Graforce plasma electrolysis plants (here a plant in Berlin) produce green hydrogen from methane, wastewater, liquid manure or ammonia. Whereas water electrolysis needs 50kWh/kg H2, the production of 1kg hydrogen from methane takes only 10kWh or 20kWh from wastewater. Image Credit: Graforce
Green hydrogen is projected to have a game changing impact in the mobility, industry, and decentralized energy segments. It plays an important role in meeting global climate goals. The global hydrogen market is forecast to grow by a factor of 6 by 2050. Germany makes up 20 percent of the current European hydrogen consumption and is also forecast to remain the largest hydrogen off-take market in the EU, driven by strong decarbonization commitments across sectors.
The production of hydrogen using plasma electrolysis requires considerably less energy than water electrolysis and leads to significant cost reductions. Whereas water electrolysis needs 50kWh/kg H2, the production of 1kg hydrogen from methane takes only 10kWh or 20kWh from wastewater.
“Whether as fuel, heat source or a raw material, green hydrogen can make a significant contribution to achieving climate targets in many industries,” explains Dr. Jens Hanke. “Our plants produce green hydrogen from methane, wastewater, liquid manure or ammonia. We thus close energy and material cycles and make a significant contribution to a future without fossil fuels and CO2 emissions. And we deliver this quickly and cost-effectively."
For the development and customer-specific scaling of its modular plants, Graforce works with global leaders in the fields of engineering, procurement, and construction. The company is currently in the process of expanding its strategic partnerships with financial as well as strategic investors to quickly scale its technology worldwide.
