A Hydrogen economy: Be a part of the change

In summary: I don't remember that. In summary, most scientists believe that hydrogen is the answer to the world's energy needs. The National Hydrogen Association wants help from people like you, and says the biggest hurdle is education. If you are interested, learn and find a way to get involved.
  • #1
Ivan Seeking
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I am posting this here in order to draw the attention of physics students, as well as other science and engineering students, to the upcoming change in our supply of energy. The National Hydrogen Association wants help from people like you. Please consider this a potential career option. Nearly everyone from George Bush to tree hugging hippies are supporting this change.

IMO and ITO of many scientists, hydrogen is the solution to the world's energy needs. The most extreme claims are that we could convert the US in 5 years. Moderate claims land in the 15-25 years range. I tend to agree that if we made a WWII sized effort, if we made this an immediate national agenda, 10 years is closer to the mark. We could end our critical dependence on oil forever!

This is a new industry that will need physicists. If your are interested, learn and find a way to get involved. They [The National H2 Assoc] say the biggest hurdle is education; so I am doing a little of my part right now. Please take a look.

National Hydrogen Association:
http://www.hydrogenus.com/

Also:

http://www.eere.energy.gov/hydrogenandfuelcells/hydrogen/iea/

http://www.h2pac.org/

http://www.geocities.com/mj_17870/index.html

http://education.lanl.gov/resources/h2/education.html [Broken]

http://www.stuartenergy.com/

Please see also the links at the bottom of this page:
http://www.science.edu/tech/h75001.htm [Broken]
 
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  • #2
i hear that hydrogen is the answer to all of our prayers but I am not sure how hydrogen will "create" energy...

sure we can put it in our cars but the energy taken to get it into that form has to be done some other way correct? ie oil, coal, uranium.

is it just that hydrogen is more *efficient*(and less harmful) than oil or what?
 
  • #3
Originally posted by Mattius_
i hear that hydrogen is the answer to all of our prayers but I am not sure how hydrogen will "create" energy...

sure we can put it in our cars but the energy taken to get it into that form has to be done some other way correct? ie oil, coal, uranium.

is it just that hydrogen is more *efficient*(and less harmful) than oil or what?

A review of the industry will reveal many approaches to the production of hydrogen. Biological processes, chemical processes, and solar powered methods for producing hydrogen are being explored. Wind to H2 using electrolysis, and really any existing means of producing electricity can be used to convert water into a H2 fuel supply. This has the benefit of relatively easy energy storage which is very difficult with electricity. This issue of storage has long been a problem for the alternative energy crowd; as well as for mainstream energy producers. Many lakes have been built to act as energy storage units for dams that have too much power. The water is pumped up hill to a lake an then re-released to pass through the dam. The efficiency of this process is in the dirt.

Next, you can put that H2 right into your car. Experts claim that any car can be modified - easily for most typical cars - to burn H2 rather than hydrocarbon based fuels. This includes trains, planes, and industry. No other energy option to my knowledge has the benefit of practical and immediate application to trains, planes, and large industrial machinery.

Hydrogen burns almost completely cleanly [I am thinking 99.5% but it may be 95%]. Some oxides of nitrogen can be produced, but this can be improved with lower operating temps. Still, the exhaust is mostly water. Some gurus of this technology claim that it is so safe that you can condense and drink your exhaust.

Finally, there have been some indications that a primordial layer of hydrogen lies deep in the earth. One expert estimated that enough H2 may be stored to power the planet, based on current estimates, for 500 years. If this hydrogen supply is trapped in rock and waiting for harvest, it will require clever new technologies to get at it. I believe this layer was estimated as being about 50 Km straight down; all over the planet.
 
  • #4
very interesting, i didnt think about the storage problem (very evident in alt. energy sources) or the application to current i.c. engines in our cars. it makes sense:smile:
 
  • #5
hehe just wait until i get my gravity machine to work, hehe.
 
  • #6
Now i don't know where to find this, but if you want to find out something that makes me angry, check out how Mr. Bush plans to create Hydrogen through burning coal!

Coal?!? What's up with that?

next we'll be creating it with oil.

Shouldn't we be looking at solar energy instead of coal/oil? I really think that this would just prolong our problem if we go to coal producing energy to hydrolize water.

What do you think?

I'll check NY Times and look for that article.

Pete
 
  • #7
Originally posted by PeteGt
Now i don't know where to find this, but if you want to find out something that makes me angry, check out how Mr. Bush plans to create Hydrogen through burning coal!

Coal?!? What's up with that?

next we'll be creating it with oil.

Shouldn't we be looking at solar energy instead of coal/oil? I really think that this would just prolong our problem if we go to coal producing energy to hydrolize water.

What do you think?

I'll check NY Times and look for that article.

