The (Possible) Future of Alternative Energy

Sponge! writes: "The stuff that turns oil into margarine. The stuff that made the Hindenburg float. The stuff that combines with oxygen to make water and with carbon to make methane. The stuff that sends the space shuttle skyward and could someday power your car, office building, house, cell phone, even your hearing aid. That "Stuff" is hydrogen, and according to Amory Lovins, it is the future of energy. Here is an interesting article on Lovins and his view of hydrogen as the number one fuel."

Short term/long term

[perdida]

We have been able to transfer a lot of our daily consumer power needs off the grid for years.

Unfotunately, any large scale production of alternative energy using consumables would require a massive capital investment by government and private enterprise that they have been postponing later and later.

We could have hydrogen powered cars and solar powered houses right now, if 40 years ago somebody had started a small factory making consumer goods that used these energy sources. By now, there would be lots of factories making the goods, and cheaper production methods would have resulted.

The short term planning orientation of energy companies and their associated enterprises is what keeps us dependent on fossil fuels today.

Only now are corps like BP investing in alternative energy. And BP isn't advancing the field much, it seems to be buying up small alternatives industry firms and keeping them in a technological and marketing holding pattern.

In my opinion, private enterprise and government won't invest the massive amounts required to scale alternatives production until the cost of fossil fuels is so prohibitive that they are (short-term) forced to do so.

By then, it will be too late.

I wish I knew what to do about this.

Re:Short term/long term

[Darth+Turbogeek]

Convincing Industry and Govt of the Big Gobs Of Money to be had with alternate energy should be the first step. Unless they see a buck in it and preferably an easily redemable one, Alternate energy isnt going to go far.

That being said, Does anyone realise Texas is one place where this happen and hence Wind Turbines are being built. Odd that it is in Geoge W Buhs's state - but I can say it was NOT done to save the enviroment. It was dnoe because there was shown to be a buck in it.

Soory Greenies, that's the way it works. You want to save the enviroment, prove to someone with dollars that there is more dollars to be had and quickly. Convince the money men of that aand watch how fast these clean technologies get built

Re:Short term/long term

[Malcontent]

"Soory Greenies, that's the way it works. You want to save the enviroment, prove to someone with dollars that there is more dollars to be had and quickly"

And that's why we are all on a collision course with calamity.

There is no profit in preserving life. A bluefin tuna swimming in the ocean is worthless to anybody. The same tuna when killed is worth a thousand dollars. Same with clean waters and clean air. They are both worthless but if you can make a lot of money polluting them.

The problem is one of ethics. Most people are willing to deprive your great grandchildren to make money today. The so called greenies are trying to preseve the remaining planet for future generations. Unfortunately there is no profit in that. As a result they are not as rich are the business owners and shareholders. As a result the natural resources of the world keep spiraling down. Nothing can be done about it except maybe violence.

Other Infos

[robbyjo]

Hydrogen Fuel Cell Institute, California Hydrogen Business Council.

Read "Hydrogen Futures: Toward A Sustainable Energy System", from WorldWatch Institute. Check out its Q & A section.

Kinda like saying gyroscopes are the future...

[herrlich_98]

The main thing that gets glossed over in his argument is that unlike oil or solar you never get more energy from hydrogen than you put in. Sure there's a lot of hydrogen around, but to break H20 apart is always going to take slightly more energy than you get when you burn it or use a fuel cell to put it back together.

Hydrogen is better compared with gyroscopes or batteries than oil, solar or nuclear.

Re:Kinda like saying gyroscopes are the future...

[dbrutus]

Hydrogen is probably not going to come from H20 but rather from methane, natural gas, or other hydrogen rich sources that don't take as much energy to break apart as H20. The multi-fuel issue is going to set apart hydrogen because you don't need to build an infrastructure, you can use the one we already have and shift the fuel as new ones become available. Indirect competition rules the roost and OPEC pricing power is broken because all of a sudden, switching becomes possible without killing the economy.

DB

Re:Kinda like saying gyroscopes are the future...

[Malcontent]

" The main thing that gets glossed over in his argument is that unlike oil or solar you never get more energy from hydrogen than you put in."

Actually the main thing that gets glossed over is that we use too much energy in the first place. If everybody carpooled one day out of the week we would cut gasoline usage by 25%. Hey we could be free of mideast oil if we just stopped driving one day a week. The solution is so easy too bad it takes actual sacrifice and no american would ever take the bus or carpool, it would be too inconvenient.

