Fuel-Cell Backup Power Under Your Desk 220
An Anonymous Coward writes "Just up this evening on the Coleman Powermate web site: This is the first
commercial fuel cell product that I am aware of. Who wants one under their Christmas tree?" I just wish the fuel wasn't quite so expensive.
Specs (Score:1)
RUN TIME @ 50% LOAD=6 Hours
For the price, looks like it could be worth it.....
Re:Specs (Score:1, Insightful)
You'd be better off buying a bank of rechargable lead-acid batteries and a charger/inverter. [tracebackuppower.com] Not to mention that you'd probably be able to generate output at much more than 1kw with such a setup.
The only benefit I can see here is space savings, and the ability to generate power indefinitely assuming that you have a big stock of these hydride canisters on hand. Otherwise, this stuff is way too expensive, and I'm assuming that you can't recharge empty canisters with utility power...
SOUND (Score:1)
For this price, buy a lot of car batteries and a transformer. Charge it up, ensure it's topped up, and it'll go much cheaper without any CO poisioning or danger of blowing up and taking your office block with you. It's certainly kinder to the environment, and if you want to be extra good, get a green tariff from your electricity suppliers. Which you should have done anyway if you're going to get this picky over how clean it is.
Nice to see fuel cells turning up, but I honestly don't believe theat this is actually a commercial application of them. Overpriced and underspecced. Apart from the amount of power it supplies. But you could daisychain UPSes for half the price.
Widget
Re: Explosion & environmental risks of Lead Ac (Score:2, Informative)
Keep in mind, any unit with a battery in it (including the Airgen), will vent hydrogen if overcharged - that's why you spend the money to get a good charger/regulator. A car alternator or el-cheapo car-battery charger are NOT good chargers (no intelligence), and either depend on a known load, or a timed charge. You want something that monitors amperage, temprature, and voltage, and knows the profile of the batteries you're trying to charge. Good chargers are not cheap, but well worth the cost in maintaining battery life, without having to resort to "boiling" your batteries from time to time to get full charge.
Also, you might either want ventilation, or an outside installation for the units, if you really fear hydrogen that much...
Regarding the environmental hazard, lead is the most recycled material (90-99%?), and batteries are not dumped, but chopped up and recycled into new lead-acid batteries. Any place that sells lead-acid batteries here in the US is required to accept them for recycling. Compare this to all the NiCad batteries (Cadmium is quite toxic) produced for consumer devices that people end up tossing directly into the garbage.
The only other, low-cost high-capacity mass-market batteries, other than lead-acid, would NiFe, and good luck finding a supplier for those in small amounts.
Re:Specs (Score:4, Informative)
Re:Specs (Score:2, Informative)
http://www.solarserver.de/solarmagazin/artikelm
http://www.windsun.com/PV_Stuff/pv_pricing.htm
Solar panels cost about $5.00 per watt X 1000 watts =$5000.00 plus batteries, a transformer, and some wiring =approx $8-10,000. I was told by a proffessional solar installer (he does 10 or more intallations a year from Maine to the Bahamas) that it would cost about $18,000-$20,000 to do my whole house. After the install I don't have to replace fuel cells every 6 hours, at over $400 a shot, either, just a battery once in a while.
My other UPS runs on fusion (Score:2, Informative)
My neighbors sometimes tell me that the grid is down, but otherwise I'd never know.
Re:Specs (Score:1)
OUCH!
I could by a gasoline-powered generator for far less and have it run continously. Heck a propane generator would still be cheaper and better without the need to run it once-a-month like a gasoline generator.
Re:Specs (Score:2, Informative)
Ridiculous... (Score:3, Informative)
Re:Ridiculous... (Score:3, Insightful)
Re:Ridiculous... (Score:3, Insightful)
You put your generator outside (roof for example), and run the power cord inside the building. Power cord and the penetrations through walls for it are orders of magnitude cheaper than ventilation ducting.
Re:Ridiculous... (Score:2)
That's fine for home use. You might be willing to put up with a jury-rigged solution like that for your home. Most companies I know would shell out for the infrastructure needed to make the generator a part of the whole power system. My concern would be with how this affected the humidity of the machine room, and whether or not any unreacted hydrogen made it out of the machine.
Re:Ridiculous... (Score:2)
Also, if you route your conduit properly, you interface with your existing power utility box with a transfer switch for selected circuits (although 1kW should be quite enough for a standard U.S. household - don't know about other countries).
And your concern about machinery room environmental conditions, while valid , isn't a real problem since a business would front the cash for proper HVAC systems anyway. If they don't, they're too cheap to be buying this unit anyway.
Re:Ridiculous... (Score:2)
Naw, you're right, no one has any use for it.
Re:Ridiculous... (Score:2)
If you live there, then I submit you have no need for a backup power supply. An UPS maybe, but not a generator.
ten years ago ... (Score:2)
Funny you should say that. I can imagine a similar conversation just twelve years ago.
Inventory clearance, Area 53, 1989
CLERK #1 (C1): Carbon composite toilet seats, 200?
CLERK #2(C@): Ship to Lockheed.