Pete

A transistion period is needed; but yes, as much as I hate to sound so one sided, this is typical of the republican approach to science and technology. In the end though, I hope the oil companies do control hydrogen as well. In this way it at least it CAN happen. If they [the oil tychoons] still hold all of the cards, perhaps they won't percieve the technology as a threat. This is what I think is happening anyway...perhaps even just hoping...
 
  • #8
I've seen cooling remarks about H2 as fuel, I guess in fuelcell context. Storage of pure H2 is inefficient I've heard, methanol or oil was said to contain much more H than liquid H itself. In addition brakeup of bonds gives off additional energy that liquid H doesn't have. So, to use it as fuel, H must be converted into 'packed' fuel, which needs energy and pollution to make, in addition to H 'mining' itself. This makes H not a fuel, but merely an energy carrier. In all, price of using H as energy carrier is much higher than fossil fuels that already contain the energy. The only benefit is truly green potential.

Its the price of getting H fuel with energy that holds it back. Fossil fuels I think were said to be a fraction of the cost compared to H. So conversion to H won't happen without hard political pressure and support, and given that helluva lot of infrastructure needs to be built, energy prices will go sky. Definitely 'paying' industry to be in. Knowing politics interests, sure its going to be done for money. No wonder they consider coal as source of energy for producing H...
 
  • #9
Originally posted by wimms
I've seen cooling remarks about H2 as fuel, I guess in fuelcell context. Storage of pure H2 is inefficient I've heard, methanol or oil was said to contain much more H than liquid H itself. In addition brakeup of bonds gives off additional energy that liquid H doesn't have. So, to use it as fuel, H must be converted into 'packed' fuel, which needs energy and pollution to make, in addition to H 'mining' itself. This makes H not a fuel, but merely an energy carrier. In all, price of using H as energy carrier is much higher than fossil fuels that already contain the energy. The only benefit is truly green potential.

Its the price of getting H fuel with energy that holds it back. Fossil fuels I think were said to be a fraction of the cost compared to H. So conversion to H won't happen without hard political pressure and support, and given that helluva lot of infrastructure needs to be built, energy prices will go sky. Definitely 'paying' industry to be in. Knowing politics interests, sure its going to be done for money. No wonder they consider coal as source of energy for producing H...

IMO, fuel cells are a sham. I agree that the complete system must be considered and that hidden costs surely exist. [edit: This is one reason I think fuel cell technology is too inefficient. There are too many power consuming, intermediate steps in the production of the cells; in addition to the weight of electric motors which hardly compares to internal combustion in their HP to weight ratios]. However, the performance of H2 powered internal combustion vehicles is good. Also, methods of storing H2 in carbon nano-tubes and similar offer much promise. Going H2 over electric though makes no sense to me. Also, hydrogen makes some alternative energy sources viable as a source for mass transit energy; as opposed to a singular source. Ultimately H2 is just an energy carrier...but for solar power [in many forms] not fossil fuels; if done properly. Therefore, from what I have read, it is not necessary that this be a fossil fuel based industry. Unlike nuclear power which by some claims will never break even.

Note: Hydrogen fueling stations can be found at the Berlin [maybe Munich] airport, and at other test sites around the world. BMW just put out a test model that changes from H2 combustion to gasoline at the flip of a switch. Wimms, I think examples already exist that many of these concerns can be addressed.
 
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  • #10
I almost forgot. If one incorporates the real cost of fossil fuels - like potential nuclear war and all of its cost, and many of the problems in the middle east - in addition to pollution and the public health consequences, then the real cost of petroleum is much higher than perceived. Also, as readily accessible reserves dwindle, the cost per barrel for oil will sharply rise. This will force H2 into competition regardless of the public perception over the indirect expenses of fossil fuels. However, the hidden costs of fossil fuels are real money that will be added to the H2 economy. This must be factored in. What is the value of jobs over bombs? Fossil fuels have been a plague on the world politic since the first model A's rolled off the lines. This must be considered.
 
  • #11
Originally posted by Ivan Seeking
IMO, fuel cells are a sham.
Also, methods of storing H2 in carbon nano-tubes and similar offer much promise. Going H2 over electric though makes no sense to me.
Oh, why? fuel cells are afaik just about method of storing H2. How its used later, is another matter. There are both combustion and electric converters. Electric has best efficiency of conversion into mechanical work. There are lots of benefits from use of electric motors. They are just pathetic today.

Also, hydrogen makes some alternative energy sources viable as a ource for mass transit energy; as opposed to a singular source. Ultimate H2 is just an energy carrier, but for solar power [in many forms] not fossil fuels; if done properly.
yes, sure. It gives independance from fossil fuels. But solar power means power grid, that's has high losses and yet can't cope with whole fuel industry, electrolysis is awfully inefficient. Perhaps biological means would do, but that means a lot of land dedicated to it, which eventually is also quite inefficient.

Unlike nuclear power which by some claims will never break even.
Thats also what I've heard. Interesting, what are the arguments, and does this apply to potential fusion reactors aswell?

