Under the header of Redox-Wind task, ICT has been creating a large-scale redox-flow battery pack. The aim is to use the battery to store wind energy. The 2 MW power and 20 MWh capacity electric battery can supply the electric power needs of your village for up to ten several hours. An industrialized hall at the testing facility in Pfinztal, Baden-Württemberg properties 45, 000 liter reservoirs to preserve energy in liquid electrolytes.
The tanks have been waiting around patiently for the entrance of the custom-build breeze turbine. The ICT researchers, however, are less patient. They’ve been planning the project for a long time. Now, finally, large trucks have recently been arriving at the center to deliver the components of the 2 MW wind turbine. As soon as the generator with its 82 meters rotor diameter has recently been erected, they can finally get their hands on the real thing.
Professional Size is the missing hyperlink in the transition to renewable energy. It is the necessary aspect of incorporate intermittent sources like wind flow and solar in the main grid at a huge scale. With the Redox-Wind project, ICT is building a generator-storage unit that can chip in to balancing power era and demand, or function as a stand-alone device in remote areas.
The aim of Redox-Wind project is twofold: to scale-up redox-flow power supply technology so that it can be created at a professional scale. And, secondly, to tweak the wind turbine to find the optimal mode of procedure for the battery packs. The battery will be linked right to the more advanced DC circuit of the turbine. In comparison to a main grid connection, this direct interconnection eliminates the advantages of an additional conversion step in power transfer, and reduces the investment costs needed for the alteration technology.