C1: Titanium hammers with gold anodized grips?
C2: Ship to General Dynamics.
C1: Portable fuel cells, 50, with starter pack, 500?
C2: Ship to OBL via Donkey Tain.
C1: What the fuck?
C2: Who cares, here are the lables.
Sold!
Re:Ridiculous... (Score:2)
The same specs, on a decent generator (runs at 1800 rpm, requires rebuilding every 1000 hours) raise the price by a factor of 10 to 20.
So, if the problems with wear and tear have been worked out, and the power output nudged up a bit, the price is not all that crazy.
Re:Ridiculous... (Score:2, Insightful)
Re:Ridiculous... (Score:2)
I suppose they got slashdotted and didn't want other customers to see that?
Or
D
Posted Specs for Slashdot Effect (Score:4, Informative)
Creates computer-safe electricity from hydrogen and oxygen
Uninteruptible Power Supply
Seemless power transition keeps systems running smoothly
Surge Protector and Power Conditioner
Protects sensitive electronics from high voltage jolts and sags
MODEL NO. PMXXXXX
POWER 1000 Watts (Batteries Charged)
OVERLOAD CAPACITY 1600 VA for 2 Seconds
VOLTS 120 VAC +/-3%
FREQUENCY 60 Hertz
WAVEFORM Perfect Sine-Wave
NOISE 65 dba @ 1 Meter
FUEL CELL Ballard Nexa
FUEL 3 Hydrogen Fuel Canisters
RUN TIME @ 50% LOAD 6 Hours
SURGE PROTECTION 360 Joules
BATTERIES Sealed Lead Acid
WEIGHT (LESS CANISTERS) 101 lbs.
DIMENSIONS 27.3" x 15.8" x 19"
WARRANTY 1 Year
Really cool, but the fuel cells are expensive for only 6 hours of back up time @ 50%. I wonder what the unit itself will set you back.
Re:Posted Specs for Slashdot Effect (Score:2)
Re:Posted Specs for Slashdot Effect (Score:2)
/Janne
Re:Posted Specs for Slashdot Effect (Score:2)
Re:Posted Specs for Slashdot Effect (Score:1)
>for only 6 hours of back up time @ 50%. I wonder
>what the unit itself will set you back.
Golly, I wonder...
AirGen Starter Pack
Model # PAXXXXX
Generate up to 8 hours of continuous, clean
electricity. Replacement canisters are just a
click or phone call away.
Includes:
AirGen
3 Fuel Canisters (shipped separately)
$7495.99
Read, then talk, [colemanpowermate.com]
See, perhaps you didn't read it... (Score:2)
no remote management? (Score:5, Insightful)
If you are not having it under your desk but in machine room like they show on one of the pics, you will never know if it's actually in good health.
Also I did not see an indication that it could tell a computer to shutdown before it runs out of fuel.
George
Great.... If you can afford it. (Score:4, Funny)
Granted, this baby can supply a constant kilowatt of power. But doing the math, you are paying $156.25 per kilowatt-hour. This has to be the most ludicrisly expensive method of power generation I know. You may as well hire 10,000 hampsters to run on a wheel to supply your backup power. I'm sure they can generate just as much power, not to mention the only fuel required is cheap dried food and water. But you do have to clean up all those hampster pellets...
Re:Great.... If you can afford it. (Score:5, Insightful)
One thing you might be missing is that you are paying for two things with each bottle of fuel: the fuel itself, and the bottle that's holding it.
For example you might pay $416 for a new bottle of fuel, but get a $350 credit when you return the empty one (I couldn't find their actual price for fuel refills, but since they're using a metal-hydride storage technology, the cost of the cylinders will be significant).
Re:Great.... If you can afford it. (Score:2, Interesting)
Re:Great.... If you can afford it. (Score:3, Insightful)
If the canister was simply priced by the weight of the raw materials of it's construction, that would in no way repay the cost of the research and development of the canister, the method to safely encapsulate the H2, and of course testing, testing, testing and certification for whatever government agency would concern itself. All this could easily be multiples of the simple cost of the raw materials - even it's weight in gold.
And all of that ignores the cost of mining, refining, and manufacturing the canister itself.
Re:Great.... If you can afford it. (Score:2)
That must be a default icon for fuel on Coleman's site. Probably database generated on "product_type = 'fuel'". Yes, this is lame.
The neat-o animations (works in Mozilla 0.9.6 on Linux) depict the canisters as blue cylindrical tanks.
Re:Great.... If you can afford it. (Score:3, Insightful)
1. The pic on the website doesn't just look like a bottle of motor oil, it is a bottle of motor oil. It's a symbol, just like the PC motherboard that appears next to this story on the Slashdot homepage. They're not actually selling hydrogen in cheap plastic containers.
2. The storage container wouldn't be made of platinum (although the fuel cell itself probably contains some), but it could be filled with palladium [resource-world.net] or other exotic metals. More information about metal-hydride storage is here [ectechnic.co.uk], but the bottom line is that you're paying for a lot more than an empty jar. These fuel bottles are like rechargeable batteries, except you can't recharge them at home.
