arcticpenguin
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At least hydrogen dissipates more quickly than any other gas. and does not hang out in low-lying areas like gasoline vapor.NoZed Avenger said:
Hydrogen Power
- Thread starter BrilliantBeast
- Start date
fishbob
Seasonally Disaffected
5000 psi is less than twice the pressure contained in an aluminum scuba tank. So a series of small 5000 psi tanks would do it, and could look a lot like basic scuba tanks.
.25 cubic meters of H2 would require somewhere around 20 scuba sized tanks, at about 50 lbs each = about 1000 lbs. This vs 20 gallons of gasoline or diesel @ about 6.5 to 7 lbs/gallon plus the fuel tank weight, about 200 lbs.
I doubt that H2 gas is any more dangerous than gasoline, for carrying around in a vehicle. Gasoline vapor accumulates in low places, H2 gas dissipates upwards quickly.
.25 cubic meters of H2 would require somewhere around 20 scuba sized tanks, at about 50 lbs each = about 1000 lbs. This vs 20 gallons of gasoline or diesel @ about 6.5 to 7 lbs/gallon plus the fuel tank weight, about 200 lbs.
I doubt that H2 gas is any more dangerous than gasoline, for carrying around in a vehicle. Gasoline vapor accumulates in low places, H2 gas dissipates upwards quickly.
Badger
Member of the Peanut Gallery
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Correct me if I'm wrong, but it seems that TillEulenspiegel's proposal would be ideally suited to home or industrial use, rather than a vehicle.
I mean, if I could paint my house with stuff, and have a couple of wires leading to a tank of water in the basement which I plug my appliances in to, that sounds like quite the deal to me!
I think the main problem with applying alternative energy sources to transportation begins with the internal combustion engine. There is a huge amount of wasted energy that is disappated as heat (friction and from combustion) and noise. Another factor is the operational range as opposed to the point where the motor runs at maximum efficiency. IIRC, internal combustion engines are about 20% efficient in that 20% of the energy in the fuel makes it to the output shaft of the engine. Less makes it to the rear wheels. I have heard that turbines are more efficient, in the 40% range, but haven't done enough research to be confident of that. And I don't know where rotary engines (wankles) fall in there, either.
So the main concern is getting the energy from the sun (because no matter what you're talking about, excluding nuclear power) you're converting solar energy into motion, when you get right down to it.
My preference would be for a diesel engine (turbine? IC? Rotary) driving a generator at the most efficient speed/load for that engine/generator set, and taking the electricity to motors at the wheels, and offloading extra energy to a form of battery storage in the vehicle itself. The batteries will provide power for acceleration/load, while the generator will provide power for constant speed. Of course there would be electric braking as well which would provide some battery recharge, and I guess you could paint it photovoltaic as well, and plug it in to the ol' basement watertank at night. But that's just my preference.
With regard to the fuel for the engine in the setup above, I guess it doesn't really matter if it's deisel, gasoline, hydrogen, chickenfat, home brew, ethanol, or what. My point is that there are many energy sources now, but they need to be examined in a different way in order to turn sunlight into motion.
I mean, if I could paint my house with stuff, and have a couple of wires leading to a tank of water in the basement which I plug my appliances in to, that sounds like quite the deal to me!
I think the main problem with applying alternative energy sources to transportation begins with the internal combustion engine. There is a huge amount of wasted energy that is disappated as heat (friction and from combustion) and noise. Another factor is the operational range as opposed to the point where the motor runs at maximum efficiency. IIRC, internal combustion engines are about 20% efficient in that 20% of the energy in the fuel makes it to the output shaft of the engine. Less makes it to the rear wheels. I have heard that turbines are more efficient, in the 40% range, but haven't done enough research to be confident of that. And I don't know where rotary engines (wankles) fall in there, either.
So the main concern is getting the energy from the sun (because no matter what you're talking about, excluding nuclear power) you're converting solar energy into motion, when you get right down to it.
My preference would be for a diesel engine (turbine? IC? Rotary) driving a generator at the most efficient speed/load for that engine/generator set, and taking the electricity to motors at the wheels, and offloading extra energy to a form of battery storage in the vehicle itself. The batteries will provide power for acceleration/load, while the generator will provide power for constant speed. Of course there would be electric braking as well which would provide some battery recharge, and I guess you could paint it photovoltaic as well, and plug it in to the ol' basement watertank at night. But that's just my preference.
