher levels of solar and wind energy are added to the grid, however, storage will become increasingly fundamental to ensuring that the power supply remains stable and demand is met. Utilities and businesses around the globe are starting to use large-scale batteries to complement their renewable energy generation: in Texas, for example, Duke Energy installed a 36 megawatt lead-acid storage system to balance its wind power.

Storage system ratings

Credit: Energy Storage Association

Storage technologies not only provide utilities with grid reliability for renewable integration, but also offer additional benefits such as ancillary services, ramp rate control, frequency regulation, and peak shaving, which can lower costs and improve the performance of the transmission system. Power system operators have always had to match electricity demand with supply, and energy storage is an additional tool in their grid-management toolbox.

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