The efficiency of electricity is also more hype than reality. If it is coming from fossil fuel power plants, it is not notably more efficient nor green. If it is from renewable energy, then you need to solve the problem of energy storage, which ironically is most easily solved via hydrogen. Nevermind the fact that you have to deal with the upfront energy needed for battery production, undermining the argument in a big way.
And of course, nothing is more efficient than not driving at all. Mass transit and walkable neighborhoods should be the main goal of green transportation. Cars are mostly a distraction and should not be emphasized. We only tolerate them because not every transportation problem can be solved in that way. They are the fallback solution.
As a fallback solution, hydrogen cars make a lot of sense, especially for those who can't justify an EV. Certainly more sensible than demanding only EVs for all cars.
Here's an illustrative quote:
"By now everyone should have managed to get their head around the fundamental inefficiency of turning electricity into hydrogen, compressing it, storing it, moving it around and then converting it back into power on board a vehicle. Somewhere between half and three quarters of the input power is wasted, and this is not going to change much - there are fundamental thermodynamic constraints. Not only that, but the H2FC vehicles are also much more complicated so they have higher maintenance costs, and although hydrogen can be safely handled, you really don't want it in every garage and workshop. You can forget use cases like urban delivery, two and three wheelers, metro trains and buses."
[0] https://www.linkedin.com/pulse/clean-hydrogen-ladder-v40-mic...
In reality, batteries are not sustainable and need vast amounts of raw materials to exist. Hydrogen vehicles lets you avoid this. That is a fundamental and unbreakable advantage.
Also, a fuel cell is an electrochemical system. Meaning fuel cell cars are EVs too. The notion that somehow this is an impossible technology, or even one that has any meaningful limitations compared to any other kind of EV is entirely a lie.
Equipment to handle fluid at atmospheric pressure is very different from that which handles high pressure gas/fluid.
You'd have to replace the underground tanks, all of the associate plumbing, and the pumps on the surface. That's going to cost just as much as building the gas station in the first place.
That's assuming you're trucking in liquid hydrogen. If you want to put it in underground pipes, you're going to have an even worse time. You need heavily insulated pipes running at extreme pressures. Those pipes also need special coatings to prevent the hydrogen atoms from leaking out.
This is far from a simple case of "just reuse gas stations". Hydrogen presents an order of magnitude more problems than gasoline. Gasoline's main benefit is that it's pretty stable at room temperature and atmospheric pressure. It's easy to handle and store, and vanishes into the air at a much slower rate.
