Dozens of Californians are part of a class action lawsuit filed in July against Toyota. They claim the carmaker's salespeople misled them about the state's unreliable hydrogen refueling infrastructure.
You have inverted reality here. It is much easier to transport hydrogen long distances versus electricity. Pipelines are cheaper than HVDC cables. You can actually ship hydrogen across oceans if necessary. It is electricity that has to be made locally, but hydrogen can made anywhere it is cost effective.
Hydrogen gas will leak though steel since the molecule is so small while making it brittle and incapable of handling pressure through hydrogen entitlement. It’s not trivial to ship. Power lines are cheap and transport extremely high power density.
Only for certain types of steel. And there are many materials that are impermeable to hydrogen. This is mostly a marketing argument rather than one based on fact. Pipelines are far cheaper and send far more energy than high voltage wires.
So why not send hydrogen from a production location to (essentially) an electrical sub-station where it can generate power that can be used to charge electric vehicles. Why does a gas that burns invisibly need to be involved in transportation?
That’s just an indirect way of power a car via hydrogen. Sure, it can work. But it just implies that having cars directly powered by hydrogen are the better idea.
We already have electric infrastructure everywhere but not hydrogen infrastructure. It would be far cheaper and easier to use hydrogen as a method of bulk clean energy transportation than to directly power vehicles with them.
Plus since there is less surface area from the vastly reduced amount of piping required, you can mitigate evaporative losses through the pipelines.
Your proposal still doesn’t address my safety concern of having a gas that burns near invisibly in passenger and commercial vehicles.
Using hydrogen as a bulk energy carrier will enable the hydrogen infrastructure. Unlike wires, you do not have to physically link it to every home. You can have last-mile solutions like using trucks. You also only need to convert existing fuel stations. So the scale is much lower, and likely much cheaper too.
Hydrogen cars are proving to be safer than gasoline cars. The fuel is lighter than air, so it does not linger like gasoline does. There are no known serious car fires in FCEVs. Even li-ion batteries have the same problem of gasoline, namely that the energy source of the fire stays in place. As a result, many people have died or been injured.
We do not send much electricity over that amount of distance. More than several hundred km, and most conventional wires are cannot send much power through them. For thousands of km, we have to use HVDC, but that is very expensive. In reality, we tend to switch to pipelines instead of wires for long distance energy transfers.
Put it this way, if wires could really send power thousands of km without any hiccups, then why do natural gas pipelines exist in quantity? After all, most of them are just delivering natural gas to a gas turbine to make power. So why not put all the gas turbines in one area, and use wires instead? Because in reality, pipelines are much better at moving energy than wires over long distances.
Quebec’s main line is over 1000km long, extending from northern Quebec all the way to Montreal, from the 54th parallel to the 45th it goes through the tundra and it just works! The longest one in the world is 2500km long.
You know what’s expensive? Transporting a gas that leaks through solids. Current hydrogen production is done in ways that release more emissions than burning burning coal for heating for fuck’s sake! Green hydrogen? You’re taking electricity to produce hydrogen to produce electricity to move cars… Sooooo skip the middle part and use electricity to move cars? Right?
Which is about the upper limit of a reasonable powerline. I’m pretty sure they had to resort to HVDC to get it that long. Note that I did not say it was impossible, only impractical. You lose a lot of energy when it gets very long.
I also know that Quebec is making hydrogen with their hydropower. Clearly, they know something you don’t.
Pipelines go for thousands of km too, and send far more energy with smaller losses than wires. This is due to physics: A pipe is a hollow tube and scales up better the larger the diameter of the tube. Wires do not scale up as well.
A battery car does not “skip the middle part.” It relies on a huge and resource intensive battery to store energy. This is electrochemical energy storage, and works the same way as how a hydrogen car stores energy. As a result, there is no fundamental advantage to using a battery. As costs comes down and as fuel cell technology advances, it is likely that there will be zero or next to zero efficiency advantage for the battery car.
You need to produce the hydrogen, if it’s green one you’re using electricity to do it, there’s losses there (and you’re using rate earth materials for the electrolysis). Then you need to liquify it to transport it, that’s electricity you’re using to bring it to -250°C, there’s more losses here (not even considering the leaks, just energy losses). Then you put in cars where it’s used to make electricity, there’s losses again. Now add up all the costs and think about the cost at the pump compared to…
The alternative is to just take the electricity from the beginning, putting it in batteries to move cars.
