Cheap energy storage, long-hailed as renewable energy’s younger cousin that once of age would create a dynamic duo strong enough to upend the electricity system as we know it got a steroid shot this week when FERC announced that it was going to let energy storage operate in the wholesale markets as both a buyer and a seller.
While this development plays to storage’s benefit, the market (at current prices) is still relatively small. For energy storage to make a big play, costs still needs to come down by about half and the market itself might have to change.
In the U.S. most energy storage comes from pumped hydro facilities, but these systems require large amounts of co-located land, elevation, and water. Batteries have been (or will be) built in both Texas and Arizona in order to defer expensive transmission line upgrades.
But battery prices are now declining to the point where they are starting to move into new markets. Tesla’s 100MW/129MWh battery in South Australia appears to be taking full advantage of market price fluctuations and helping the grid ride through multiple coal plant trips this (Australian) summer.
In the U.S., Tucson Electric Power recently entered into a power purchase agreement with a 100MW solar + 30MW/120MWh battery project for about 4.5 cents/kWh and Arizona Public Service (APS) just this month contracted with First Solar to build a 65MW solar + 50MW/135MWh project with the stipulation that its capacity be available summer afternoons from 3-8pm. At other times, the battery is free to provide other services to the market. Both of these projects benefit from the fact that, if a battery charges mainly from solar, it is eligible for the same 30% investment tax credit as the solar itself.
Battery energy storage is starting to target peak demand hours. Peak demand usually happens on summer afternoons (both north and south) when people are getting home from work and air-conditioners are straining to keep homes cool. There are also winter peaks for cold weatherwhich can occur on cold mornings when people are just waking up and getting ready for the day.
In the U.S. we usually meet our peak demand with natural gas combustion turbines. These types of power plants are basically jet engines bolted to the ground and hooked up to a generator. They can start and ramp their output quickly, making them good for following swings in load. Some areas of the country utilize diesel engines as peakers and lately natural gas internal combustion engines (diesel engines reconfigured to run on natural gas) are frequently deployed.
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