Record #245044 - GSI Repository

Nano-Edison

Nanotechnology for Advanced Battery Energy Storage Systems

Grant period	2020-10-01 - 2023-09-30
Funding body	European Union
Call number	H2020-EIC-SMEInst-2018-2020-4
Grant number	101009493
Identifier	G:(EU-Grant)101009493

Note: Energy storage is an increasingly challenge as power distribution evolves to a more decentralized model with progressively higher shares of renewable energies (RE). Battery energy storage systems (BESS) are emerging as potential solutions to increase system reliability, due to their unique capability to absorb, hold and reinject electricity, as well as offer ancillary grid services. However, mature BEES technologies (e.g.; lead-acid, sodium-based and lithium ion) are still expensive, have limited lifespans and carry inherent risks. By applying nanotechnology, Greenvolt has developed Nano-Edison, a disruptive BESS that meets all the performance and criteria to couple with RE mini-grids of commercial, industrial and residential customers. Nano-Edison solution replaces the iron and nickel solid plates of the traditional Edison battery by Fe and Ni nanomaterials, retaining all original advantages (robustness, durability and safety attributes), while solves the associated downsides (manufacturing costs, low efficiency, high size and excessive weight). Compared to other alternatives, Nano-Edison offers an improved durability (+20,000 cycles), environmentally safe performance (no flammable, no acid, non-toxic metals) and the lowest production costs in the market (87 €/kWh vs. 350 €/kWh for Li-ion). Our developed and patented method for producing quality nanomaterials ensure a solid commercial proposition, that Greenvolt will monetise by licensee fees (≈300 k€/year), royalty fees (0.5% on sales) and nanoparticles supplying (89 €/kg) to large battery manufacturer partners. We expect that Nano-Edison unique selling point will enable a profitable business model that will boost the growth of Greenvolt with 5-year accumulated profits surpassing 40 M€, ROI of 8 and the creation of +56 new positions. Likewise, by providing more efficient and cost-competitive BESS, Nano-Edison will help society to make a better use of variable and decentralised renewable energy sources.

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Record created 2021-10-10, last modified 2023-02-08

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