Renewable Hydrogen “Gigastack” Monster Rises From UK Seas
Phase 2 of the UK’s Gigastack renewable hydrogen project leaps in scale from a measly 5 megawatts to 100 megawatts all in one fell swoop.
Phase 2 of the UK’s Gigastack renewable hydrogen project leaps in scale from a measly 5 megawatts to 100 megawatts all in one fell swoop.
A neck-and-neck race for renewable hydrogen is taking shape in the US Northeast, with New Hampshire on track for startup this summer.
New $64 million push for renweable hydrogen gives natural gas stakeholders yet another reason to reach for the Alka-Seltzer.
Best friends forever: renewable hydrogen could help provide more bandwidth in the grid for millions of battery EVs due to hit the road in the coming years.
The Midwest Hydrogen and Fuel Cell Coalition has just launched a mission to bring the renewable hydrogen revolution to a cluster of US states which, for reasons unknown, pop up whenever someone mentions America’s heartland, aka Real America. This is a significant development because until now, hydrogen fans have been dancing all around the perimeters of the Midwest without managing to grab a toehold.
This week, Toyota pulled the wraps off the new 2021 Mirai, boasting an impressive 30% increase in range thanks to a new and improved fuel cell stack paired with slightly larger hydrogen storage tanks. The new tanks have a total of 122.4 liters of volume and can hold about 5 kilograms of hydrogen when full.
Australia is the epicenter of a race between renewable hydrogen and coal to push natural gas out of the powerful global ammonia market.
Natural gas is beginning to feel the heat from a new building electrification campaign, and now here comes renewable hydrogen piling on.
Japan has emerged as a hotspot for the zero emission hydrogen economy of the future. However, the green dream is only as real as the feedstock, and Japan is also moving forward with a major new coal-to-H2 project in concert with Australia. That could help keep the global coal industry afloat — unless, of course renewable resources can ramp up on a competitive basis.
Researchers at Stanford and TUM claim excess renewable energy could be used to make zero-emissions hydrogen at a profit in the right circumstances. They expect the process will get less costly once the technology ramps up.