My thoughts about alternatives

[Kiro]

I love reading about alternatives to horribly invasive forms of energy we use today. This is a meta stop gap solution, a way of reducing peaking by bleeding compressed air to help the generators during peak usage. The crux of the issue remains, our power generation techniques are dirty and deprecated.
Most of quelling of useful technology is done by: the old boys club not wanting to give up on the profits, a lot of it is mis-information, and the remainder of the reason why we use horribly inefficient power sources is lack of attention (by our sheep like media).
I used to live near a nuclear power plant in Minnesota. I don't know why people are so afraid of good clean nuclear power. There used to be a lot of cancer there, and everyone jumped on the power plant, but it was shown that most of the cancers were not related to the power plant at all, there was solvents being dumped into the local water supplies that were causing intestinal cancer. People don't understand radiation cancers always occur in statistical rings, that certain percentage of the people a certain distance get some very specific cancers. Nevertheless, even after the nuclear power plant was vindicated - the media failed to report that the solvents killed the people, not the power plant.
Anyways, here we are burning coal and fossil fuels all day long. Fuel cells, gyroscope technology, ceramic engine and electric cars are getting the kibosh due to the retrofitting costs. And we burn, burn burn.
Today on the front page of the Wall Street Journal, May 1, 2001, Coal and Utility companies are lobbying the ever-environment-hating White House to reduce the clean air rules on power plants. Cheney said the administration energy policy will focus on more output for oil and natural gas.
They can continue to sell us electricity at higher prices, cut the cost, pollute the air, and keep real technology from proliferating.
Some say time is the fire in which we burn. My time is running out

.

Hydrogen as energy storage/transfer medium?

[Goonie]

That article was singularly uninformative, but it strikes me as possible that in the future instead of electricity transmission wires, electricity generation plants will simply electrolyse water, and we'll turn the hydrogen back to energy in domestic fuel cells.

The benefits are considerable:

• no transmission losses (except for leakage and pumping costs)
• the ability to deliver it in trucks to remote areas, or even ship it between continents, just like oil.
• No need for peak load generators, because you can just store a surplus of hydrogen during low-demand times and release it during peak periods.
• Very efficient at fuel-cell end - most of the waste heat runs the household hot-water system.

Is such a system ever going to be feasible?

He's fission and I bit

[Mandelbrute]

I don't know why people are so afraid of good clean nuclear power.

Chenobyl, Three Mile Island, Sellafield and that power station in France where all of those people died (from liquid sodium) during the decommisioning.

Three Mile Island particularly showed that the people who were in charge of the plant should probably not be trusted with anything as dangerous as a motor vehicle - the contractors x-rayed the same weld joint dozens of times (and changed the id numbers) instead of inspecting the whole plant because they knew that no-one would check up on them.

Fission is clean power to public relations people and a government that wants a good source of radioactive material for weapons, but to engineers it is very dirty power that needs to be very carefully contained in case it gets out and kills everything near the powerplant.

The financial cost of construction and decomissioning nuclear power plants is enormous - that price may come down after a few more have been decommisioned, but for now it is an expensive form of power over the life cycle of the plant. All of those rare earths and hi-tech materials are not cheap - and everything used in the steam cycle is going to be radioactive enough to cause storage problems for more than a lifetime. The environmental costs have been enormous in the Ukrane, and may be high in other places in the future.

Re:He's fission and I bit

[Grond]

3 points.

First, engineers do not regard nuclear power as a dirty source of energy that must be contained, lest it kill everyone. I live in a small city in Arkansas (Russellville, population ~25,000) that is the site of a large nuclear power plant. I know many engineers who work at the plant and a few people involved with the construction and design of the plant (such as my father, who did the environmental impact work on the 'steam cycle,' more on that later). Those engineers regard nuclear power as an extremely safe, potentially cheap form of power. The total number of American deaths from nuclear power is incredibly small compared to that of coal/oil/natural gas and their related activities (such as coal mining).

Second, nuclear power plants can be built very cheaply. The cost of construction is only about a third of the cost of building a plant (a large plant would, if built today, cost in the neighborhood of 300 million dollars, depending on location (i.e., availability of natural cooling sources like lakes and rivers) and output). Whenever a nuclear power plant is built, the design documents, environmental impact studies, evacuation plans, etc, must all be submitted to the Nuclear Regulatory Commission as though no nuclear plants had ever been built before. Read that again. The majority of the cost of building a nuclear power plant in the United States is red tape. Nuclear power is cheap. Nuclear power plants can be cheap. In France, most of the power plants follow the same, well-tested design.

