Solar energy used to produce hydrogen fuel in Germany
German researchers tap into solar power to produce hydrogen fuel A team of researchers from Germany's Helmholtz Association and TU Delft University of Technology have made a significant breakthrough concerning hydrogen fuel production. As hydrogen fuel gains popularity around the world through various industries, the need for better production methods is becoming more apparent. Conventional hydrogen fuel production methods are falling short of rising demand and have been receiving harsh criticism for their use of natural gas and other fossil-fuels. The team of researchers has found a way to p…
German researchers tap into solar power to produce hydrogen fuel
A team of researchers from Germany's Helmholtz Association and TU Delft University of Technology have made a significant breakthrough concerning hydrogen fuel production. As hydrogen fuel gains popularity around the world through various industries, the need for better production methods is becoming more apparent. Conventional hydrogen fuel production methods are falling short of rising demand and have been receiving harsh criticism for their use of natural gas and other fossil-fuels. The team of researchers has found a way to produce large quantities of hydrogen gas, and renewable energy is the key to the process.Fuel cell designed to harness the power of the sun
The team has tapped into solar energy in order to produce hydrogen fuel. While this is not a new concept, the research team has managed to make a major breakthrough in the efficiency of the process and the amount of hydrogen that can be produced. The team has developed a kind of fuel cell that is equipped with a photovoltaic anode made of bismuth vanadate. The fuel cell makes use of a cobalt phosphate catalyst instead of a conventional platinum catalyst, effectively reducing its cost by a significant margin. According to researchers, the fuel cell is able to store approximately 5% of the solar energy it collects as hydrogen fuel. This hydrogen can then be used on demand for electrical power.