The Physics of the Hydrogen Economy 501
Spy der Mann writes "A Physics Today article entitled The Hydrogen Economy explores the possibility of using hydrogen as an energy source. The article explores the current methods, limitations, and the need for more research. For those wanting to point out the Hindenburg incident, the article doesn't talk about gaseous hydrogen only, but also about hydrogen fuel cells. My favorite quote: 'The natural world began forming its own hydrogen economy 3 billion years ago, when it developed photosynthesis to convert CO2, water, and sunlight into hydrogen and oxygen'. Interesting read for eco-fans."
Popular Science (Score:5, Informative)
Hydrogen is a Boondoggle - Biodiesel (Score:5, Interesting)
This would alleviate both the global warming problem and our dependence on Middle-Eastern petroleum. The technology is available now, and because of the high energy density, no sacrifices on the part of automotive consumers are required in terms of range and performance. (We may need to invest in research into better catalytic converters and turbocharging technology.)
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Interesting)
Bonus: the exhaust smells like French fries.
Re:Hydrogen is a Boondoggle - Biodiesel (Score:2)
Yes, definitely research into better catalytic converters! Or, Stirling Cycle series hybrids! [4brad.com] Since Stirling engines are external combustion, we can tailor conditions to acheive nearly complete combustion.
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Informative)
Stirlings would be interesting in private aviation, present engines use leaded gasoline which is getting scarcer and more expensive. Swithching to stirling's would alow the average person to own a plane that not only burned Jet A fuel, but also develop
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Informative)
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Informative)
You can even eat canola flowers. They taste like cabbage. Cattle get sick and die (something that I've never seen) probably for the same reasons that alfalfa kills cattle (in other words you can't graze cattle on alfalf
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Informative)
Biodiesel is refined.
AFAIK the only difference to an engine with biodiesel is that the timing needs to be adjusted differently, other than that most diesel engines are ready to go.
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Informative)
The problem with diesel and biodisel is that it has a particulate exhaust, which is detrimental to the environment. Particulate exhaust is a major contributor to greenhouse gasses. Biodiesel isn't a green solution like Hydrogen.
I don't know if anyone's
Re:Hydrogen is a Boondoggle - Biodiesel (Score:2)
alleviate global warming? (Score:2)
Re:alleviate global warming? (Score:5, Informative)
Of course it does, but its creation consumes as much.
Re:alleviate global warming? (Score:3, Informative)
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Informative)
was interviewed by Charlie Rose recently. He
stated that the most cost effective source of
hydrogen was to strip it off of natural gas.
I see a really big problem with that solution --
to be truly environmentally friendly, the new
"hydrogen economy" cannot use a carbon-based
source. The resultant byproduct, carbon dioxide,
is also a greenhouse gas. The only way to have
an effective "zero sum" energy solution is a
non-polluting (hydro/wave/solar/geothermal)
source of ele
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Interesting)
But the real issue is this: Why on earth are we requiring vehicles to carry around their power supply in the first place, except for "backwards compatability"? Fully automated magnetic-propelled cooperative personalized elevated-track-riding vehicles (full door-to-do
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Insightful)
Re:Hydrogen is a Boondoggle - Biodiesel (Score:3, Insightful)
Lets Drive To Mars in the Minivan!!!! (Score:3, Insightful)
Re:Popular Science (Score:2)
FEAR HYDROGEN (Score:3, Funny)
I have to post this as an AC to keep my identity secret. The government created hydrogen in 1897 and altered all history books to reflect otherwise.
Background: I work as a research scientist in a secret government lab deep under the Nevada desert. There are a few things the public needs to know about hydrogen.
FACT: Hydrogen was NOT discovered by Henry Cavendish in 1776 as the books say. Read on...
FACT: in 1892 the US government was experimenting with ways to weaponize a new substance that was discovered at an alien crash site in New Mexico. The military knew that this substance, used as fuel in the alien ship, could be weaponized which would allow the US to take over the world as part of its Pax Americana goal.
FACT: in late 1894 a spark in the secret lab caused the fuel to chain react. It destroyed several square miles of land and created a crater in Arizona. The history books were re-written to suggest that Barrington Crater in Arizona was in fact created by a meteor eons earlier. The fact is that Dr. Hymie Barrington was the person who sparked off the largest explosion until that time on the planet.