Third, the water used in the steam cycle is extremely clean. During construction of the plant, the chemists (such as my father) had a valve system in place such that they could take samples of the water at every stage in the cycle. After testing the water, the chemists would often wet their whistles with the excess. The water was just plain, distilled water. The only thing that happens to it is being heated and cooled over and over again. The steam (water vapor, technically) put off by cooling towers is likewise incredibly pure. In the Russellville case, the only thing in the water vapor other than H20 is a small amount of (non-radioactive) Xenon, which, for those of you who slept through chemistry, is inert. Perhaps you meant the coolant itself? Well, the coolant is heavily laced with Boron (in the form of Borax soap, actually), which is a neutron absorber. It's only a 'coolant' in the sense that it absorbs neutrons. Even if the Boron did become radioactive (and I'm fairly certain it doesn't), that water isn't part of the steam cycle and the Boron can be removed from the water anyway.

The majority of your fears (and the public's fears) about nuclear power are unfounded.

PS He's 'fission' and you bit, but then I bit off of your line. Who is worse, the troll, the troll who followed him, or the idiot who responded to both? ;)

Re:He's fission and I bit

[Mandelbrute]

Grond had some interesting points, and I replied:

First, engineers do not regard nuclear power as a dirty source of energy that must be contained, lest it kill everyone.

Perhaps I should remove the word "dirty" from that line to make it more accurate. Containment is, of course, vital in the context of nuclear fuel.

Those engineers regard nuclear power as an extremely safe, potentially cheap form of power

The ex-patriate Russian turbine engineer I've talked to a couple of times had very different views on the subject. In the ex-USSR there was occasionally dodgy state-run engineering, in the US you sometimes have an unsupervised lowest bidder during a recession - either way the lowest common denominator is not good in a very dangerous system. The Indonesian nuclear power station engineer that I talked to had some stories about some odd attitudes to radiation safety (doing a lot of radiography with neutron sources and things like that).

The total number of American deaths from nuclear power is incredibly small

Interesting that you qualified that statement by nationality, but yes, the total number of deaths is lower than that in the very large coal, oil and natural gas industries. Chenobyl, however, did affect a large number of people.

Second, nuclear power plants can be built very cheaply.

In comparison to what other forms of power? The exotic materials required push up the constuction cost, which is offset by the lower fuel costs, but the extremely high cost of decommissioning a plant adds in a major cost as well to produce something that is not very cost effective in terms of producing power. The decommisioning cost will most likely go down and perhaps someone will be funded again to solve the waste storage problem, but currently those problems push nuclear power generation into the catagory of a good idea that doesn't quite work. Nuclear power stations are only built by nations that want to be self-sufficent and don't have other resources, or nations that want to build atomic weapons. Britain cancelled the construction of a nuclear power plant a few years ago on economic grounds, you'll find something article about it in a 1996 "New Scientist" magazine (I wish they had put stuff on the web back then).

Nuclear power plants can be cheap

Example please. The only cost breakdown I've seen was for the unbuilt British plant listed in a "New Scientist" article - and that one was very expensive in comparison to a coal fired plant. They didn't really need it since they left the cold war early.

Third, the water used in the steam cycle is extremely clean.

True, it has to be or it destroys your pipework. I'm talking about the pipework that is exposed to the water that is heated by the rods (the radioactive steam cycle, for plants that are built that way) - eventually neutron sources (like that water that is converted to heavy water by radiation) irradiate the pipework, making it radioactive and a furthur waste problem. Similar things happen in plants with other liquids in the loop that is exposed to the fuel. Obviously the steam that goes through the turbines has never touched the fuel, and the cooling water that runs through the cooling towers doesn't touch the turbine.

After testing the water, the chemists would often wet their whistles with the excess

Probably safe, but very bad practice. In a lot of cases it is a good idea to add some things (hydrazine? can't remember) to reduce the corrosion rate of the pipework, and that may make the water toxic. The water may be "distilled" by definition (since it has condensed out of steam, but it is rarely pure, and you don't really want it to be.

The steam (water vapor, technically) put off by cooling towers is likewise incredibly pure

Yes, it's far removed from radioactive material, except for incidents like Sellafield where an accident happened.

Perhaps you meant the coolant itself?

Yes - that's the material that has become highly radioactive in the past (also creating other radioactive materials) and created problems with decommisioning. From what you said it looks like some advances have been made in that area.

The majority of your fears (and the public's fears) about nuclear power are unfounded.

There's a lot of hysteria, but I strongly dispute the discription of nuclear power as "clean".

