Wind power is pretty great: One doesn’t need to do much but build turbines and capture the energy from a passing breeze. But, like what happened to the Ancient Mariner, still air means trouble. Intermittent energy is not useful for a grid that requires a continuous supply.
To get over this problem, engineers have devised a number of ways to store energy generated when it’s windy for disbursement during the times when it is not. Ideas include giant flywheels, carbon-neutral natural gas and giant batteries made from gravel and argon gas. Now Alexander Slocum, Brian Hodder and their colleagues at MIT have demonstrated a new way to store that energy — giant hollow concrete balls. They published their results this month in Proceedings of the IEEE.
The concept is pretty simple: As floating offshore wind turbines churn, they send most of the generated power to the grid. Some of the power, though, goes to pumping seawater out from 25-meter-wide hollow spheres which sit on the seafloor. As soon as the wind dies down, the pumps turn off, and the seawater rushes back into the spheres through a turbine; the water turns the turbine, which then generates electricity. The researchers calculated that one such sphere, moored in 400-meter-deep water, could store up to six megawatt-hours of power. A few hundred of those would be enough to offset an hour of energy from a typical nuclear power plant.
According to the researchers, initial estimates indicate that one sphere would cost $12 million to build and deploy, which is three or four times the cost of a typical onshore wind turbine. But worrying about the cost is still a bit premature, as only a 30-inch-diameter proof-of-concept has thus far been built. The MIT team has plans to build a sphere with a diameter of three meters, but further funding will be required to build a 10-meter sphere intended for undersea testing. Still, it could be worth the investment — the researchers estimate that floating offshore wind farms with energy storage capacity could satisfy more than 20 percent of our energy needs.
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