Wimms, I think examples already exist that many of these concerns can be addressed.
Addressed? Do you mean 'tests' address concerns that arise with global spread? Civilization is limited by available energy. Fossil fuels are at moment 'free'. We get more energy from it than we waste to extract it. With H fuels, this isn't so obvious, actually opposite. The only alternate to fossil fuels is sun or nuclear power that accounting whole system produces way more heat than useful work. Dealing with those losses would turn into price.

I'm actually all for it, but its a quite huge leap we have to swallow. All I'm saying is that it won't come easy nor cheap.

ps. cutting off mideast from their revenue doesn't make you think 'war'? dwindling reserves rise prices due to marketing, demand and offer ratio, not because of real costs. I suppose that this would pay for developing alternative fuel infrastructure. There are (times?) more hidden costs with H than with fossil fuels.. Just hope there are also a lot more of hidden benefits, like those arising from forced advances of technology.
 
  • #12
Originally posted by wimms
Oh, why? fuel cells are afaik just about method of storing H2. How its used later, is another matter. There are both combustion and electric converters. Electric has best efficiency of conversion into mechanical work. There are lots of benefits from use of electric motors. They are just pathetic today.

Eventually electric motors may come of age. But I don't think people are willing to give up the performance for now. Electric cars still have big problems. I know a guy that bought one...I'm not sure which model it was...I think it was the Honda Hybrid... After 20,000 miles he was told: Oh, didn't the salesman tell you? You have to replace the batteries now. If will only cost a few thousand dollars!

yes, sure. It gives independance from fossil fuels. But solar power means power grid, that's has high losses and yet can't cope with whole fuel industry, electrolysis is awfully inefficient. Perhaps biological means would do, but that means a lot of land dedicated to it, which eventually is also quite inefficient.

Perhaps many sq miles of oceans? I agree that challenges exist. We don't have all of the answers...hence the call for scientists and engineers from the National H2 Assc. But many experts argue that this is doable. Obviously they have convinced me. I'm not completely biased yet, but I ran out of objections about a year ago.

Thats also what I've heard. Interesting, what are the arguments, and does this apply to potential fusion reactors aswell?

I have never actually seen this, but I was told by a biology professor in college about this study. I have heard and seen this referenced elsewhere as well. The argument is: When one factors in all the mining, transport, smelting and refining, all of the cars of all of the employees that travel to work every day in all of these industries, then the operation and maintenance of the plant, and finally the cleanup which may take decades, the demand for fossil fuels exceeds the lifetime energy production of the plant. Considering that we still don't even know how to clean up the latest reactors once spent, the real cost is still unknown. I don't know if this holds water or not, but the claim has been floating around for years. It may be that no one else has ever looked at this.

Addressed? Do you mean 'tests' address concerns that arise with global spread? Civilization is limited by available energy. Fossil fuels are at moment 'free'. We get more energy from it than we waste to extract it. With H fuels, this isn't so obvious, actually opposite. The only alternate to fossil fuels is sun or nuclear power that accounting whole system produces way more heat than useful work. Dealing with those losses would turn into price.

No I meant tests for performance. The performance of these cars is apparently acceptable to good.

I'm actually all for it, but its a quite huge leap we have to swallow. All I'm saying is that it won't come easy nor cheap.

I can see the possibility for a large leap in a fairly short period of time. But I agree that many challenges exist.

A call to arms physicists!

ps. cutting off mideast from their revenue doesn't make you think 'war'? dwindling reserves rise prices due to marketing, demand and offer ratio, not because of real costs. I suppose that this would pay for developing alternative fuel infrastructure. There are (times?) more hidden costs with H than with fossil fuels.. Just hope there are also a lot more of hidden benefits, like those arising from forced advances of technology.

It is hard to imagine things being worse. Did you ever see The Gods Must Be Crazy? A limited resource is bad. Neighbors throw rocks at each other in order to get the resource. But yes I agree; this will be another issue to consider. I suspect this may account for the foot-dragging approach of the Bush administration. If I entertain the hallucination that GWB is a real philanthropist, then this could explain the more moderate approach. ZZZZAAAAPPPPP! Back to reality. I think he is placating the oil companies.
 
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  • #13
Addressed? Do you mean 'tests' address concerns that arise with global spread? Civilization is limited by available energy. Fossil fuels are at moment 'free'. We get more energy from it than we waste to extract it. With H fuels, this isn't so obvious, actually opposite. The only alternate to fossil fuels is sun or nuclear power that accounting whole system produces way more heat than useful work. Dealing with those losses would turn into price:

Follow the money. Advocates claim that the price of gasoline makes state of the art hydrogen technology competitive now; this then is an issue of scaling up the concepts. Transportation and transfer systems need to be designed. Transitional technologies like wind generators will pay the fossil fuel price to change.

