The partners from the GreenHyScale project enter grant agreement preparation phase for the first of its kind 100 MW electrolysis project
In connection to the EU Green Deal 2.2 funding call, the consortium partners are currently in preparation of the Grant Agreement with CINEA [PA(1] for the first of its kind 100 MW electrolyser project.
The project will demonstrate a minimum 100 MW of green electrolysis based on a novel multi-MW-range alkaline electrolyser platform delivered by Green Hydrogen Systems and installed at GreenLab Skive: a symbiotic, industrial Power-to-X platform. The grant has a budget contribution of 30m Euro.
The objective of the GreenHyScale project is to pave the way for large scale deployment of electrolysis both onshore and offshore, in line with the EU hydrogen strategy and offshore renewable energy strategy.
A 6 MW module fitting into a 40-foot container will be demonstrated as the first step in the project, and lead to a minimum 100 MW electrolysis plant, if criteria in a Go/No-go milestone are fulfilled.
“Being part of this ambitious project, GreenLab will be able to demonstrate our unique platform ability and to further enhance it towards scaling and replication of other sites.
The preparation work is already well under way, and GreenLab is currently gaining experience from the ongoing 24MW electrolyser installation, which will be very valuable for the success of this 100MW project", says Anders Bøje Larsen, Chief Technology Officer at GreenLab.
The 100 MW electrolysis plant will generate green hydrogen from directly connected renewables in combination
with certified green electricity from a TSO grid connection. Waste heat will be used on-site and in connection with district heating.
GreenLab Skive distributes green electricity from both wind and solar sources through its unique SymbiosisNet, which optimises and exchanges energy in all forms (heat, gas, water, heat) between the industrial park entities, external suppliers and off-takers.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101036935