An accident in a coal fired power station or oil refinery can kill a few people, but an accident in a nuclear power plant makes the entire continent worry - just ask a few europeans how "clean" they think nuclear power is.

Why do I feel justified in my opinion? I've read about the subject (a long time ago now) and talked to a couple of engineers from nuclear power stations - one that I was working with and another that I was teaching (about ceramics - so not much to with the subject). I'm not in opposition to nuclear reactors, since we need a source of radioactive materials for a variety of reasons (medical etc), and I've used an Iridium isotope to examine weld joints at an oil refinery, and thick welded test plates. I've talked to one of the people that worked on the "synrock" project for containing nuclear waste (it probably works, but we'll never know). I've also worked in coal fired power stations, alongside people that work in the research facility attached to my nations small reactor. What I do think is that using very large quantities of radioactive material is a dangerous and expensive exercise. Ask the Swedes and Fins how much they are spending to prop up the reactors in the old USSR - it's bound to be on public record somewhere. I've got no idea how much in US Federal government funds goes into propping up the US nuclear power industry - have you ever wondered why they pay so much for weapons grade materials if nothing else? It looks like a subsity to me to keep a weapons production system and some jobs.

He's 'fission' and you bit, but then I bit off of your line

Yes, it is a bad pun, but I don't consider any of this thread to be a troll - just offtopic.

Fission is not an alternative energy, and I am not convinced that a lump of plutonium is any more "clean" than coal or oil or the HF acid used in oil refining. If the HF gets loose people die. If the plutonium gets loose a lot of poeple die, and keep dying unless they stay away or until it's cleaned up. There's more to environmental issues in power generation than carbon dioxide, NOx and SOx.

Re:Can we harness..

[TGK]

Not really. Fusion "containers" are massive electromagnetic coils which are themselves suspended in a vacuum chamber. The idea is to magneticly contain a 100,000+ C plasma until fusion occurs and hopefully produce more energy than you use. This is a ways off.

In answer to a question further down the page, hydrogen fuel cells are better than batteries because of the rate they can deliver energy. It's difficult to make an electric car that can make a decent top speed. Hydrogen fuel cells pack the punch to give you a good boost.

Last point -- Someone else was asking where the energy for this will come from, pointing out that you will always come up short if you're using water as your source of hydrogen. A reply indicated that other more hydrogen rich molecules would be used. I wish to clarify that this is the case, but only until either more advanced solar systems can be developed or until fusion power becomes more practical. The idea is not hydrogen as an energy source, but as a storage medium.

That is all.

SPEAK UP SONNY!

[_aa_]

Being a crotchity old man, I fear change and progress. This.. this so-called Hy-dro-gen you speak of has been nothing but a pain in my rump ever since my days as a gold prospector. This margerine business.. try as I might, I still don't beleive it's not butter. I was a hearty 45 when I witnessed the Hindenburg disaster. What guarentees can you give me that such an incident won't befall my hearing aid? I have had a fear of water since I was knee-high to a crawdad. The most respected talk-show host in the world, Phil Donahue, said that this methane gas is responsible for a hole in the O-Zone layer. I beleive that space travel is best left to the Russians. I am not allowed to operate a motor vehicle in my state because I'm legally blind, deaf, and my reflexes ain't what they used to be. These yuppies in their office buildings need to get out and get real jobs gold prospectin'. Why in a single day I panned up 6 bits! All while fendin' off coyotes. I ain't ever needed no power in the house that the Ol' wind mill can't provide. I dunno what cell phones are, but they sound like the work of the devil to me. Anyway.. The Price Is Right is about to start so I have to go.

Liquid fuels are far more practical

[cryptochrome]

For all it's good points, people often gloss over the one big dealbreaker - hydrogen is a gas. And a very, very small gas as well, which has a tendency to work it's way even through metal containers, making them brittle in the process. In a nutshell, it's difficult to store. Even if you overcome that with tanks on cars or buildings, what are you going to do for smaller devices like lawnmowers or whatnot? If you run out of gas on the road, you won't be able to just walk to the nearest station to fill up a tank.

The fact is, for practical purposes, gases are difficult fuels, even relatively easy ones like LPNG. We need a liquid alternative that we can make in a renewable fashion, even if it doesn't trigger as many buzzwords. Methanol would be ideal for most purposes. Alternatively, rather than using hydrogen and oxygen we could use the easier-to-store sytem of ammonium and nitrous oxide. That produces water and nitrogen as a byproduct.

Energy density

[Michael+Woodhams]

"Pound for pound, hydrogen packs more chemical energy than any other known fuel."