Next, any hydrocarbon can be used to produce hydrogen. Wood, grass, pine tar, garbage, plastics, any C-H can in principle yield an H. There are many approaches considered to these and many other source options. We are not only talking about solar and wind. But, both of these have also made great strides. The final solution will likely be a hybrid of many technologies applied where each is most appropriate. Of course coal and oil are also great sources of hydrogen. But the key is a hydrogen base. IMNSHO.

Also, one key concept is decentralization. We already see this idea succeeding in the use of farmer produced ethanol for use on the farm. The last time that I checked, this practice is growing at a startup rate of 5 to 10 X per year in the US. The farmers appear to find this process more than competitive with gasoline and diesel oil.

Some minor edits plus one more observation:
Fusion power translates directly as a potential source for H2 production; for transit systems and industrial equipment. These two goals - the strive for fusion and an H2 economy - are compatible.
 
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  • #14
Originally posted by Ivan Seeking
Eventually electric motors may come of age. But I don't think people are willing to give up the performance for now.
Thats sure. I won't even look towards it until it performs better than gas motors.

I agree that challenges exist. But many experts argue that this is doable.

The argument is: When one factors in all the mining, transport, smelting and refining, all of the cars of all of the employees that travel to work every day in all of these industries, then the operation and maintenance of the plant, and finally the cleanup which may take decades, the demand for fossil fuels exceeds the lifetime energy production of the plant. Considering that we still don't even know how to clean up the latest reactors once spent, the real cost is still unknown.
Anything is doable. I guess my concerns are best conveyed by analogy with nuclear power plants you described above. Huge potential, huge energies, but huge ballast issues.

A call to arms physicists!
absolutely.

Originally posted by Ivan Seeking
Advocates claim that the price of gasoline makes state of the art hydrogen technology competitive now;
You mean those 'carets'? First we need a 'car', but I guess they don't count the fuel costs.

Finally, any hydrocarbon can be used to produce hydrogen. Wood, grass, pine tar, garbage, plastics, any C-H can in principle yield an H.
Of course coal and oil are also great sources of hydrogen. But the key is a hydrogen base.
I thought key is energy. That you need to put in less energy than you get out. I'm not sure, but is extraction of H from all this junk 'free'? What is waste byproduct? Where would it be made? In 3rd world countries?

The farmers appear to find this (ethanol) process more than competitive with gasoline and diesel oil.
RRRregulate!
 
  • #15
Originally posted by wimms
I thought key is energy. That you need to put in less energy than you get out. I'm not sure, but is extraction of H from all this junk 'free'? What is waste byproduct? Where would it be made? In 3rd world countries?

Biological and other processes offer much promise here. A similar example is that of the gold mine just outside Lead South Dakota. My dads family comes from there and he grew up around there for a time. A creek ran black for a hundred years and was known to all as dangerous. This was from all of the cyanide from the gold mine. Finally in the 1980s, the mine was told to become compliant with environmental laws or to cease operations. A chemist at the mine happened to have a background in microbiology. He remembered something about a bacteria [I think bacterial] that consumed cyanide. The mine was saved and the cost of cleaning the discharged reduced by 90%. This is one example of how easily a seemingly insurmountable problem can be managed.

Final note on the mine. I was told that the gold was getting so scarce that they accepted an offer to shut down the mine for neutrino experiments or something similar. But still, this [(mumbles)combined with gambling] saved the town of Lead!
 
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  • #16
Originally posted by Ivan Seeking
Biological and other processes offer much promise here. He remembered something about a bacteria [I think bacterial] that consumed cyanide.
indeed, we need biologists here. We need a bacteria that chews junk, farts hydrogen and ****s packaged carbon nanotubes
 
  • #17
Originally posted by wimms
indeed, we need biologists here. We need a bacteria that chews junk, farts hydrogen and ****s packaged carbon nanotubes

That's pretty much what the genetic engineers are working on here.
Rude and crude bacteria..that's the ticket!
 
  • #18
Originally posted by Ivan Seeking
A review of the industry will reveal many approaches to the production of hydrogen. Biological processes, chemical processes, and solar powered methods for producing hydrogen are being explored. Wind to H2 using electrolysis, and really any existing means of producing electricity can be used to convert water into a H2 fuel supply. This has the benefit of relatively easy energy storage which is very difficult with electricity. This issue of storage has long been a problem for the alternative energy crowd; as well as for mainstream energy producers. Many lakes have been built to act as energy storage units for dams that have too much power. The water is pumped up hill to a lake an then re-released to pass through the dam. The efficiency of this process is in the dirt.
So basically, we should first convert the entire elecric power production of the US to renewables, then add 50% to cover the capacity we'll need to replace fossil fules, then we'll have the clean energy to use to make hydrogen?

