The surprising resurgence of hydrogen fuel
Jorgo Chatzimarkakis was refueling his hydrogen fuel-cell car at one of the 50-plus refueling stations scattered around Germany when a Tesla driver, who was recharging his own car, approached.
The man was excited to see a hydrogen-powered car in action, and was brimming with questions. Chatzimarkakis, who is secretary general of Hydrogen Europe, was happy to answer them, and the two talked for several minutes.
But by then, the hydrogen car was fully refueled, while the Tesla driver still faced a long wait while his battery recharged.
“This is reality,” says Chatzimarkakis. “Nowadays the fueling stations are ready, the car is ready, I can plan my trip from Switzerland to Denmark and into Norway without any problems.”[..]
Perhaps, finally, hydrogen’s moment has arrived. [..] Germany has launched the world’s first hydrogen-powered trains to complement a growing number of hydrogen refueling stations across the country. Switzerland is purchasing 1,000 hydrogen-powered trucks, Norway has had hydrogen refueling stations since 2006, and South Korea is investing US$2.33 billion over the next five years to create hydrogen refueling stations, fuel-cell vehicle plants, fuel-cell buses and hydrogen storage systems. And Australia has seen both its national science agency CSIRO and chief scientist Alan Finkel separately report their visions for a hydrogen-powered nation and export industry.[..]
So what has changed to finally bring hydrogen to the forefront of global energy plans? Jenny Hayward, senior research scientist at CSIRO and co-author of its 2018 National Hydrogen Roadmap, says more favorable economics have played a significant part.
“You’ve got production coming down in cost, but also you’ve got utilization coming down in cost,” Hayward says. Not only has the price of electricity from solar photovoltaic and wind dramatically decreased, but electrolyzer technologies have also become much cheaper, larger-scale and more efficient. At the same time, hydrogen fuel cells are also improving both in efficiency and cost, she says.[..]
A key issue in using hydrogen for transportation has been storage. It’s only recently become possible to compress hydrogen into a container small enough and lightweight enough to fit in the back of a passenger vehicle, while still containing enough energy to fuel that car to at least 300 miles.
“It was always thought it would be very difficult to get a hydrogen storage that could beat the U.S. Department of Energy targets for use with hydrogen fuel-cell cars,” Andrews says. Then came the development of a high-pressure hydrogen tank made of advanced composites, which were able to meet and even exceed requirements.[..]
Gas companies are also eyeing hydrogen as a potential alternative to natural gas, which could make use of the existing infrastructure.