But litre for litre, it is lousy. I've seen pictures of designs for (liquid) hydrogen fueled jetliners - they are very significantly larger to contain the fuel.

This is one of the reasons people are so interested in 'reforming' methane or methanol to form the hydrogen on the spot - they are so much easier to store compactly. (This does, however, mean you now need much more *weight* for your energy.)

Hydrogen is not an energy source

[uncadonna]

Hydrogen is a clean fuel, in that it can be burned without harmful emissions. Because water is plentiful, hydrogen is also a sort of a battery. Electrical current can be used to separate it from water molecules, and some of this energy can be recovered in fuel cells.

Hydrogen extracted from fossil fuels necessarily produces less energy than the raw fuels themselves. Hydrogen produced from water by electrolysis is an energy sink.

Hydrogen may be extracted from water by using solar energy. That is solar energy, not hydrogen energy.

Whether hydrogen is a suitable fuel for vehicles depends on whether the energy costs are worth the emissions benefits. If so, this will make energy more scarce, because of the inefficiencies of converting energy in some other form into the energy of electrolysis.

Whether electrolysis of water is the right method for storage of solar energy depends on the comparative costs, risks and benefits of alternative storage technologies.

In neither case is hydrogen competing with fossil fuels as an energy source. It is competing with fossil fuels and batteries and flywheels and passive heating media as an energu storage system in both cases.

There are no significant pools of free hydrogen on the planet that can be used as an energy source.

Hydrogen is an energy storage strategy and not an energy supply strategy. It may have its uses as the former. Proposing it as a replacement for fossil or nuclear energy is complete nonsense.

All the above should be fully understood by anyone trying to venture an opinion on this subject.

Sorry to be blunt, but anyone who misses this point is one of the following: 1) not seriously interested in the subject 2) incompetent or 3) dishonest.

Re:Can we harness..

[technos]

Fuel cells? Bleh. They're a new and expensive, unreliable and largly an academic item. Now look at internal combustion engines; They're well understood, reliable, and relitivly cheap.

Just make the goddamn engine run on hydrogen.

Hydrogen for free

[CaptainCarrot]

I work for Lockheed Martin. Many years before the merger that created this company, when I worked for what was then called Lockheed Missiles & Space Co., there was a series of articles in the company rag talking about a technology we were developing that generated electricity from the temperature differential between shallow and deep seawater. This was back in the early 1980's. The process is called OTEC for Ocean Thermal Energy Conversion, and there's a a bit of information about it available online.

Such a plant could generate enough electricity to pump seawater up and crack it into hydrogen and oxygen. It would be a whole hell of a lot cleaner than oil rigs on offshore platforms, and could in fact be set up on oil platforms in tropical regions (like the Gulf of Mexico) that no longer produce enough crude oil to be profitable, or that must be shut down over environmental concerns. OTEC plants are very clean, very safe, and fairly inexpensive to run. They could be a viable method for producing hydrogen almost for free.

Re:Hydrogen for free

[CaptainCarrot]

OTEC is fairly limited as an electrical generation plant, which is what it was originally conceived as, because it really needs to be situated in tropical waters to work well. There's an experimental plant off the coast of Hawaii, which admittedly doesn't produce any net power largely because it's made from parts designed for other purposes and so operates suboptimally. (Its primary purpose right now is to validate a particular design of heat exchanger.) But the location requirements imposes insuperable tramsmission obstacles. It's just not practical to transmit the electricity from tropical oceans to the industrialized countries that need the power.

Hydrogen doesn't have that limitation, but it's also not now a mainstream power source. If proton exchange membrane fuel cells come into common use, that will undoubtedly change. But as things are, it's just not profitable enough to make it worth the capital investment.

Power & Current Alternatives

[Neutron_F1uX]

Why is everyone so affraid of Nuclear power? Pound for pound, Nuclear Energy is far cleaner and environmentally friendly then coal power plants, that's been proven already. The chances of a catastrophic reactor melt down are not very likely, as long as they are properly maintained and staffed. While I'm all for new forms of energy, we are currently not even using what is within our grasps. How can we expect power companies, who have a lot of money sunk into their current operations, to change their way of thinking? I doubt they see it as a viable thought to try these things out when they may flop. I have little faith that anything such as this article describes will be used, when we are not even using Nuclear Energy to what it could be. Look at the Navy, they have tons of nuclear reactors on their ships. Have there been any indicents with them? Not that we know of, and it'd be hard to hide something like that. Of course, those are smaller reactors, but none the less, it just proves the government knows what is going on. They are using the technology we already have, while the power companies are still stuck back a 100 years ago.

