Hydrogen moves from the back of the lab to the star of the show
Hydrogen — the magical gas that Jules Verne predicted in 1874 would one day be used as fuel — has long struggled to get the attention it deserves. Discovered 400 years ago, its trajectory has seen it mostly mired in obscurity, punctuated by a few explosive moments, but never really fulfilling its potential.
Now in 2021, the world may be ready for hydrogen.
This gas is capturing the attention of governments and private sector players, fueled by new tech, global green energy legislation, post-pandemic “green recovery” schemes and the growing consensus that action must be taken to combat climate change.
Joan Ogden, professor emeritus at UC Davis, started researching hydrogen in 1985 — at the time considered “pretty fringy, crazy stuff”. She’s seen industries and governments inquisitively poke at hydrogen over the years, then move on. This new, more intense focus feels different, she said.
The funding activity in France is one illustration of what is happening throughout Europe and beyond. “Back in 2018, the hydrogen strategy in France was €100 million — a joke,” Sabrine Skiker, the EU policy manager for land transport at Hydrogen Europe, said in an interview with TechCrunch. “I mean, a joke compared to what we have now. Now we have a strategy that foresees €7.2 billion.”
The European Clean Hydrogen Alliance forecasts public and private sectors will invest €430 billion in hydrogen in the continent by 2030 in a massive push to meet emissions targets. Globally, the hydrogen generation industry is expected to grow to $201 billion by 2025 from $130 billion in 2020 at a CAGR of 9.2%, according to research from Markets and Markets published this year. This growth is expected to lead to advancements across multiple sectors including transportation, petroleum refining, steel manufacturing and fertilizer production. There are 228 large-scale hydrogen projects in various stages of development today — mostly in Europe, Asia and Australia.
Hydrogen breakdown
When the word “hydrogen” is uttered today, the average non-insider’s mind likely gravitates toward transportation — cars, buses, maybe trains or 18-wheelers, all powered by the gas.
But hydrogen is and does a lot of things, and a better understanding of its other roles — and challenges within those roles — is necessary to its success in transportation.
Hydrogen is already being heavily used in petroleum refineries and by manufacturers of steel, chemicals, ammonia fertilizers and biofuels. It’s also blended into natural gas for delivery through pipelines.
Hydrogen is not an energy source, but an energy carrier — one with exceptional long-duration energy storage capabilities, which makes it a complement to weather-dependent energies like solar and wind. Storage is critical to the growth of renewable energy, and greater use of hydrogen in renewable energy storage can drive the cost of both down.
However, 95% of hydrogen produced is derived from fossil fuels — mostly through a process called steam methane reforming (SMR). Little of it is produced via electrolysis, which uses electricity to split hydrogen and oxygen. Even less is created from renewable energy. Thus, not all hydrogen is created equal. Grey hydrogen is made from fossil fuels with emissions, and blue hydrogen is made from non-renewable sources whose carbon emissions are captured and sequestered or transformed. Green hydrogen is made from renewable energy.
Where the action is
The global fuel cell vehicle market is hit or miss. There are about 10,000 FCVs in the U.S., with most of them in California — and sales are stalling. Only 937 FCVs were sold in the entire country in 2020, less than half the number sold in 2019. California has 44 hydrogen refueling stations and about as many in the works, but a lack of refueling infrastructure outside of the state isn’t helping American adoption.