>The implication that this technology is being developed or supported primarily by the fossil fuel industry is a completely fabricated conspiracy theory.

Are you kidding me?

First, you missed the point. The fossil fuel industry is quite happy to use the current technology for creating hydrogen. They don't care about *or want* green hydrogen. The point is to dangle the idea of green hydrogen in front of us, and once we have committed to hydrogen, then keep us on the hook with cheaper gray and blue hydrogen.

Second, are you honestly expecting an industry making billions *per day* to simply roll over and die? *Of course* they are going to fight back, hard. What would *you* be willing to do for even "just" $1 billion? Even if they can stall people for just a single day, that is how much more money they can make.

Third, who else has the incentive *and* the money to really push something like hydrogen?

Fourth, how are *you* planning to fight them? Once we are on the hook for hydrogen, they will be the ones paying the politicians. You can scream and cry about how this was supposed to be about green hydrogen, but the simple truth is that they have all the levers. You are simply a tool for them right now to avoid being shoved completely out of power. The moment they have successfully positioned hydrogen as the replacement, your services will no longer be needed or wanted.

This is do-or-die for the fossil fuel industry. They know their days are numbered. That is why they are fighting several rear-guard actions at once while desperately looking for a way to keep us depending on them.

I'm not strictly against hydrogen, but we should not allow a single atom to be used until two things happen:

1. Practical green hydrogen exists on something besides paper
2. Airtight and near-impossible-to-roll-back legislation to ban all hydrogen production *except* green hydrogen have been implemented.

I have some hope for the first one, although the current state of things probably means we are at least 20 years out from having it solved. We are not really close to a lab solution yet, so we probably need 10 years of research to make it practical. This is an outsider's perspective, so I will be the first to admit it's merely an educated guess. Then it will take about 10 years to get the real production lines set up *if we are fast*. So 20 years. But at least it's doable.

I have serious reservations about the second point. I do not trust any government to be able to resist Big Oil kinda money.

So no, this is not "fabricated". It was and is a logical and obvious continuation to ensure the dominance of the existing players.

Methane reformation has already been scaled, and Big Oil doesn’t even need to conspire for the bait and switch to work. As always, the accountants will do the work for them.

All true, but I still don't think hydrogen makes the leap. I wouldn't mind if it did, but the use cases won't stack well against some of the upcoming battery technologies. Much cheaper, higher energy density, more rapid charge and discharge ability, and no toxic chemicals...

Don't misunderstand me: I get hydrogen has a lot of benefits. I just don't think it comes to pass.

Just as an addon: gas is way way way more expensive in Europe, Spot market prices are about triple of what you listed for the us, even before the war.

So gree hydrogen has already broken even here, and there are several agreements in place to generate green hydrogen in spain, tunesia,... And send it to northern Europe per pipeline.

That's where carbon taxes may drive the development in the right direction. We need zero carbon emissions, not a discussion on which color may be fancier or generate more revenues. Zero carbon or nothing.

It will always be cheaper to make hydrogen from methane than electricity; until the entire grid is renewable.

Then it will still be cheaper because some fraction of the energy required can come from the methane.

The efficiency of electrolysis is dependent on the quality of the equipment and water. Fresh water costs more than oil and that will not change anytime soon.

I also work at a similar company, specifically developing green electrolyzers, and we're also just driven (and have been for over a decade) by the idea that we can give a better world to future generations. It's a nice conspiracy theory but from the inside, I can assure you it's just not true.

They also destroy that metal.

And you’re back to using methane reformation but with more steps.

Extracted petro-methane is going to be cheaper always.

Have you done the math to see how much electricity it would take? How many windmills and solar panels? Also what happens when the sun sets or the wind calms down.

You must not have a job or need to do much more than commute a couple miles. I might think an EV is OK for short trips around town, but it doesn't work for real work that requires long distance and hauling.

You forget nuke. Seems like building on a strong base is a better plan. Solar / wind can never be base. Battery tech is dirty in the supply chain.

Aviation might actually make hydrogen work, doubt the battery tech is going to solve for larger applications.

Being blinded by anti-oil bias is going to result in suboptimal solutions.

Absolutely not true! Hydrogen has way more capabilities to scale as innovation continues to bring prices down and safety increases. Just in 2021 alone, progress has been made in transport and storage. Saltwater to Hydrogen. Hydrocarbons to Hydrogen. Nuclear to Hydrogen. Ammonia as a carrier. Petro is a finite resource that is not clean and not scalable in the long term. Major players are starting to explore Hydrogen. So this is not a post petro movement. Not in the least. https://www.cnbc.com/2022/07/07/shell-to-build-europes-largest-renewable-hydrogen-plant.html........https://www.msn.com/en-us/autos/news/toyota-s-upcoming-hydrogen-powered-5-0-v-8-engine-has-the-potential-to-bury-evs/ar-AA15Q9mq?ocid=msedgdhp&pc=U531&cvid=7ddaeecdb9e647c8c57262dc64bf250b. Oh I can't imagine how many buggy whip manufacturers called the horseless carriage a boondoggle in the late 19th century.

Exactly: We need the h2 for processes where it's irreplaceable. Burning it for transportation tasks is a pure waste. That's like using drinking water for pools during a drought.

And no, I don't think solving the fundamental problems of h2 tech is a matter of research. Let alone take this: H2 is terrible to store. There are ways to circumvent this, such as storing it in a solution, but that again lowers the efficiency. And h2 storage is a really old problem; like 100+ years. It is very unlikely that this would be solved all of a sudden. And storage is just one of many problems.

H2 cars received more funding until the mid 2000s than BEVs. The ICE car industry kept showcasing them, knowing they would never be a danger for their core business - while receiving state subsidies to research a dead-end tech. Without Tesla, we'd still hear "in 20 years, we'll all drive using h2 cars".

Edit: sorry to bring up cars. But even for storing energy, h2 is a poor choice.

As long as the concentration isn't high enough to be flammable, it's fine. It will semiquickly react with oxygen in the atmosphere, forming water.

The euroweek article claims that hydrogen leaks change relative concentrations of other gases in the atmosphere and this somehow has a net heating effect. I'm sorry, I'm not the right person. They might have a point. Someone more knowledgeable will have to chime in.

Another very problematic byproduct of electrolysis is brine. Handled improperly, brine disposal on an industrial scale could devastate entire ecosystems. That would include large ocean biomes. Responsible brine disposal is expensive, so will big industry do the right thing? Answer is no. That's not what this article is about, though.