A hydrogen molecule is tiny. So tiny, in fact, that trying to store and transport it via existing tanks and pipes can end up causing cracks in steel. If hydrogen is to become a clean fuel of the future, urgent technological solutions are needed to keep it in place and move it at will.
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Enter H2SITE, a Spanish startup, that promises to do just that. It’s secured 12.5 million euros ($13.23 million) in investments from Bill Gates-led Breakthrough Energy Ventures, French utility Engie SA and Norwegian oil giant Equinor ASA.
While there are existing methods to store and transport hydrogen, they can be prohibitively expensive, especially compared to moving around its carbonaceous cousin natural gas. H2SITE says that transporting hydrogen could cost as much as three times the cost of hydrogen production. The startup offers to provide that service at a fraction of a cost, if its technology can scale.
There are two modes in which H2SITE’s technology works. First is to use existing natural-gas pipelines to move hydrogen from where it’s produced to where it is consumed. These pipes can carry about 30% hydrogen when mixed with natural gas. The idea is that diluted hydrogen will be less corrosive on existing steel infrastructure. Freshly produced hydrogen is injected into a pipeline containing natural gas, close to where hydrogen is made, and then recovered using H2SITE’s filter where it needs to be consumed.
“It’s like being able to separate a great Bordeaux wine after it’s mixed with a common wine,” said Sebastien Arbola, executive vice president at Engie.
No sieve in the world can filter out hydrogen (or separate a Bordeaux from supermarket wine). So H2SITE makes use of some clever chemistry that exploits hydrogen’s liking for certain metals such as palladium. Under the right conditions of heat and pressure, a hydrogen atom on the surface of a palladium alloy can split apart and reform when the temperature and pressure are lower. That means H2SITE can filter hydrogen at 99.9% purity from a pipe carrying between 5% and 30% hydrogen with the rest being natural gas.
That’s not all. If it’s not pipes, hydrogen (H₂) is likely to be moved around in ships — not as itself but trapped within ammonia (NH₃) or methanol (CH₃OH). That’s because ammonia can be easily turned into a liquid and methanol is already a liquid. There are currently projects being developed in countries like Australia that have plenty of space for solar and wind farms where hydrogen is produced, converted to ammonia, moved on ships, and then hydrogen is recovered by undoing the chemical reaction.
Read the full article here by Akshat Rathi, Advisor Perspectives.