FACT: A byproduct of the fusion was a toxic product the government called "Hydrogen". So much of the hydrogen was released that it is now found virtually everywhere on Earth. Recent measurements show that common water is now 2 parts hydrogen to one part oxygen.
FACT: The US wanted to scare people into not using hydrogen. That is why they engineered the Hindengberg disaster in 1937. An oilman at the time, Wallace Bush (sound familiar?) knew that hydrogen could ruin his new buisiness of oil drilling. Bush, along with Herman Cheney (another oilman) rigged explosives in the Hindenberg back in Germany and ectivated them by remote control when all the cameras were rolling.
He may be onto something (Score:5, Funny)
Re:He may be onto something (Score:4, Funny)
Re:FEAR HYDROGEN (Score:2)
Fun with Hydrogen Jets (Score:5, Interesting)
One of his coworkers was pushing a metal cart loaded with a test rig down an aisle. About halfway down there was a huge *whump* that echoed down the hall and the entire front half of the cart was in flames. The man wasn't seriously injured, even being so close to a tremendous fire.
A H2 pipeline had ruptured (H2 embrittlement I think he said) and was spewing a steady stream of the material in a jet across the walkway. Somehow it had caught fire and, since H2 burns colorless no one saw it.
Had that cart not been there.... ouch.
Re:Fun with Hydrogen Jets (Score:2)
Looking for steam leaks (Score:5, Informative)
Re:Fun with Hydrogen Jets -- brooms (Score:2)
Re:Fun with Hydrogen Jets (Score:3, Insightful)
I claim all copyright (Score:4, Funny)
Well, as the official sponsor of the Big Bang, I claim all copyright on that whole electrons and protons forming into a 1-1 molecule and will hereby sue the ass of any plant who dars to reverse engineer my process to produce Hydrogen
Hindenburg (Score:2, Informative)
Re:Hindenburg (Score:5, Informative)
Re:Hindenburg (Score:4, Informative)
Now as for a compressed H2 tank exploding in a car, that seems more likely.
But IANAPhysicist.
Re:Hindenburg (Score:3, Informative)
Re:Hindenburg (Score:3, Informative)
Ever burned a ziplock back full of hyrdogen? Once the flame burns through the bag there's a pretty big "poof". I don't know what you're talking about with hydrogen not reacting wildly, because it's violent as most other inflamible substances.
And what's this have to do with the article anyway?
Re:Hindenburg (Score:2)
After your plastic bag experiment, you think of hydrogen as an explosive. It really isn't, not in large quantities - essentially you will get a longer poof, but not a louder one. The burn rate is limited by the mixing of air with the hydrogen, and that is limitted by the heat created by
2 remarks: (Score:4, Insightful)
2- Hydrogen is only a vector. It is not an energy source, it's only a way to carry energy created elsewhere. There is no "hydrogen economy", just the existing energy economy with an additional vector that can be compared to batteries.
Re:2 remarks: (Score:3, Informative)
Re:2 remarks: (Score:2)
Couldn't you say the same for any energy source? Oil is just a way to carry energy created elsewhere...
Re:2 remarks: (Score:2)
And if you could drill for elemental hydrogen, it'd make sense to talk about a "hydrogen economy".
Re:2 remarks: (Score:2)
(See Also: Law of Conservation of Energy)
Nonetheless, I'll take fusion over chemically stored energy any day. And if I have to use chemical energy, I'll take chemical energy that I can easily regenerate. (You can't make oil by mixing hydrogen and carbon, at least not without a lot of photosynthesis, anaerobic br
Re:2 remarks: (Score:3, Insightful)
Hydrogen is only a vector. It is not an energy source, it's only a way to carry energy created elsewhere. There is no "hydrogen economy"...
Actually, I think the term "hydrogen economy" is actually quite apt -- it's like "cash economy" or "barter economy" -- i.e. the first word refers to the medium of exchange, not what's actually driving things.
Re:2 remarks: (Score:3, Informative)
Is it just me...? (Score:5, Interesting)
Or so it seems to me...
Hydrogen is not a power source! (Score:5, Informative)
Of course fusion power would use Hydrogen as power source, but that's a totally different issue, and it happening is probably much farther in the future than "Hydrogen Economy"...
Re:Hydrogen is not a power source! (Score:2)
I was debating hydrogen with a Green Party person once. He claimed that hydrogen WAS an energy source and that if you hook two hydrogren "batteries" together, they will create even MORE energy. Needless to say, I ended the conversation there.
