Current Status and Future Prospects of Stationary Fuel Cells in the 2014 Edition: Power to Gas
Overview of the "Power to Gas" project for surplus electricity storage technology.
An overview of the Power to Gas project, a hydrogen conversion technology that plays a significant role in the large-scale introduction of renewable energy and the storage of surplus electricity.
Inquire About This Product
basic information
Centered around Germany, the "Power to Gas project" integrates the entire concept of storing surplus electricity generated from renewable energy sources such as solar and wind power by injecting hydrogen and methane gas produced through water electrolysis into the natural gas grid, achieving large-capacity and long-term energy storage.
Price information
92,500 yen + consumption tax. With CD attachment, it is 110,000 yen + consumption tax.
Price range
P2
Delivery Time
P3
Applications/Examples of results
Water electrolysis (alkaline type, PEM type)
Company information
- Research on the industrial gas turbine market - Research on the decentralized power generation system market for systems below 300 kW - Research on the home power generation system market - Research on the standby power generation and cogeneration market - Research on solid polymer fuel cells (PEFC) - Research on the small engine application products market - Research on distributed power sources, mobile power sources, and emergency power sources - Research on energy demand in small facilities - Research on micro gas turbines - Research on byproduct hydrogen production - Research on wood-based biomass - Research on methane fermentation of food waste, etc. - Research on magnesium molding (thixotropic, die casting, press) market - Research on the automotive aluminum parts market - Research on the powder metallurgy market and metal powder injection molding (MIM) - Research on the precision casting (lost wax) market - Research on the forging market - Research on the die casting and aluminum casting market - Research on the press forming market - Research on fine carbon and carbon fibers