Well gee, if its that easy...
A transistion period is needed; but yes, as much as I hate to sound so one sided, this is typical of the republican approach to science and technology.
No. This is a scientific and engineering reality. Don't blame it on republicans - Bush is in favor of this pipe dream too.
IMO, fuel cells are a sham... However, the performance of H2 powered internal combustion vehicles is good.
No. The maximum theoretical efficiency of an internal combustion engine is something like 40% (your car engine gets hot, doesn't it). Fuel cells on the other hand take 3 steps: electrolysis to make the water, fuel cells to turn it back into water and create electricity, and an electric motor to move the car. All 3 steps are about 95% efficient.
If one incorporates the real cost of fossil fuels - like potential nuclear war and all of its cost,
Nuclear war is a potential cost of fossil fuel? Huh?
 
  • #19
Originally posted by russ_watters
So basically, we should first convert the entire elecric power production of the US to renewables, then add 50% to cover the capacity we'll need to replace fossil fules, then we'll have the clean energy to use to make hydrogen?

The alternative energy sources come with a fossil fuel price. So we mass produce hydrogen producing technologies using fossil fuel energy, then as the system achieves a positive net energy production from H2, we reduce out dependence on oil accordingly. At least that's the basic idea. I don't mean to oversimplify, but the links given go into the details.

This is a scientific and engineering reality. Don't blame it on republicans - Bush is in favor of this pipe dream too.

Really Bush's support for H2 is the one thing that could destroy my opinion of the Bushes. I never expected to hear him calling for a H2 economy, but the direction that he pursues favors a slow, fossil fuel dependent transition that gives maximum advantage to the oil companies - like fuel cells that run on gasoline...give me a break! Why don't we help Saddam start a new family too? This makes about as much sense. The point is to get rid of our dependence on oil.


No. The maximum theoretical efficiency of an internal combustion engine is something like 40% (your car engine gets hot, doesn't it). Fuel cells on the other hand take 3 steps: electrolysis to make the water, fuel cells to turn it back into water and create electricity, and an electric motor to move the car. All 3 steps are about 95% efficient.

How about the energy to make the plastics and special materials for the cells? High tech materials are energy consumers; and of course we need to factor in all of the people who drive to work to make those cells. Then we must replace them regularly due to their short life span [the cells, not the people]. And of course we must drive a car that has a power system that is three times as heavy for the same power. This then requires larger transmissions and transfer cases for the higher torque...for the given power. Have you ever picked up a 50 HP electric motor? Compare the weight of an auto engine to that same HP electric motor. There is no comparison. There goes your efficiency. And now you have to do something with the garbage. Where do we throw away our fuel cells and at whose expense?

Nuclear war is a potential cost of fossil fuel? Huh?

Of course. The only authorization ever given by a president other than Truman for the use of nuclear weapons was by Carter. The Soviets were poised to sweep across the Middle East and we didn't have the conventional weapons to stop them. The reason for authorizing nukes was the oil supply which was an issue of national security. IT IS ABOUT THE OIL.
 
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  • #20
The Japanese attacked Pearl Harbor because we were cutting off their oil supply. What was the cost of this?
 
  • #21
Originally posted by russ_watters
Fuel cells on the other hand take 3 steps: electrolysis to make the water, fuel cells to turn it back into water and create electricity, and an electric motor to move the car. All 3 steps are about 95% efficient.
how so? electrolysis pumps energy in, gets H2 out, discards O2. Efficiency is said to be ~66%. Fuel cell efficiency is also said to be ~66%. It takes O from atmosphere that is not pure O2. chain electrolysis->fuelcell is 66x66 = ~44% efficient. Consider efficiency of generating electricity to make electrolysis, which is ~50% today, we get total efficiency of ~22%. Of all steps, only electric motors are >90% efficient.

Though, I believe Ivan's only argument here was that electric motors today are completely pathetic compared to combustion engines. When electric motors would offer 500nm of flat tourque curve upto 22Krpm, this will change. Only electric motors can do that.

I've read that carbon nanotubes are almost superconductors, wonder if they are going to replace copper wires.

Ivan Seeking:
How about the energy to make the plastics and special material for the cells?
Pressurised liquid H2 is a bomb. I don't like it. Whatever they say about 'safe' containers. Some fancy storage isn't much simpler than fuelcell. So same issues anyway.

Really Bush's support for H2 is the one thing that could destroy my opinion of the Bushes. I never expected to hear him calling for a H2 economy
Don't be naive. Energy sharks have long known they'd have to get their foot into H energy. They found it - make president blabla about its greenery, muck with few oil sources so its prices go up, spread fud, to justify high initial prices of H energy, then collect national donations for developing alternative fuels, get monopoly for xx years, then safely collect the money. Who cares if its oil or H, if profit is same or better.
 
  • #22
Originally posted by wimms
Pressurised liquid H2 is a bomb. I don't like it. Whatever they say about 'safe' containers. Some fancy storage isn't much simpler than fuelcell. So same issues anyway.