This is the same Green Party person who later told me that: "sure, fascism sounds scary, but it might be just what we need to save the earth from ourselves."
Photosynthesis makes Hydrogen? Umm... (Score:3, Informative)
Re:Photosynthesis makes Hydrogen? Umm... (Score:2)
Mod parent "Insightful" (Score:2)
Microorganisms have little use for molecular hydrogen; what are they going to do with their hard-earned energy, vent it as gas? Fixing carbon for energy and structure is their goal, and fats and carbohydrates are nearly perfect for those needs. (Fatty acids and hydrocarbons are very similar chemically.)
Using molecular hydrogen for e.g. vehicular power is problematic; we could learn something from plants if we used carbon as a carrier for hydrogen instead
SHAM! Hydrogen is like a magic genie.. (Score:2, Informative)
Everyone can agree it is a good thing, but nobody knows how to get it.
Where do we get it? If we use solar panels to create hydrogen, it would be far more efficient to just use the electricity then to convert it to hydrogen. In reality most hydrogen we make comes from reformed gasoline, thermodynamics tells us that wed be better off just burning the gasoline in the first place.
The hydrogen economy is a bush sham.
Everyone in the DOE knows it
Everyone in the DOE who said it
Re:SHAM! Hydrogen is like a magic genie.. (Score:2)
Conversion to hydrogen is an inefficient process. Why would you burn hydrogen in you car if you can have an all electric motor, exchanging batteries at 'pump' stations?
Solar*(inefficient conversion rate)->Electricity*(inefficient conversion rate)->Hydrogen*(inefficient conversion rate)->Power
Solar*(inefficient conversion rate)->Electricity*(inefficient conversion rate)->Power
Which one is better?
Sure you have the whole 'batteries don't hold eno
Re:SHAM! Hydrogen is like a magic genie.. (Score:2)
Solar? Unlimited (well, for 5-6 billion years) but space is limiting. Wind power? Not enough space, might change wind patterns. Nuclear? I guess Uranium isn't limitless either, and people fear everything starting with 'Nu' and ending with 'clear'. Coal and fossil fuels = massive pollution, bad eff
They keep delaying (Score:2, Insightful)
One prolem i think is that oil companies have been blocking the development because it would take away a huge market for them. They would lose tons of money if Hydrogen became a practical resource.
Re:They keep delaying (Score:2)
That doesn't make as much sense as you might think, because the oil companies...well...are running out of oil.
In the US at least, we've got plenty of coal for what looks like another 100+ years (if we can deal with or mitigate the consequences,) and we're up to our necks in wind and solar (though the prices have to come down a little more on the former and by about another half on the latter,) but no matter where you look, the smart money's on the entire world having another 50 years' worth of oil - on the
Re:They keep delaying (Score:2)
Look out for Big Hydrogen! (Score:2)
If hydrogen takes off, you'll see the "oil companies" quickly become the "hydrogen companies". After all, they're the ones with fuel distribution expertise. Where are you going to fill up your hydrogen-powered car? At the gas station (and finally, Brits and Americans will agree on what their cars' fuel is called!)
Odd bit in TFA: "internal combustion engines can be rather easily modified to run on hydrogen instead of hydrocarbons." Is that so? I understand why jets can be converted easily, but my Honda can
Re:They keep delaying (Score:2)
I think the physicists are just looking for work.. (Score:5, Informative)
Re:I think the physicists are just looking for wor (Score:2)
100 miles x 100 miles of Nevada desert would power the entire nation with photovoltaics, but the thing is...
PV goes on roofs. Oil wells do not. Look out the window next time you fly into LAX or Dallas...we do need a lot of land for solar. It's just that we've already built stuff on most of it.
Re:I think the physicists are just looking for wor (Score:2)
why not a diesel economy? (Score:5, Insightful)
Why is this only obvious to me? Why can't I buy a honda civic with a diesel?
Re:why not a diesel economy? (Score:4, Informative)
Re:why not a diesel economy? (Score:3, Interesting)
IIRC, there was an article a while ago about how someone was making biodiesel for something like $0.30 a gallon, but he was getting all kinds of used resturaunt fat for free- and it wouldn't be free for very long if it becomes an ingredient in widely used fuel.