With hydrogen you’re using way more electricity to produce the same final output, you’re just wasting a ton of it.
Quebec has the cheapest electricity in North America and it’s still not financially reasonable to use our electricity to produce hydrogen. What ends up happening? Hydrogen for cars comes from the fossil fuel industry.
Where can we use it though? Where batteries aren’t a reasonable solution, that’s heavy transport.
You are not reading my post. The entire set of steps is exactly the same number of steps as charging a battery. Both are electrochemical processes and have similar losses. In theory, we can make a fuel cell that operates just as efficient as a li-ion battery.
The other point is that the process of moving hydrogen around is cheaper than moving energy via electricity. Losses of distribution are similar too. People are forgetting how big and complex the grid is.
How is it the same number of steps? You’re taking from the grid and putting in the car OR you’re taking from the grid, doing electrolysis, liquifying, transporting, storing and now you’re finally putting it in the car.
To transport the hydrogen you’re using tons of energy to liquify it, you still need to transport the electricity to do that, why not simply use the electricity in the cars directly then if you’re going to transport it anyway?
It’s funny because all experts that have a realistic outlook on the subject say the same thing, hydrogen for cars is stupid and inefficient and greewashing.
But hey, continue believing what you want, not as if you had any power over the market and you’ll have to realize at some point that hydrogen cars were just something manufacturers tried to make a thing in order to not have to invest in making EVs.
Because a fuel cell is type of electrochemical device. It is literally a type of battery. So whether you are using a li-ion battery or a fuel cell, you are turning chemical energy into electrical energy. Also, the process of distributing hydrogen is comparable to the grid and has similar losses. The latter of which will see a dramatic reduction in efficiency as more renewable energy go onto the grid. Specifically due to the need for energy storage.
There are no experts saying hydrogen for cars is stupid. You are just hearing a lot of pro-BEV marketing and their fanboys. Of course, some of them pretend to be experts, but they are not.
In the long run, BEVs are going to die off because they are not economical vehicles. They cost far more than conventional cars and require huge amounts of new minerals for the raw materials used to make them. If the goal is just to have an EV, then the answer is a type of EV that does not so much raw material nor cost so much. That leads to ideas like PHEVs or FCEVs.
You have inverted reality here. It is much easier to transport hydrogen long distances versus electricity. Pipelines are cheaper than HVDC cables. You can actually ship hydrogen across oceans if necessary. It is electricity that has to be made locally, but hydrogen can made anywhere it is cost effective.
Hydrogen gas will leak though steel since the molecule is so small while making it brittle and incapable of handling pressure through hydrogen entitlement. It’s not trivial to ship. Power lines are cheap and transport extremely high power density.
Only for certain types of steel. And there are many materials that are impermeable to hydrogen. This is mostly a marketing argument rather than one based on fact. Pipelines are far cheaper and send far more energy than high voltage wires.
So why not send hydrogen from a production location to (essentially) an electrical sub-station where it can generate power that can be used to charge electric vehicles. Why does a gas that burns invisibly need to be involved in transportation?
That’s just an indirect way of power a car via hydrogen. Sure, it can work. But it just implies that having cars directly powered by hydrogen are the better idea.
We already have electric infrastructure everywhere but not hydrogen infrastructure. It would be far cheaper and easier to use hydrogen as a method of bulk clean energy transportation than to directly power vehicles with them.
Plus since there is less surface area from the vastly reduced amount of piping required, you can mitigate evaporative losses through the pipelines.
Your proposal still doesn’t address my safety concern of having a gas that burns near invisibly in passenger and commercial vehicles.
Using hydrogen as a bulk energy carrier will enable the hydrogen infrastructure. Unlike wires, you do not have to physically link it to every home. You can have last-mile solutions like using trucks. You also only need to convert existing fuel stations. So the scale is much lower, and likely much cheaper too.
Hydrogen cars are proving to be safer than gasoline cars. The fuel is lighter than air, so it does not linger like gasoline does. There are no known serious car fires in FCEVs. Even li-ion batteries have the same problem of gasoline, namely that the energy source of the fire stays in place. As a result, many people have died or been injured.
We transport electricity over thousands of kilometers without any hiccups, hydrogen leaks through every-fucking-thing.
We do not send much electricity over that amount of distance. More than several hundred km, and most conventional wires are cannot send much power through them. For thousands of km, we have to use HVDC, but that is very expensive. In reality, we tend to switch to pipelines instead of wires for long distance energy transfers.