Storage Systems

[SpeedBump0619]

The primary problem with Hydrogen as a fuel source is not generation (which can be accomplished in large facilities dedicated to the task), but rather in safe, efficient delivery.

One of the most interesting systems I have seen recently is the Powerballs system. It does appear to be a well considered, functional, and (most importantly) *available* system. I don't think this is anything (scientifically) extraordinary, but it is available now.

Hopefully the site will take a slashdotting, they deserve a little publicity, and I'd like to see what others think of the basic idea...I'm not enough of a chemist to understand the efficiency or practicality of their method.

Re:My favorite trait of H...

[mallie_mcg]

I wonder how much if at all a Hydrogen based enerygy system would alter the weather, think of all the cars, sure they are emitting 0 pollutants, (barring a bit of Ozone from the electric motors, possibly some lubricants too [less than IC engine i know]) but what effects to the weather could/would happen? Would cities become really really humid or would it all be A OK?

Also do these vehicles store the water, and plug into the power socket to charge? Or do you need to fill them up with water? Or just with H2 [02 comes from the air for the purpose of making h20]? Where do you get nice clean water from so that deposits dont build up in your tank?

Will cheaper fuel eliminate our need for Oil?

[T.+Will+S.+Idea]

A quote from the article:

Imagine a world where ...
"OPEC is out of business because the price of oil has fallen to five dollars a barrel,"

Currently the vast majority of commodity chemicals are made from crude oil. That means most everything you own, the synthetic fibers in that cotton blend shirt, the plastic in your keyboard, the tires on your car, down to the aspirin that you take after staring at the computer screen all night; all of it is made from oil.

If oil prices dropped to $5 a barrel, the chemical companies would still crack the oil to get at the compounds that they are interested in, and we would be left with a lot of gasoline. What would we do with that? Burn it? Give it away?

This is why oil is such an integral part of our world. Finding a cheap alternative fuel source is only part of the solution.

Re:My favorite trait of H...

[Dyolf+Knip]

I wonder how much if at all a Hydrogen based enerygy system would alter the weather, think of all the cars, sure they are emitting 0 pollutants

Very good question. Even the smallest effect from a Hydrogen car would be multiplied by the millions of vehicles out there. But really, fog from H2 cars is better than smog from gas cars any day.

Also do these vehicles store the water, and plug into the power socket to charge? Or do you need to fill them up with water? Or just with H2

It'd be really silly to have the car store water and then charge from a socket. The whole point is to use H2 as a battery to power the car. How you 'charge' that battery is up for grabs. I imagine that the most efficient thing to do would be do make the hydrogen at industrial or even home-based systems and then fill-er-up with fresh tanks of H2. That way, you can build more efficient water-breaking systems and not worry about making them portable. See the arguments about electric cars charged from the grid vs ones that generate their own oomph from gas or whatever.

However, if solar panels become reasonable useful, it might indeed be feasible to put everything in the car. Start off with a tank full of hydrogen and an empty one of water. As it uses the H2 to drive, the car uses solar power to break up the waste water and fills up the H2 tank. It's not quite a perfect system, since you may do a lot of night driving or park in a garage and thus end up with all water and no hydrogen, in which case you'd have to tank up with H2. The system would also leak a small amount of water, which I supose could be replaced from capturing rainfall. Depeding on the efficiency of the electrolysis and solar cells, it becomes something between a gas mileage enhancer and a true self-contained car. But still, being able to drive for a few thousand miles before having to stop for fuel would kick ass to an amazing degree.

Profitability

[Once&FutureRocketman]

Soory Greenies, that's the way it works. You want to save the enviroment, prove to someone with dollars that there is more dollars to be had and quickly.

Couldn't agree more. It's been done. Read Natural Capitalism by (among others) Amory Lovins.

Or, to paraphrase The Natural Step, every business, regardless of industry, produces only two things: Product, and non-product. Selling product makes money. Non-product is, at best, worthless and is frequently a liability.

The ratio varies by industry of course, but when you trace through the entire supply chain, usually only 5-10% of the materials stream winds up in product. Improving this figure is a huge opportunity to add money to the bottom line, and generally speaking, there is alot of room for improvement!

As far as the political process goes, the main thing the government needs to do is to:

1) Stop subsidizing waste.

