Apr 182011
 
Grid energy storage

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In the future, the growing amounts of solar and wind energy will need to be stored for dark or low-wind periods. One solution is redox flow batteries that can supply current for up to 2000 households. Several Fraunhofer Institutes are working jointly on these fluid batteries of the future. The researchers will present their large battery installation at the Hannover Messe.

Green power is an unstable commodity. Photovoltaic plants rest at night, and wind turbines stand still when there are lulls in the wind. This is why in the future there will be a need for intermediate storage of considerable amounts of environmentally friendly power. One of the hot topics at the moment is the use of electric cars for intermediate power storage. Experts agree that this alone will not suffice. Instead, large-scale stationary storage facilities will be needed, substations centrally located in the grid and capable of buffering energy in megawatt quantities for low-current periods.

A Fraunhofer consortium is currently driving the development of large-scale energy-storage systems known as redox flow batteries. The experts’ long-term goal is to build a handball-court-sized battery installation with a capacity of 20 MWh — enough energy to provide power to roughly 2000 households through a long winter’s night or a cloudy day. The results have not advanced quite so far: At the moment, the largest laboratory facilities at the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT have an output of several kW.

At the Hanover Fair (Hannover Messe), the researchers will demonstrate the operation of the redox flow battery using a 2-kW plant. Three Fraunhofer institutes are involved in the consortium working to expedite the development of these storage batteries. “The process already works reliably,” notes Dr. Christian Dötsch, business unit manager for Energy Efficiency Technologies at UMSICHT, one of the participating institutes. “The challenge lies in the upscale version, the enlargement of these plants.” Redox flow batteries are large-scale vanadium-based liquid batteries in which chemical vanadium bonds alternately pick up and emit electrons along membranes. Because these batteries use only vanadium bonds and not two different fluids at the same time as found in other systems, impurities are eliminated. “This makes it possible to build very robust and durable batteries — a decisive advantage of this battery technology,” emphasizes Dr. Tom Smolinka, in charge of coordinating the work at the Fraunhofer Institute for Solar Energy Systems ISE.

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