Put it this way, if wires could really send power thousands of km without any hiccups, then why do natural gas pipelines exist in quantity? After all, most of them are just delivering natural gas to a gas turbine to make power. So why not put all the gas turbines in one area, and use wires instead? Because in reality, pipelines are much better at moving energy than wires over long distances.
Wow, you truly are misinformed…
Quebec’s main line is over 1000km long, extending from northern Quebec all the way to Montreal, from the 54th parallel to the 45th it goes through the tundra and it just works! The longest one in the world is 2500km long.
You know what’s expensive? Transporting a gas that leaks through solids. Current hydrogen production is done in ways that release more emissions than burning burning coal for heating for fuck’s sake! Green hydrogen? You’re taking electricity to produce hydrogen to produce electricity to move cars… Sooooo skip the middle part and use electricity to move cars? Right?
Which is about the upper limit of a reasonable powerline. I’m pretty sure they had to resort to HVDC to get it that long. Note that I did not say it was impossible, only impractical. You lose a lot of energy when it gets very long.
I also know that Quebec is making hydrogen with their hydropower. Clearly, they know something you don’t.
Pipelines go for thousands of km too, and send far more energy with smaller losses than wires. This is due to physics: A pipe is a hollow tube and scales up better the larger the diameter of the tube. Wires do not scale up as well.
A battery car does not “skip the middle part.” It relies on a huge and resource intensive battery to store energy. This is electrochemical energy storage, and works the same way as how a hydrogen car stores energy. As a result, there is no fundamental advantage to using a battery. As costs comes down and as fuel cell technology advances, it is likely that there will be zero or next to zero efficiency advantage for the battery car.
You need to produce the hydrogen, if it’s green one you’re using electricity to do it, there’s losses there (and you’re using rate earth materials for the electrolysis). Then you need to liquify it to transport it, that’s electricity you’re using to bring it to -250°C, there’s more losses here (not even considering the leaks, just energy losses). Then you put in cars where it’s used to make electricity, there’s losses again. Now add up all the costs and think about the cost at the pump compared to…
The alternative is to just take the electricity from the beginning, putting it in batteries to move cars.
With hydrogen you’re using way more electricity to produce the same final output, you’re just wasting a ton of it.
Quebec has the cheapest electricity in North America and it’s still not financially reasonable to use our electricity to produce hydrogen. What ends up happening? Hydrogen for cars comes from the fossil fuel industry.
Where can we use it though? Where batteries aren’t a reasonable solution, that’s heavy transport.
You are not reading my post. The entire set of steps is exactly the same number of steps as charging a battery. Both are electrochemical processes and have similar losses. In theory, we can make a fuel cell that operates just as efficient as a li-ion battery.
The other point is that the process of moving hydrogen around is cheaper than moving energy via electricity. Losses of distribution are similar too. People are forgetting how big and complex the grid is.
How is it the same number of steps? You’re taking from the grid and putting in the car OR you’re taking from the grid, doing electrolysis, liquifying, transporting, storing and now you’re finally putting it in the car.
To transport the hydrogen you’re using tons of energy to liquify it, you still need to transport the electricity to do that, why not simply use the electricity in the cars directly then if you’re going to transport it anyway?
It’s funny because all experts that have a realistic outlook on the subject say the same thing, hydrogen for cars is stupid and inefficient and greewashing.
But hey, continue believing what you want, not as if you had any power over the market and you’ll have to realize at some point that hydrogen cars were just something manufacturers tried to make a thing in order to not have to invest in making EVs.
Because a fuel cell is type of electrochemical device. It is literally a type of battery. So whether you are using a li-ion battery or a fuel cell, you are turning chemical energy into electrical energy. Also, the process of distributing hydrogen is comparable to the grid and has similar losses. The latter of which will see a dramatic reduction in efficiency as more renewable energy go onto the grid. Specifically due to the need for energy storage.
There are no experts saying hydrogen for cars is stupid. You are just hearing a lot of pro-BEV marketing and their fanboys. Of course, some of them pretend to be experts, but they are not.
In the long run, BEVs are going to die off because they are not economical vehicles. They cost far more than conventional cars and require huge amounts of new minerals for the raw materials used to make them. If the goal is just to have an EV, then the answer is a type of EV that does not so much raw material nor cost so much. That leads to ideas like PHEVs or FCEVs.