Moreover, f
Re:why not a diesel economy? (Score:2)
It isn't really economically competitive with fossil fuel by maybe a factor of 2, but as reserves dry up it will become attractive.
Re:why not a diesel economy? (Score:3, Interesting)
"I don't see how it could ever approach being even 1% of the fuel we use nationwide."
don't forget the algae potential. per this UNH study http://www.unh.edu/p2/biodiesel/article_alge.html [unh.edu] about10 million acres would be required for our usage, which is ~1/40th of our current crop farming space.
Environmental effects? (Score:4, Informative)
The article makes no mention of the potential environmental effects of large-scale hydrogen production. To make hydrogen, you could use a nuclear reactor as suggested but that produces nuclear waste. You could invent some kind of biochemical method but that will probably require living cells and large quantities of clean water - which is also needed by growing human populations. The solar method is clean when working but the photochemical cells would probably be quite toxic.
I do not think the "hydrogen economy" will provide limitless clean energy without any environmental costs or risks.
Re:Environmental effects? (Score:4, Informative)
Solar cells are not as toxic as people seem to offhandedly suppose...they're etched silicon for the most part, though as you microelectronics folks know, there's solvent risk that has to be managed there. See this PDF for more info.
And to head off the unresearched "solar takes more energy to make than you get from using it" canard that always shows up in these threads, I recommend the notes and bibliography at NREL, keeping in mind that the newer systems are closer to the lower numbers from this somewhat aging report.
Now, all that said, you have a good point; no energy is completely free...what we *really* have to do is become quite a bit more efficient with how we use it...
Re:Environmental effects? (Score:2)
Energy Payback. [nrel.gov]
Um, did ANYBODY read the article? (Score:5, Informative)
The article isn't about how wonderful the hydrogen economy will be etc. etc. Nor is it about the Hindenburg. It's about the immense basic science challenges that will likely prevent any commercial viability for decades...
Given that the article was directed at research physicists (readers of Physics Today), the intent was probably to motivate people to look into these challenges as basic science research areas for their labs.
The main reason they think there's any point at all is because of the energy conversion efficiency of fuel cells, and the natural link between fuel cell use and hydrogen. But as the original post implies, one of the best ways to store hydrogen is in the form of hydrocarbons:
Hydrogen pollution (Score:3, Informative)
Every technology has its unexpected negative consequences.
best article on hydrogen so far (Score:2)
Iceland and Hawaii (Score:4, Interesting)
1. Huge vast amounts of Free Energy, courtesy of plate tectonics.
2. They are completely surrounded by all the water they could ever want.
All you have to do is drill down to the heat, use it to boil water to spin turbines, which then make electricity to crack the water to make the hydrogen. Done.
You heard it hear first. The amount of energy under Iceland and the Big Island is *insane*. Another good place to drill for heat would be the supervolcano at Yellowstone. Use the electricity generated there and you can pump in the water from most anywhere and crack it into H2. Also: by draining off some of the heat from the supervolcano, we might be able to prevent (or slow) the eventual eruption of that sucker.
Problem solved. Next?
HW
Re:Iceland and Hawaii (Score:3, Interesting)
I'd rather close all the nuke / coal / gas plants and turn Yellowstone into one big electrical generator. A loss of Yellowstone - yeah - but we'd gain so much in return.
RS
Yellowstone Information (Score:3, Informative)
The recurrence interval for large scale eruptions at Yellowstone ranges from 600Ka to 800Ka. That's a 200,000 year range. The last major eruption was ~640Ka ago.
That means it might erupt tomorrow, or it might erupt 120,000 years from now. Chances are, we won't be alive to see it when it finally happens.
It's also entirely possible that it might not have a major eruption ever again. The 600-800Ka recurre
Safe (Score:2, Informative)
Hydrogen is NOT an energy source (Score:2)
Let's not forget entropy (Score:3, Interesting)
The executive summary version of this fact is that if the entire population of the earth were consuming energy at the same rate as Americans, the atmosphere would be incandescent with waste heat.
The obvious consequence of this -- and something which rarely receives any exposure on Slashdot unless it involves white LEDs -- is that producing more energy is not a viable long term goal; only conserving energy is. Even were this not the case, the current growth rates for energy consumption would lead to the exhaustion of even uranium for fission in a relatively small number of generations.