Well, have you thought about what you carry around in your car every day? Gas tanks are hardly safe; and they have a tremendous amount of energy available. But really I look to materials, eg carbon nano-tubes that can absorb hydrogen and then release it on command. I read about on device like this...I don't know exactly how it stored by H2, but it was some kind of absorption and release process that was temperature dependent. So, at STP the material sucks up H2 like a sponge, and then we can control the release of H2 from this material by applying heat. The amount of heat energy required is insignificant as compared to the energy stored in the released H2.

Edit: Even using liquid H2, we have very good methods of controlling how a pressure cylinder fails. These are used in dangerous, populated industrial environments and they are very safe. of course for public use, I would surely support some brilliant new methods of making these safer. Really though I think absoption methods will be the victor.

Don't be naive.

That's what I keep thinking.
 
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  • #23
Originally posted by Ivan Seeking
(snip) So, at STP the material sucks up H2 like a sponge, and then we can control the release of H2 from this material by applying heat. The amount of heat energy required is insignificant as compared to the energy stored in the released H2.(snip)

"Insignificant?" Rrriiiggghhhttt --- tell us a magnitude for enthalpy of adsorption necessary to sequester useful quantities of hydrogen.
 
  • #24
Originally posted by Ivan Seeking
Well, have you thought about what you carry around in your car every day? Gas tanks are hardly safe; and they have a tremendous amount of energy available.
If you mean gasolene/petrol, then no, I don't think its a bomb. If tank brakes up, it doesn't expand some 200 times in instant into extremely flammable gas that has enough of single hot spot in exhaust to explode, instead of peacefully burning on surface.

Edit: Even using liquid H2, we have very good methods of controlling how a pressure cylinder fails. These are used in dangerous, populated industrial environments and they are very safe.
Probably. In the end, if they find it most effective, they'll push it despite public opinion.

Really though I think absoption methods will be the victor.
I hope so. Though, everything comes at a cost, energy or money.
 
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  • #25
Originally posted by wimms
If you mean gasolene/petrol, then no, I don't think its a bomb. If tank brakes up, it doesn't expand some 200 times in instant into extremely flammable gas that has enough of single hot spot in exhaust to explode, instead of peacefully burning on surface.
I see you really have no idea what you're talking about, and are going on your gut feelings.

Having spent 3 years doing research for Virginia Tech on hydrogen fuel-cell powered vehicles, analyzing all the safety concerns along the way, my conclusion (along with many others') is that hydrogen is much, much safer than gasoline. The reasons? The LEL. The UEL. The heat of combustion. The nature of liquids. The diffusion rate of hydrogen gas. And so on.

- Warren
 
  • #26
Originally posted by chroot
I see you really have no idea what you're talking about, and are going on your gut feelings.

Having spent 3 years doing research for Virginia Tech on hydrogen fuel-cell powered vehicles, analyzing all the safety concerns along the way, my conclusion (along with many others') is that hydrogen is much, much safer than gasoline. The reasons? The LEL. The UEL. The heat of combustion. The nature of liquids. The diffusion rate of hydrogen gas. And so on.

- Warren

chroot, he was responding to my support for liquid hydrogen storage over fuel cells. Wimms is worried more about the pressurized cylinders, not explosions due to ignition of the H2. Still, I would greatly appreciate your comments here. I think this is the future. Do you agree? Do you have any doubt that conversion to H2 will happen?
 
  • #27
Originally posted by Ivan Seeking
chroot, he was responding to my support for liquid hydrogen storage over fuel cells. Wimms is worried more about the pressurized cylinders, not explosions due to ignition of the H2. Still, I would greatly appreciate your comments here. I think this is the future. Do you agree? Do you have any doubt that conversion to H2 will happen?


I'm not sure you have the correct idea of what is (usually) meant by the term "fuel cell". You seem to be using it in reference to a storage medium; an alternative to pressurized cylinders of liquid hydrogen, if I understand you correctly. This is not what a hydrogen fuel cell does.

A hydrogen fuel cell, in the context of alternative fuel research, is a device for extracting electrical energy from hydrogen, not a place to store fuel (like the "fuel cells" in a supertanker).

Or have I misunderstood when you are saying?
 
  • #28
Originally posted by LURCH
I'm not sure you have the correct idea of what is (usually) meant by the term "fuel cell". You seem to be using it in reference to a storage medium; an alternative to pressurized cylinders of liquid hydrogen, if I understand you correctly. This is not what a hydrogen fuel cell does.

A hydrogen fuel cell, in the context of alternative fuel research, is a device for extracting electrical energy from hydrogen, not a place to store fuel (like the "fuel cells" in a supertanker).

Or have I misunderstood when you are saying?

I didn't mean to confuse the two. I am weary that fuel cells over electric motors is too inefficient. Wimms objects to the alternative; to carry compressed liquid H2 and burn it in conventional internal combustion engines. Then, another option is coming of age that seeks to store hydrogen by using weak chemical bonds, or by using the geometry of carbon nano-tubes and other technologies to store H2 and then to released it in a controlled manner; again for use in internal combustion engines.

