This is sensible, but I think the claim is that the grid is overstressed. I would argue the solution is "fix the grid" and not "convince other people to switch to hydrogen", but what do I know?BWV said:why not just use that power to charge a battery?
I did not say bill would be lower driving H2 car.Vanadium 50 said:The argument is that if other people drove hydrogen cars as opposed to electric cars, the OPs power bills would be lower. I think this has been exposed as, at best, oversimplifies.
The number that doesn't make sense to me is the $35K for batteries. That buys about 35 kwh of storage, or about a day and a half assuming full electric use during a blackout. That seems excessive, especially as electric use can be throttled during the outage.
We're getting deeper into the details here of your specific situation, but....yungman said:It's not the storage of battery that's the limit. It's the max useful current that is the key. for 27KW battery, all are 40A max, you cannot power the whole house. You need at least 60A. AC takes a lot of power. The stupid thing is AC/heat is one unit, in winter, even the AC is not on, you need electricity to run the fan for the heat. If central AC/heat is not backup on battery, you get no heat because no electricity for fan if there is a black out.
So it's max current put the limit during summer, it's NO electricity to power up the fan of heater in winter if there's a black out.
It's a whole lot more complicate than people realize. It's not like you have solar panels and battery, you don't worry about anything.
I have to double check.russ_watters said:We're getting deeper into the details here of your specific situation, but....
Is your HVAC a single point power connection? Did you have an electrician or engineer verify the circuiting requirements? If so then what you describe is right, but it is much more common for the indoor and outdoor bits to be on different circuits. Usually you don't have to power the AC to get heat in the winter.
Literally? Oh dear.yungman said:My head is literally spinning.
This is why I really liked the old model: "the power company knows what they're doing, so they supply my electricity."yungman said:It's like open a can of worms, the more you dig, the more complicate it is.
While fuel cells have definitely been the leading contender for hydrogen powered vehicles (and there are several methods of generating hydrogen nowadays with a variety of costs and requirements, but that is another topic), there have been some meaningful attempts to build hydrogen burning internal combustion engines.BWV said:There are two mechanisms to use H to power a vehicle - internal combustion engines (ICEs) and fuel cells. I am not aware of any serious attempts to build H ICEs, as they suffer from the inherent inefficiencies of ICEs - electric motors are about 2x as efficient in delivering energy to the wheels, which is why EVs can overcome the weight and lower energy density of batteries relative to gasoline or diesel.
So the only possible contender to EVs are H fuel cells. However, they have the same issues with power required to produce H - given the power losses to create H, why not just use that power to charge a battery?
https://www.visualcapitalist.com/visualized-battery-vs-hydrogen-fuel-cell/#:~:text=The main difference is that,using a hydrogen fuel cell.
For battery energy density, seeBWV said:There are two mechanisms to use H to power a vehicle - internal combustion engines (ICEs) and fuel cells. I am not aware of any serious attempts to build H ICEs, as they suffer from the inherent inefficiencies of ICEs - electric motors are about 2x as efficient in delivering energy to the wheels, which is why EVs can overcome the weight and lower energy density of batteries relative to gasoline or diesel.
So the only possible contender to EVs are H fuel cells. However, they have the same issues with power required to produce H - given the power losses to create H, why not just use that power to charge a battery?
To the general public (including me) that would be high on the list of cons if I had to guess.Borek said:As far as I am aware safe storage is the main problem. You don't want to drive with a pressurized tank of a gas waiting to leak and explode.
Tanks are 'supposed' to be crash and bullet proof.pinball1970 said:To the general public (including me) that would be high on the list of cons if I had to guess.
We know what can happen when petrol cars crash, we have experience and the results can be catastrophic.
With pressurized Hydrogen?
So can a gasoline car. All depends on the size of the tank, doesn't ot?Astronuc said:A hydrogen-car can run over 1242 miles on a single tank
That is true.Vanadium 50 said:So can a gasoline car. All depends on the size of the tank, doesn't it?
An average speed of 20.6 mi/hr (33 km/hr), which is fine for around the village, and one is not in a hurry to get very far.Eco-Runner I, which participated in the Shell Eco-marathon, a worldwide energy efficiency competition in 2005. The car then achieved an efficiency figure of 346m/L (557km/L) of hydrogen in the top-5 entries. In 2022, its Eco-Runner XI attained a figure of 2110 m/L (3396km/L), also setting the world record for the longest distance traveled in a hydrogen vehicle by driving non-stop for 36 hours and covering 743 miles (1196 kilometers).
I presume, that the previous quote refers to the Eco-Runner XII. I would imagine the car would get blown of the road in a strong cross wind. Definitely not ready for the Autobahn.The requirements have led to a unique bubble-car shape which allows it to keep aerodynamic drag and weight as low as possible. The car's curb weight stands at 147 pounds (67 kilograms), and has a top speed of 15.5 mph (25km/h).