Arguably, the worst thing that could happent to the human race would be the practical availability of an effectively unlimited source of power like fusion. If fusion power proved to be anywhere near as cheap as its proponents claim it would be, all economic incentive to reduce consumption (and therefore waste heat production) would be eliminated. While it would be theoretically possible to offset some of this by moving production offplanet, the economic barriers would be steep. Considering the reluctance of our species to deal with the current manmade environmental effects of industry, there is little reason to be optimistic.
Alternative energy proponents all too often sound as if they were discussing perpetual motion machines. It is not possible to escape the Second Law of Thermodynamics. Some machines are more efficient than others, to be sure, but there is a theoretical limit and it is not a generous one. Beyond that limit, which is seldom even approached, all you can do is shuffle the wastage around; you cannot eliminate it.
This is not something anyone likes to hear, and I suspect that is why it is so universally overlooked. There is a utopian vision shared by technologists and science fiction devotees (and I count myself in both camps) in which technology will someday give us everything we want. Unfortunately, "everything we want" violates the laws of thermodynamics, and those laws appear unlikely to be repealed.
Re:Let's not forget entropy (Score:3, Insightful)
Are you on crack? Look at New York is it hot or cold in the winter? The amount of energy used by us humans is TINY when compaired to say the amound of solar radiation that lands on the earth each and every day and the net tempature of the planet stays constant because all this energy is radiated back out into s
Re:Let's not forget entropy (Score:3, Interesting)
This reflects a profound ignorance of the way that technological progress works.
If you told someone in 1880 that the New York of 2004 would have a population of 8 million that would have said, "that is totally impossible! Do you have any idea how much horse manure a city of 8 million people would produce?"
Likewise, the 1880 individual would not believe that individual transports capable of routine travel at a 100k
Re:Let's not forget entropy (Score:3, Interesting)
The executive summary version of this fact is that if the entire population of the earth were consuming energy at the same rate as Americans, the atmosphere would be incandescent with waste heat.
Pure BS. As other posters pointed out, the extra energy is tiny and the radiation heat transfer into space still works very good (despite all the greenhouse gases). In
Hydrogen is not an energy source (Score:3, Insightful)
Hydrogen must take more energy to produce than you can recover from it. So our hydrogen economy is not a hydrogen economy at all. It is an economy based on some other energy source, with an exchange rate, like currency, where you lose a little to the money changer in every transaction.
So where do they imagine that energy will come from? Solar? Unlikely. Hydro? Simply not enough to supply the world's needs. Geothermal? Also not enough. All of it combined isn't enough.
And if it is enough, why waste some of it converting it to hydrogen, then back to electricity? Why not just use it directly?
The whole concept of a "hydrogen economy" is a sham. Or a scam. Somebody's making a lot of money on all that research.
But no matter how much research you do, you cannot turn hydrogen in to an energy source. It does not occur in nature in a usable form.
Lousy writing... but did you read it? (Score:5, Insightful)
First, I hate that the article contains the submitter's favourite: 'The natural world began forming its own hydrogen economy 3 billion years ago, when it developed photosynthesis to convert CO2, water, and sunlight into hydrogen and oxygen'. What crap. Photosynthesis generates saccharides - chains of sugars, which are used by plants in to generate energy from respiration, just as animals do. There may be a brief moment where water molecules are split into H. and OH. radicals, but no hydrogen gas is produced or used as an energy store. Bury the plants deep undergound for a few million years and you have fossil fuels, not hydrogen gas pockets.
Now, for those of you pointing out how crap hydrogen's energy density is - you're right! It sucks. It's so hard to deal with the stuff. I mean, the only way they make it work for the Space Shuttle is to deep freeze it so that it liquifies, and it takes yet more energy to cool it down which makes it suck more...
If you read the article, it admits that using hydrogen in vehicles is very challenging. A tank full of H2 is unlikely to ever happen on this planet. Instead, the suggested vehicle storage solutions include nanostructure materials, surface absorbption/adsorption, or ionic compounds. However, cars and planes are not everything in the world. H2 gas could be used in homes and businesses instead of natural gas. Various methods of generating H2 gas from a much denser hydrogen store - such as water - are suggested: heating it up to 3000C (~5400F) using solar collectors or nuclear power, bacterial processes, and catalysts (see figure 2 in the article - looks fancy doesn't it?).
So, OK, some of the style of the article feels bad to me, but there is some useful physics in there.