2) Correct the legal structures that currently allow industries to externalze costs. Just to give a timely example, a gallon of gas would cost alot more than $1.50 if the oil companies had to foot, say, 25% of the nation's defense budget every year to preserve access to the oil (the ethical considerations notwithstanding, of course.) As it is, the taxpayers pick up the tab instead. A whole lot of "fringe" and "green" technologies would be much more in demand if the users of current technology had to pay the true costs of that technology.

Industrial Hemp

[lazytiger]

...is an answer to virtually all energy problems. I'm potentially starting a completely off-topic and/or flame-inducing thread here, but man, this is something that should be discussed.

It would probably make most people downright mad to know the potential uses of industrial hemp and why it's illegal. Obviously the main reason (and the one you'll hear from any government source) is that it's marijuana, and we all know how "bad" pot is for our health. I'm going to try really hard though to stay away from the legalization of marijuana, because it is a separate issue from industrial hemp.

For starters, most people are unaware of that last statement, so I'll repeat it: INDUSTRIAL HEMP IS NOT MARIJUANA. It contains very low levels of THC, so low that you may as well smoke paper (except plain white paper is potentially toxic... we'll get to that later). Now, they are from the same family of plants, cannabis, but they are indeed different plants. Therefore, it is entirely possible to grow industrial hemp without producing marijuana. Most people (and senators/representatives) don't seem to realize that, or are concerned that THC-producing hemp could be grown in or around industrial hemp. The validity of that argument is up for grabs.

But let's get to the point here, which is energy. What can hemp do? Here's a quick synopsis:

ANYTHING MADE FROM WOOD OR OIL CAN BE MADE FROM HEMP

Hemp biomass can be converted into gasoline more efficiently than fossil fuels (coal, oil) and without sulfur or acid rain as byproducts. Hemp fiberboard is stronger than wood, hemp houses are as strong as cement houses and better insulated. Plastic, rayon, and cellophane made from hemp are biodegradeable. Paper uses nearly half the world's timber. Hemp produces FOUR TIMES the amount of paper per acre as trees, and grows in all climates of the US. Hemp paper lasts about 1500 years. Cotton requires more pesticides than any other agricultural product. Hemp grows without pesticides and herbicides, and is much stronger than cotton cloth.

We're only touching the tip of the iceberg here. The point is that people simply don't realize what hemp can do, because the government's blackballing job has been so effective. I'm hoping to at least enlighten a few /. readers, and hopefully spurring them to check out some websites that I'll list below and spread the word.

Here's the short version of why hemp is illegal:

-Major corporations such as DuPont, Monsanto, Dow, ExxonMobil, Lilly, etc. stand to lose MILLIONS, if not billions, of dollars if hemp were allowed to be used to its potential.

-It is simply TOO EASY TO GROW. Sounds absurd, right? It is. Hemp grows in virtually any environment with virtually no need for chemicals. In short, any Tom, Dick or Harry could become a hemp farmer. The government does not like not having absolute control over what is grown. Tobacco seeds, for instance, are carefully controlled AND TAXED by the US government. They would have a very, very tough time trying to control and tax hemp growers.

I'm really tempted to dive into the THC-friendly portion of this debate. :) But I don't want to drone on or piss anyone off.

Whether or not you support legal use of marijuana should have no effect on your support of legal hemp cultivation. Please keep that in mind. They are completely separate issues.

Please continue your learning at this most excellent website:

http://www.jackherer.com/

It has a definite slant towards pro-marijuna and hemp. But even if you think the website is biased, you can't deny the pure volume of bullshit that we're fed about the marijuana/hemp issue.

Hemp SHOULD BE one of the main alternative energies of the future.

Not really a fuel.

[squaretorus]

Hydrogen is not really a fuel as such, in the way that Oil, Gas or Wood are fuels - because you have to use some other fuel to produce it.

Hydrogen is best thought of as a way to transport energy to places where you can't make it on the spot efficiently, or in sufficient quantities.

For example, the average suburban house has enough sunlight and wind to cater for all its energy needs. If we make solar and wind capture more efficient, every garage could have a small 'charger' cracking Hydrogen and storing it for the car.

A similar idea is being researched for Mars projects (using CO and O2, but the same principle). This allows an ongoing process (powered by the sun for the martian experiment) to generate useful amounts of transportable 'fuel'.

By turning the energy model on its head, away from the current 'few big power stations' model to 'millions of tiny power stations' model we not only get better efficiency but less polluting powerstations because they are in EVERYONES back yard.

Hydrogen has a role to play, so might CO. But this is no fuel of the future - the fuel of the future is the sun and the wind.

Re:Can we harness..