With regard to the fuel for the engine in the setup above, I guess it doesn't really matter if it's deisel, gasoline, hydrogen, chickenfat, home brew, ethanol, or what. My point is that there are many energy sources now, but they need to be examined in a different way in order to turn sunlight into motion.
BrilliantBeast
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Interesting things happen when you start a thread, get busy, then go back to it.
Revising my initial question, it looks like I had the wrong issue, the issue is not pollution, but energy independence. In light of that, the analogy of two apples for one apple holds.
Revising my initial question, it looks like I had the wrong issue, the issue is not pollution, but energy independence. In light of that, the analogy of two apples for one apple holds.
A better analogy may that you want an apple but you have two oranges to trade.
It boils down to a matter of efficiencies and energy densities.
Solar power is cheap but it takes a lot of surface area to generate power.
Fuel cells may not be as overall efficient as solar power but they store what energy they have in a more compact form. More compact than batteries. Also, fuel cells can be fueled faster than high capacity batteries can be charged.
So you spread your solar cells out in static locations, where size doesn't matter. Use that to crack water and store the H2/O2 in the car, where it is recombined in the fuel cell. Eventually the mass/capacity ratio and charge times of batteries may exceed fuel cells, in which case you just stop using fuel cells.
It boils down to a matter of efficiencies and energy densities.
Solar power is cheap but it takes a lot of surface area to generate power.
Fuel cells may not be as overall efficient as solar power but they store what energy they have in a more compact form. More compact than batteries. Also, fuel cells can be fueled faster than high capacity batteries can be charged.
So you spread your solar cells out in static locations, where size doesn't matter. Use that to crack water and store the H2/O2 in the car, where it is recombined in the fuel cell. Eventually the mass/capacity ratio and charge times of batteries may exceed fuel cells, in which case you just stop using fuel cells.
arcticpenguin
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Current solar cells are not that cheap. Break even times are a couple of decades.Agammamon said:
energy density of h2
Good info at:
http://hyperphysics.phy-astr.gsu.edu/hbase/thermo/electrol.html
The H2 storage problem does have a simple solution. Add carbon to the H2 so you get a denser, less volitile fuel that does not have the embrittlement problems of H2. Something like C8H15 fould work fine. An added benefit would be that this fuel would work in existing cars.
Good info at:
http://hyperphysics.phy-astr.gsu.edu/hbase/thermo/electrol.html
The H2 storage problem does have a simple solution. Add carbon to the H2 so you get a denser, less volitile fuel that does not have the embrittlement problems of H2. Something like C8H15 fould work fine. An added benefit would be that this fuel would work in existing cars.
aerocontrols
Illuminator
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Re: energy density of h2
oh, LOL!
I just had to read that out loud to my office buddies.
chipotle said:
oh, LOL!
I just had to read that out loud to my office buddies.
Mr. Skinny
Alien Cryogenic Engineer
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Hydrogen ignites so readily, it's unlikely to spread out and then explode. I've read that the energy generated by the hydrogen molecules escaping through a pinhole leak in a tank is sometimes enought to ignite it. Add that to the invisible flame, and it can be scary stuff.NoZed Avenger said:
Years ago I did the safety work on a hydrogen burning prototype aircraft engine supplied by two tube trailers (semi sized) of gaseous hydrogen. It took nearly eight years to work all the issues, many of which were safety related.
That said, it will be interesting to see what creative ways can be developed to handle/distribute hydrogen safely.
arcticpenguin
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arcticpenguin
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Here is an article on fuel cells for aviation. There's something about designing a fuel cell to use jet fuel isntead of H2 for use as an auxiliary power unit, to run the electrical equipment aboard the aircraft.
There's also mention of a solar/fuel cell combo, but I don't think this would be currently anywhere near practical for the lifting capacity and speeds of passenger aircraft.
There's also mention of a solar/fuel cell combo, but I don't think this would be currently anywhere near practical for the lifting capacity and speeds of passenger aircraft.
arcticpenguin
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