Distribution strategy?!? (Score:3, Insightful)
I do not mean by this message to imply that we cannot move to an economy that oxidizes hydrogen as a primary resource. I *am* intending by this message to point out the amount of hand waving that is going on both within government circles, the Department of Energy, the news media, etc. about the "famed" hydrogen economy. It is a much more difficult problem than the people waving their hands would like us to believe.
In contrast an energy solution built upon methane (natural gas) which is manufactured from carbon which is in the atmosphere (rather than in the ground) is a viable sustainable solution give technologies and infrastructure we already have.
We just have to be intelligent enough to (a) develop the organisms to produce the methane; and (b) channel said methane into the existiing natural gas pipeline system; and (c) perhaps develop some incentives that would bias farmers to produce solar ponds that produce methane instead of cows that produce methane. (Think about this for a second -- sunlight provides energy. Photosynthesis grows grass. Cows eat grass. Cows produce methane. Humans consume methane (but it is mostly methane we haul out of the ground that was manufactured thousands of years ago.)
Are we not clever enough to produce our own methane from atmospheric carbon dioxide in a way that creates a completely sustainable energy system?
This I ask you...
And by the way the complete genomes for bacteria that can (a) perform photosynthesis and so are able to harvest solar energy; and (b) the bacteria that can synthesize methane; are in the public databases. They are free for the taking. It will not be easy to merge them. I have some ideas as to how to do this. The point of this message however is to get you to *THINK* outside of the box.
Yes, we may get some subset of a hydrogen economy. But as most /. readers are probably good engineers you should be asking how, where and when. In the meantime a methane economy could more easily be developed and sustained (i.e. the carbon we put into the atmosphere is carbon we have previously taken out of the atmosphere).
Just a few thoughts...
Re:yes, but... (Score:2)
Re:What bullshit (Score:2)
Re:What bullshit (Score:2)
Re:What bullshit (Score:5, Insightful)
It's not just moving pollution around, it's more about changing the *type* of pollution. You can produce Hydrogen with nuclear power or renewable energy source, which both (debatable of course) are far safer that burning fossil fuels (which cause acid rain, CO2 emissions, Middle East wars...) to get equal amount of energy.
Re:What bullshit (Score:2)
You can produce Hydrogen with nuclear power or renewable energy source, which both (debatable of course) are far safer that burning fossil fuels (which cause acid rain, CO2 emissions, Middle East wars...) to get equal amount of energy.
but where are these nuclear and renewable energy sources? Unfortunately, the only currently viable energy source from making hydrogen is fossil fuel. So switching to "clean" hydrogen cars would produce MORE fossil fuel pollution (because of the added inefficiencies in the
Re:What bullshit (Score:2)
Well, nuclear power with breeder reactors would be an easy answer with nearly unlimited fuel (it can use other elements than just Uranium). Only emotional and security issues (the prob
Nuke power to run hydrogen economy (Score:2)
Re:What bullshit (Score:2)
Re:What bullshit (Score:2)
Ha, oops! With Yahoo's origional story down, I couldn't find the company name and assumed it was Agro or AgroWaste or some such...
Changing World Technologies, Inc. [www.changi...ldtech.com] is the company in charge here.
Re:What bullshit (Score:5, Insightful)
Reducing emissions as new technology comes about will entail upgrading those processing plants rather than trying to get millions of drivers to upgrade their vehicle.
Re:What bullshit (Score:3, Insightful)
BUT lets say we're talking about powering cars with Hydrogen. Now you've moved the pollution from hundreds of thousands of cars to several dozen power plants/watercrackers.
Now, tell me you can afford a $5k exhaust scrubber [google.com] for your car's exhaust? No? Well, a powerplant running 500k cars should be able to afford a larger $100k scrubber.
By bringing pollution to a single point, that pollution becomes easier to measure as well as manage.
Re:What bullshit (Score:2)
Actually this is not exactly true. It woud be true of simle compounds like water, but the most commonly suggested source of hydrogen is to knock a hydrogen atom off of a complex hydrocarbon. The preferred hydrocarbon is natural gas. Since Russia sits on the worlds larges supply of natural gas, they would become the new OPEC (HPEC?) of a hydrogen energy dependant world.