[IronChef]

hydrogen fuel cells are better than batteries because of the rate they can deliver energy. It's difficult to make an electric car that can make a decent top speed.

Not necessarily true. Some batteries do a great job at dumping current really fast. Electric cars have pretty good pickup. I have heard a lot of complaints about them, but speed isn't one of them.

Here's a link where someone talks about how peppy the EV1 is. Even if he's exaggerating, the thing clearly isn't a slug.

Comparing energy sources

[Bikku]

So when we boil down this analysis of H vs other energy sources, what do we get?

Some axioms:

- There are no energy sources, just temporary energy storage forms. The only true energy source on earth is sunlight.

- Every use of energy creates some form of "pollution" (1st law of thermodynamics). What differs is how much, how unpleasant it is for humans, at where it is created. (eg, electric cars still create air pollution, but it is moved back to the generating station, instead of the car tailpipe)

- Every conversion of energy from one form to another is lossy (3rd law of thermo). And constitutes a "use" of energy, which creates "pollution".

So, the real questions about comparing energy sources amount to these criteria:

- What does it cost us to find and access the stored energy?

- How easy/cheap is it to convert the stored energy into a useful form (eg, rotational kinetic energy of a car driveshaft)?

- How efficient is that conversion? How much of the sourced energy is lost as general thermal radiation (ie, friciton losses, i^2r transmission line losses, etc)

- Doing so creates what form of pollution, in what amounts, and at what locations?

- How politically acceptable is that particular pollution arrangement? Who benefits, who suffers?

Re:Can we harness..

[mfarver]

In answer to a question further down the page, hydrogen fuel cells are better than batteries because of the rate they can deliver energy. It's difficult to make an electric car that can make a decent top speed. Hydrogen fuel cells pack the punch to give you a good boost.

This is incorrect, while hydrogen fuel cells can in theory develop more Watt/hr per kg than batteries none of the units produced have been able to do so. Most fuel cell powered vehicles will need battery or flywheel systems to store energy for peak loads.

The energy required to accelerate a car quickly is incredible. For example the Electric drag racers require peak current of over 1000amps at 300VDC (300kw, enough to power 75 homes) to run 12 seconds times on the 1/4 mile track. Most average cars Electric cars require 600amps of current. No hydrogen fuel cell on the planet puts out those current levels and can still fit in a car. For those current levels only batteries can deliver energy quickly enough.

Hydrogen's only advantage over battery power is you can refuel quicker.. it might only take 10 minutes to pump enough hydrogen into the car for another 100 miles of driving. Batteries might take 15 minutes to several hours (charge rates are mostly limited on how much electricity is available, most homes do not have sufficent power available to quick charge an EV).

Hydrogen's biggest drawback... its a bitch to store. It leaks out of almost any container you put it in. Its hard to store it as a liquid (have to keep it too cold) and as a gas you can't store enough of it. (hydrogen powered cars average about 100 miles before refueling, only slighty better than batteries)

Last month's Diane Rehm show on this topic....

[ClarkEvans]

On Wed, Oct 17 the Diane Rehm show had a wonderful talk on this very subject. If you listen to the show, make sure to pledge as hosting real audio archives cost a good deal of cash. Details about the show...

Wednesday, October 17, 2001 10:00 - War on Terrorism and U.S. Energy Policy
A panel talks about how the war against terrorism could affect U.S. imports of oil from OPEC nations - which account for almost half of our imported oil - and how domestic energy policy and the economy might be affected.
Phil Verleger, California-based energy economist
Peter VanDoren, editor of Regulation magazine for the CATO Institute
Charli Coon, Heritage Foundation

For more information about ANWR, check out the U.S. Geological Survey Fact Sheet FS-0040-98: Arctic National Wildlife Refuge, 1002 Area, Petroleum Assessment, 1998

Storage medium

[hey!]

I think hyrdrogen has potential as a storage and transport medium for renewable energy sources. Many of these resources have short term variations in their availability:

Solar: doesn't work at night;
Tidal: only works on the outgoing tide;
Wind: doesn't work when the wind is slack.

Conversion of the energy to hydrogen and transporting it by pipeline would buffer the variations in powerflow, the way a capacitor does in a power supply.

Re: fuel cell... efficiency is 100%....

[pmc]

Sorry to burst your bubble, but fuel cells do have the same limitations -- known as Carnot efficiency, btw.

No they don't - see here

You are talking drivel about the engine efficienies also - see here

My source for info? a good introductory thermodynamics class.

Introductory? A little knowledge is a dangerous thing.