[theluketaylor]

I'm one of those vocal opponents for hydrogen cars, but I do like the technology in general. I'm a huge fan of hydrogen for agriculture, forestry, and other big applications where grid access is really challenging and even small gaps to recharge are unacceptable. Personal transport just doesn't make the list.

Hydrogen won't ever make sense for personal transportation since the cost of batteries has come down way too far. Green hydrogen under perfect conditions has way too many efficiency penalties to compete with pure battery vehicles, so the cost per unit distance just won't ever make sense compared to the tiny losses for batteries.

I don't even care that much if companies like Toyota want to waste their development dollars on personal hydrogen transport that won't ever happen. I just want to make sure subsidy dollars are spent correctly. Use government money on decarbonizing farms and long distance heavy transport with hydrogen. Don't waste that money on cars that will always be too expensive to operate compared with BEVs.

[_hypx]

That’s absurd. Hydrogen cars will drop to costs comparable to ICE cars. It is a massive reduction in raw material needs. Not to mention the millions of people who need fast public refueling since they do not have access to home chargers.

People are stuck in an innovation trap with BEVs. It is pretty much what Clay Christensen wrote about in his book Innovator’s Dilemma. You cannot just linearly improve a single idea until it surpasses all other ideas, now and forever. Especially one that has many limits as BEVs. It is inevitable that there will be step functions in change, i.e. disruptive changes, coming to the market. Forward thinking companies will plan for that inevitability, not pretend BEVs are the final destination of personal transportation.

The world has already squandered billions of dollars on every kind of green technology. That could easily imply BEVs themselves. It is the biggest of double standards to not insist on hydrogen subsidies. If you truly oppose the idea, then oppose all subsidies for all green energy. If not, then accept hydrogen subsidies as a good idea.

[theluketaylor]

There was a time 150 years ago national grids didn't even exist as a concept. Now you're never more than 10 ft from a plug at any given moment when inside a city. A current lack of places to charge is easy to build out of.

I'm for hydrogen subsidies, just not for personal transport. Use the money for heavy transport, agriculture, and forestry. If that also happens to make fuel cells cheaper all around and changes the economics of fuel cell vehicles, that's fine, just don't subsidize hydrogen personal cars directly because it's deeply unlikely they will ever be more than a curiosity.

Thermodynamics means green hydrogen always has to pay the round trip conversion loss, so it will always be more expensive than raw electricity. I do agree there is opportunity to soak up excess renewable generation with hydrogen, but if you're right about hydrogen demand that won't ever affect the price more than a few %. Raw, direct electricity use will always be cheaper, so people will figure out ways to make that arbitrage work for them in ways other than hydrogen storage.

The lack of losses with batteries will mean there is a huge incentive to shoehorn them into anything where it possibly makes sense. That doesn't necessarily mean current lithium chemistry and that's where your innovation will come from.

[_hypx]

The grid was not designed for everyone to charge large BEVs with them. Nor are there DC fast chargers on every block. And I’m not sure what 150 years ago had to do with anything. Today, we will build whatever infrastructure will allow for cheap transportation. Which technically is mass transit, but because of other factors we chose a much more expensive route with cars. But if we insist on having cars, it makes more sense to have a system that allows for rapid refueling all the time. That will enable everyone to have a single refueling system. So basically the gas station model, which implies hydrogen cars as the future.

Again, hydrogen cars can be as cheap as ICE cars to manufacture. Your argument here is pure shortsightedness and is insisting on a double standards. What was the cost of BEVs when they first came out? It took subsidies to drive cost down in the early days. Same is true for hydrogen cars. As mass production expands, hydrogen cars will get cheaper until they are cheaper than BEVs.

You do not understand the thermodynamics of the subject matter. Again, electrolyzers/fuel cells are an electrochemical systems. It basically doesn’t have “thermal-dynamics”. Theoretical efficiency is the same as li-ion batteries. A fuel cell car is effectively the equivalent of a battery car whose battery is made from water. Although there are practical issues to deal with in reality, so this isn’t totally the case, but it is much closer to being true than what you’re imagining.

If you can understand that electrolyzers/fuel cells are functionally the same thing as li-ion batteries, and are subject to the same basic physics, then the real conclusion is to replace li-ion batteries with hydrogen systems wherever possible. After all, if the long-term level of efficiency will be parity between the two, then why insist on the one that is much more resource dependent?

[theluketaylor]

I have no issues with the efficiency of fuel cells. It's the overall efficiency of producing hydrogen in the first place. The "well-to-wheel" efficiency (though with green hydrogen there isn't an actual well). It's very energy intensive to create green hydrogen, far more so than charging a battery. Losses on green hydrogen are 50-60% of total energy used compared to <5% on a battery. That's a huge energy deficit to overcome that will always result in an opex difference. That's why I'm bearish on hydrogen for personal transport, but bullish on it for things like very long distance trains and farm use.

[_hypx]

The whole wells-to-wheels efficiency is theoretically the same as doing it with a li-ion battery. The whole process is electrochemical. So there's no hard rule why this can't be as efficient as batteries.

This also ignores the realities of renewable energy. The first thing to point out is that renewable energy is terribly inefficient. Solar panels are only 20% efficient and have terrible load factors. And even then, you'll lose most of it without energy storage. As it turns out, a hypothetical system with just renewable energy and li-ion batteries is actually wasting a lot of energy. These problems shrink dramatically with hydrogen since you now have a huge amount of available energy storage. In fact, you can't even reach 100% zero emissions without hydrogen, since long periods of low sunlight and wind occur fairly often, requiring a backup energy source.

Long story short, the efficiency argument is just FUD. People who promote it have no idea what the realities of energy production will actually look like. It's just something people say to block innovation or maintain the status quo.

[theluketaylor]

Your statements conflate a number of unrelated elements. Solar panels not converting 100% of the sunlight that hits them has no impact on the "well to wheel" number for either batteries or hydrogen.

Right now it takes ~53kWh to make 1 kg of h2, which stores ~34 kWh of energy. Right away a fuel cell vehicle operator needs to pay for an additional 20 kWh of energy for every kg of h2 before they can move an inch. Toyota Mirai consumes about 0.8 kg/100 km, so those 53 kWh of energy move the car about 125 km. That's 42 kWh/100km. My Model 3 SR+ recently consumed 35 kWh to travel 258 km or about 14 kWh/100km. The Mirai takes 3 times as much energy to move as I used on a recent trip. That efficiency gap is a gulf; no matter how cheap creating and distributing hydrogen gets it will always use a lot more power than just putting that power in a battery. I agree hydrogen has a place in the economy, but only where batteries are too large/heavy for the application or the grid is too far away.

[frumper]

Charging my car doesn't require more than my A/C, or oven, or clothes dryer. Good thing my car charges overnight, when I'm not drying clothes or cooking, and my A/C does quite a bit less work.

> it makes more sense to have a system that allows for rapid refueling all the time

I don't need that. That is a very rare need for me, and it's so infrequent that I'm ok with it taking a little longer than a gas pump.

[imchillyb]

> ...I don't need that. That is a very rare need for me, and it's so infrequent that I'm ok with it taking a little longer than a gas pump.

"Time is money friend!"

Emergency services, law enforcement, delivery services, long-range transport services, etc... all require rapid refueling. Each and every one.

Your single use case does not a society make.

[frumper]

And those are a tiny fraction of the cars on the road. Even then, there are police departments and delivery services using electric vehicles. I don't advocate 100% removal of ICE cars. A variety of solutions will likely be needed.

[_aavaa_]

Time is money is great when you’ve waiting at the hydrogen refueling stating for the chillers to be ready again after the person in front of you just used them.