What you are missing (Score:3, Insightful)
When you burn gasoline in a power plant, you run at one speed, the most efficient one. This means that a gallon of gas burned in a power plant will generally
O.o you're kidding me, right? (Score:5, Informative)
So, in order to have a large-scale hydrogen "economy", you need an alternate power source to make all that hydrogen in the first place.
News for you. Hydrogen is not "made". It's extracted. OK, putting the word jokes aside, I understand that what you mean is that *PURE* hydrogen is not found *NATURALLY* on Earth.
So we need an ALTERNATIVE power source to obtain it. So what? Electricity is not energy either! It's a bunch of electrons and possitive ions waiting for us to mix them together. We use turbines in dams to produce it. (kynetic energy -> electrical energy). We need engines (kynetic->chemical) to take out the oil from the deposits below Earth.
Didn't you study physics in high school? Just climbing some stairs transforms the kinetic energy you use to move, into "potential energy". And by falling you turn it into kinetic energy, too. And guess what, we're made of protons,electrons and neutrons, and all of these are made of quantums [frostburg.edu], which are discrete packets of *energy*.
EVERYTHING's energy, dude! So what's the mystery if hydrogen needs some alternate energy to be extracted from water or other compounds? Don't forget your thermodynamics lessons from college. All engines do is transforming one form of energy into another. And since no engine is 100% efficient, then we have what is known as "entropy" [wikipedia.org], which constantly is increased across the universe.
So, what power source can we have to extract pure H2 from other materials? Well, we can have, for example, solar power [nanoapex.com].
Hydrogen can be built *instantly* with some electrolysis (either chemically or solar powered). I did it myself at home when i was a kid. You put these water-filled tubes in a bucket (upside down)
The H2-generating process is sub-optimal right now (as was the vacuum tube in the 70's to act as a current switch), but technology always improves with time. And don't forget that big companies like Shell [shell.com] are investing millions of dollars into research.
The point with using hydrogen, is that:
a) It's combustible and can produce energy when reacting chemically with other elements/compounds.
b) Unlike fossil fuels, it doesn't require millions of years to be produced/extracted/whatever.
c) It's clean, it doesn't produce CO2 when burned.
Did you RTFA by the way? How do you think fossil fuels are made? Plants transformed H2O + CO2 + SOLAR POWER + nutrients into wood (and O2 as a byproduct). And these with time were transformed into hydrocarbons. Which consist of long hydrogen and carbon chains (not to be confused with carbohydrates - sugars -, which have oxygen in them).
The real energy in hydrocarbons is stored in the chemical bonds between the carbon and hydrogen atoms. By burning them, the combustion process releases these bonds. O2 + (long chains of C + H) ---> H2O + CO2. See? There's the hydrogen, and the C. What we're wanting to do, is get the carbon out of the equation. O2 + 2H2 ---> 2 H2O.
So, is hydrogen economy all that far-fetched? No, it isn't! We've been using hydrogen in our cars for a lot of time. The problem is that we're also using carbon.
Frankly, I'm amazed why your post was moderated as "insightful" (someone MOD it as overrated, please!). More mysterious than the universe is the human ignorance.
P.S. If this post is modded up, please do so as "informative".
Re:What bullshit (Score:2)
Right, and once you build a spaceship with a plasma scoop to mine the surface of the sun (or Jupiter) we'll be all set for energy. *Terrestrial* hydrogen won't occur naturally. Atmospheric H2 floated off to space long ago. The rest is bound with water, hydrocarbons or some other compound.
Re:Hydrogen reprecussions (Score:2)
If the "somewhere" is solar power, then we need places with lots of sunshine where we can build some really big solar farms. Ideally, there should be little on the ground, because that would get in the way of building the solar farms. Like, Saudi Arabia's Empty Quarter comes to mind as a perfect site...
Re:hydrogen rises.. (Score:2)
Well yes, but only because the exploding metal tank was hot enough to melt... hot hydrogen cannot explode, it requires oxygen to burn. No oxygen in tank, no explosion.
Once the tank is "near" its melting point it will weaken though, and could rupture. The tank would probably be empty first though, because of hydrogen's low mass (and therefore high exit velocity).
Re:Nuclear is NOT Clean (Score:3, Insightful)
Or are atomic scientists or know enough about the reality, not the hype, or physics in general to know the truth. Physics doesn't lie. Coal plants put more radiation into the environment than nuclear plants. Fact. Even the worst accidents on record are not even a drop in t