Orsted, SGRE Consortium Receives Funding to Investigate Offshore Hydrogen Production Updated On Tue, Jan 12th, 2021 by Saurenergy ITM Power, Ørsted, Siemens Gamesa Renewable Energy, and Element Energy have been awarded EUR 5 million in funding from The Fuel Cells and Hydrogen Joint Undertaking (FCH2-JU) under the European Commission to demonstrate and investigate a combined wind turbine and electrolyser system designed for operation in marine environments. The Fuel Cells and Hydrogen 2 Joint […] Read more
South Korea’s SK Group Invest $1.5 Billion in Hydrogen Player Plug Power Updated On Fri, Jan 8th, 2021 by Saurenergy Plug Power and SK Group intend to form a strategic partnership to accelerate hydrogen as an alternative energy source in Asian markets. Plug Power, a leading provider of hydrogen fuel cell and fueling solutions enabling e-mobility, and SK Group, one of the leading South Korean business groups, has announced that the companies intend to form […] Read more
Making Green Hydrogen a Cost-Competitive Climate Solution Updated On Fri, Dec 18th, 2020 by Saurenergy As global economies turn increasingly carbon neutral, IRENA drives hydrogen agenda and sees renewable hydrogen at least cost possible within decade Hydrogen produced with renewable electricity could compete on costs with fossil fuel alternatives by 2030, according to a new report from the International Renewable Energy Agency (IRENA) published today. A combination of falling costs for […] Read more
Demand for Hydrogen in India can Grow 5-Fold by 2050: TERI Updated On Thu, Dec 17th, 2020 by Saurenergy A new report by The Energy and Resources Institute (TERI) suggests that the demand for hydrogen in India can grow 5-fold by 2050. The demand for hydrogen in India can grow five-fold by 2050. Further, by 2030, the costs of “green hydrogen” from renewables will fall more than 50 percent and start to compete with […] Read more
Siemens Energy teams up with Duke Energy, Clemson University to study hydrogen use Updated On Fri, Dec 11th, 2020 by Saurenergy Siemens Energy, Duke Energy and Clemson University have teamed up to study the use of hydrogen for energy storage and as a low- or no-carbon fuel source to produce energy at Duke Energy’s combined heat and power plant at Clemson University in South Carolina. The U.S. Department of Energy announced today that it awarded Siemens Energy a $200,000 grant for the research […] Read more
A Pathway Towards Hydrogen Fuel Cells In Hot, Dry Conditions Updated On Thu, Dec 10th, 2020 by Saurenergy A research team formed in collaboration with Los Alamos National Laboratory, USA; University of Stuttgart, Germany; University of New Mexico, USA; and Sandia National Laboratories, USA have developed a proton conductor for fuel cells based on polystyrene phosphonic acids that maintain high protonic conductivity up to 200o C without water. As we already know that […] Read more
Siemens Gamesa to Produce 100 Percent Green Hydrogen for Decarbonizing the Polluting Industries Updated On Wed, Dec 9th, 2020 by Saurenergy In the crucial times of Climate Change, the world is trying to fight it by lowering carbon emissions. This economic decarbonization could be done by eliminating carbon-neutral fuels in transport sectors and polluting industries. In the Wind and Power industry, Siemens Gamesa is all set to bring the Brande Hydrogen pilot project, which will produce […] Read more
Investment in Green Hydrogen to Exceed USD 1 Billion by 2023: IHS Markit Updated On Mon, Dec 7th, 2020 by Saurenergy According to the Information Handling Service Markit (IHS), London, the Annual global investments in Green Hydrogen (hydrogen production powered by renewable sources) are now expected to exceed USD 1billion by 2023. IHS released news on 3rd December 2020 stating that the increased investment is possibly connected to the falling costs and policy support from governments, […] Read more
How a Butterfly has Helped in Making an Upgraded Hydrogen Sensor? Updated On Thu, Dec 3rd, 2020 by Saurenergy Inspired by the surface of butterfly wings, a new light-activated hydrogen sensor produces ultra-precise results at room temperature. Inspired by the surface of butterfly wings, researchers from RMIT University in Melbourne, Australia have developed a light-activated hydrogen sensor that produces ultra-precise results at room temperature. This technology can detect hydrogen leaks well before the safety […] Read more