Edit: I want to stress that the efficiency objections that I have to fuel cells and electric motors is only obvious if the complete energy cost for a given technology is considered. From the mining of materials to the gas for the truck that delivers the product to factories, many hidden energy costs make most forms of alternative energy really a sort of fossil fuel battery. For example, wind turbines store the fossil fuel energy as that needed to make the parts. Then we get that energy back as the turbine reacts to wind. Since any mechanical part has a limited lifespan, these hidden costs can actually be greater than the lifetime energy production of the alternative source. I think wind is just beyond the break even point in some areas. We can see this hidden energy as the cost of the technology. As a rule, when wind or other technologies are economically competitive with commercial sources, then we have likely passed the energy break even point.

Consider that if you went completely solar powered [photovoltaic] in your home, you would pay for about 20-50 years of fossil fuel energy up front as the equipment costs. Edit: Since the solar panels will typically last only about 20 years, not to mention all of the expensive and environmentally unsound batteries that last only 1-3 years, we can expect that we really have powered the house with fossil fuels as a break even at best. Note however that the efficiency of solar panels improves daily. We can make H2 with solar panels. Then we can make solar panels with H2.

Note also that hydrogen was used in place of methane for homes in the early 1900's; surely it's safer since we have no CO. I would guess that economics forced the use of methane.
 
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  • #29
Originally posted by chroot
I see you really have no idea what you're talking about, and are going on your gut feelings.

Having spent 3 years doing research for Virginia Tech on hydrogen fuel-cell powered vehicles, analyzing all the safety concerns along the way, my conclusion (along with many others') is that hydrogen is much, much safer than gasoline. The reasons? The LEL. The UEL. The heat of combustion. The nature of liquids. The diffusion rate of hydrogen gas. And so on.
Enlighten! My gut feeling is based on what I know, be it much or little. When I have no idea I try to be silent. What is about LEL/UEL? H has huge range that is considered hazardous. H heat is higher. what about nature of liquids, what about diffusion? I've seen enough burning vehicles to know that people would walk away. I don't want to see burning vehicle with liquid H tank in it. What makes H safer than gasoline or say diesel?

Originally posted by LURCH
I'm not sure you have the correct idea of what is (usually) meant by the term "fuel cell". You seem to be using it in reference to a storage medium; an alternative to pressurized cylinders of liquid hydrogen. This is not what a hydrogen fuel cell does.
I have at times confusion about this. At some places I've seen specifically designs of fuelcells that include bound H in them. Storage and converter combined, and called fuelcell. In other places specific unit of conversion of H2 into electricity is called fuelcell, assuming external H storage. Then, device that converts bound H into H2 gas for internal combustion engines is also called as fuelcell, internal H storage or external. This IS confusing.
 
  • #30
Originally posted by wimms
I have at times confusion about this. At some places I've seen specifically designs of fuelcells that include bound H in them. Storage and converter combined, and called fuelcell. In other places specific unit of conversion of H2 into electricity is called fuelcell, assuming external H storage. Then, device that converts bound H into H2 gas for internal combustion engines is also called as fuelcell, internal H storage or external. This IS confusing.

It is unfortunate that the terminology is not very well standardized, as of yet. However, your second definition describing "... specific unit of conversion of hydrogen into electricity is called fuel cell, assuming external hydrogen storage..." is the device being referred to by Freedom Car Initiative and other DOE programs, and is the most common meaning of the term at this time.

BTW, have you ever seen http://www.eere.energy.gov/hydrogenandfuelcells/fuelcells/ ? Pretty interesting, I think. They really are far more efficient than the internal combustion.

Of late, I have also given considerable thought to the topic of safety reguarding storage. Compartmentalization would seem to be the obvious solution. It seems to me that compartmentalizing the fuel tank of a vehicle so that a hydrogen explosion would be contained to a single compartment would add unacceptable amounts of weight to the vehicle. However, the fuel tank could be segregated into individual compartments not strong enough to stop and explosion, but with sufficient resistance to slow the propagation of the explosive shockwave to subsonic speed. In this could mean that in the event of catastrophic failure, rather than a single explosion that releases all the energy stored in the tank in 1/100th of the second, the energy would be released in a series of 10 smaller explosions spread out over 1/4 of a second. The advantage of this would be that the blast radius of the first detonation would simply be "re-blasted" by the rupturing of the subsequent compartments. Anything not affected by the first blast is simply not going to be affected.

As for safety comparisons with diesel or gasoline; when hydrogen leaks, it disperses. When liquid petroleum fuels leak, they run as rivers and form puddles, releasing vapors that can be ignited by any spark. When hydrogen is ignited, it flashes and is consumed completely and quickly. When gasoline is ignited, it continues to flow and spread fire. I am firmly convinced that if gasoline were a new product, it would never be allowed to be publicly distributed.
 
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  • #31
It is noteworthy that the only people that died on the Hindenberg either jumped, or they were burned by diesel fuel. It is claimed that no one died from H2 burns. A great deal of discussion can be found about this issue though the links posted.
 
  • #32
Originally posted by Bystander
"Insignificant?" Rrriiiggghhhttt --- tell us a magnitude for enthalpy of adsorption necessary to sequester useful quantities of hydrogen.

Sorry I missed this. Using what?

I suspect that you misunderstood what I meant. I don't mean that this happens spontaneously. I mean that we pump in liquid H2 that is stored under relatively low pressure. The idea here is to avoid pressurized cylinders using alternative storage technologies; not to act as a primary source for H2.
 
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  • #33
Originally posted by LURCH
I am firmly convinced that if gasoline were a new product, it would never be allowed to be publicly distributed.

I have made this statement many times. Also, consider that the car would never be allowed either. These things kill 40,000 children a year [I think it was] in the US alone. It is funny how quickly our outrage varies as a function of need.

Also, I really like your idea of segmented storage.
Using high tech materials, perhaps small but virtually indestructible vessels could be fashioned. This is one example of what I see as a "to do" problem. This hardly seems like a show stopper. It just requires some good thinking like yours.
 
  • #34
Originally posted by Ivan Seeking
Also, consider that the car would never be allowed either. These things kill 40,000 children a year [I think it was] in the US alone. It is funny how quickly our outrage varies as a function of need.
How many people per year do STAIRS kill? (Btw, I think that's 40,000 total people, not just children).
 
  • #35
for disposal of hydrocells, has any thought been given to a recycling or recharging method?(If the point was made earlier, sorry but I missed it).

Yes the auto industry moves slowly, but it's now giving serious attention to hydrogen cells. the electric hybrids were a failure, and hydrogen is the next big thing. Personally, with the way the stock market is, I'd be storing up stocks of promising fuell cell researchers and/or producers as a long term investment.

There are the logistics of costs to the consumer to consider.I imagine the initial vehicles will run around 50-60k minimum to start, but mass production and reduction of costs through other means should eventually bring it down to a more respectable 30k. This of course is just a rough estimate.

So it appears the "back to the future" hover car powered by garbage isn't so far off:wink:
 
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<h2>1. What is a hydrogen economy?</h2><p>A hydrogen economy is a proposed system in which hydrogen is used as a primary energy carrier for powering vehicles, homes, and industries. It involves the production, storage, and distribution of hydrogen as a clean and renewable energy source.</p><h2>2. Why is a hydrogen economy important?</h2><p>A hydrogen economy has the potential to reduce our dependence on fossil fuels and decrease greenhouse gas emissions. It also offers a more sustainable and efficient energy solution compared to traditional fossil fuels.</p><h2>3. How is hydrogen produced?</h2><p>Hydrogen can be produced through various methods, such as electrolysis, steam reforming, and biomass gasification. These processes involve splitting water molecules or extracting hydrogen from other sources, such as natural gas or biomass.</p><h2>4. What are the benefits of a hydrogen economy?</h2><p>A hydrogen economy offers numerous benefits, including reduced greenhouse gas emissions, increased energy efficiency, and improved air quality. It also has the potential to create new jobs and stimulate economic growth in the renewable energy sector.</p><h2>5. What are the challenges of implementing a hydrogen economy?</h2><p>Some of the challenges of implementing a hydrogen economy include the high cost of production and infrastructure development, as well as the need for more research and development to improve efficiency and safety. There is also a lack of widespread adoption and consumer acceptance of hydrogen-powered vehicles and technologies.</p>

1. What is a hydrogen economy?

A hydrogen economy is a proposed system in which hydrogen is used as a primary energy carrier for powering vehicles, homes, and industries. It involves the production, storage, and distribution of hydrogen as a clean and renewable energy source.

2. Why is a hydrogen economy important?

A hydrogen economy has the potential to reduce our dependence on fossil fuels and decrease greenhouse gas emissions. It also offers a more sustainable and efficient energy solution compared to traditional fossil fuels.

3. How is hydrogen produced?

Hydrogen can be produced through various methods, such as electrolysis, steam reforming, and biomass gasification. These processes involve splitting water molecules or extracting hydrogen from other sources, such as natural gas or biomass.

4. What are the benefits of a hydrogen economy?

A hydrogen economy offers numerous benefits, including reduced greenhouse gas emissions, increased energy efficiency, and improved air quality. It also has the potential to create new jobs and stimulate economic growth in the renewable energy sector.

5. What are the challenges of implementing a hydrogen economy?

Some of the challenges of implementing a hydrogen economy include the high cost of production and infrastructure development, as well as the need for more research and development to improve efficiency and safety. There is also a lack of widespread adoption and consumer acceptance of hydrogen-powered vehicles and technologies.

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