Re:Great.... If you can afford it. (Score:1)
But doing the math, you are paying $156.25 per kilowatt-hour. This has to be the most ludicrisly expensive method of power generation I know.
Unless you lived in California this past summer, then you mighta actually saved some money
Very Nice (Score:4, Informative)
The cost of the hydrogen is outrageous - you can buy a J cylinder (big) of hydrogen for about $100.
Despite what the article says there is no way that this is the first commercial fuel cell - see this page [ecoworld.com] for a manufacturer near you - but it is a great indication that they will soon be mainstream.
Re:Very Nice (Score:4, Informative)
You can definitely do this (some gas chromatographs are plumbed into a hydrogen supply for example).
I sure wouldn't want to work near a tank of hydrogen.
But you probably own a device that has a tank full of much more dangerous stuff - it's called a car.
Re:Very Nice (Score:2)
Hydrogen in my house? (Score:1)
Under "safety" they don't really seem to address this issue except to say that "hydrogen is supplied through safe, low-pressure canisters."
And why does the unit have "sealed lead acid batteries" in it?
Re:Hydrogen in my house? (Score:2, Informative)
Now the trick here would be to have a system that can reinfuse the hydrogen into the pellets when power is available.
Cat
Re:Hydrogen in my house? (Score:5, Informative)
You would be amazed at how safe hydrogen is. When I was working in reseach we had an outside gas bottle room which consisted of rows of bottles plumbed in and gas lines going to the relevent lab. Some of these were hydrogen and it was decided to fit a hydrogen sensor to detect leaks and shut it down automatically when the hydrogen concentation reached about 50% of the lower explosive limit.
Anyway, this was installed and seemed to be working. We then decided to test it by gently cracking open a hydrogen bottle under the sensor (which was on the ceiling) and watching the output. Nothing. We opened it a bit more - still nothing. Finally we opened up full and only then did the sensor start to register (but nowhere near the set point).
What was happening was that because the room was well ventilated, the hydrogen dispersed so quickly that it only just got high enough to show on the detector. Any leak apart from a catastrophic failure would be safe.
Propane, on the other hand, is a floor hugger and does not disperse very well. You also beed a lower concentration of it to go bang. So if this leaks it tends to hang about the cylinder and you quickly have a bomb waiting to go off.
Re:Hydrogen in my house? (Score:1)
And for everyone who's complaining about how expensive this fuel cell unit is... well, are you really surprised? Things that are new are always expensive! It takes awhile for technology to come down in price after it has been introduced to the commercial market.
Re:Hydrogen in my house? (Score:5, Informative)
The batteries are there to: (1) provide power for you (and the unit) while you're switching hydrogen canisters, and (2) depending upon the design, to even out the line voltage.
[Lecture Mode On]
There are two basic designs for UPSes: continuous and intermittent.
The UPSes that you buy for SOHO use are intermittent -- line voltage feeds a battery circuit (battery charger + batteries + inverter) and goes to a relay, which switches between the battery circuit and the normal line voltage. When line voltage goes off, the relay switches; when line voltage comes back, the relay switches back. While the relay is switching, there will be a short interruption in power, but most AC equipment can handle the (very short) interruption. This type of UPS will also have surge protectors built in to filter out high voltage and spikes, but can't do a lot for brownouts other than switch to batteries.
Continuous UPSes work differently -- the line voltage is used to charge the batteries, which run the inverter, which provides clean, uninterrupted power. No relays, no interruptions, no worry about power spikes or brownouts. Unfortunately, you're continuously charging and draining the batteries -- which significantly reduces the working life of the batteries. This type of UPS requires hot-swappable batteries, and is generally a lot more expensive to purchase and maintain (which explains the popularity of the intermittent UPSes).
[Lecture Mode Off]
From what I read on the site, the AirGen acts like an intermittent UPS -- when line voltage shuts off, the AirGen switches to generated power, and switches back when line voltage returns. The batteries are probably there just to provide the necessary power to start and maintain the generator, and to provide power while you're switch canisters. The AirGen *could* be a continuous UPS, with the fuel-cells supplementing line voltage for charging the batteries, but I doubt it -- everything they've posted on their site points towards the intermittent UPS design.
Fuel cells don't start instantly (Score:3, Informative)
Re:Hydrogen in my house? (Score:2, Insightful)
Suppose you have a tiny leak in the propane cylinder: the propane will accumulate in your cellar, it'll reach the explosive concentration (IIRC around 5 percent), and your house explodes when something creates a spark.
Hydrogen is lighter: it can't accumulate in the cellar, it'll leave through your roof. Therefore it won't reach the critical concentration and it can't cause a big explosion.
But that's only true if you don't have a huge leak in you hydrogen tank.
#insert picture of the exploding spaceshuttle.
According to their description they store the hydrogen bound to metal atoms.
That's the safest and most expensive way to store hydrogen. It's expensive because you need special metals, but it's absolutely safe because the metal only releases hydrogen at a very low rate - too low to create an explosive concentration.
Re:Hydrogen in my house? (Score:1)
The units probably has three functions within it. The batteries in the 'middle' of the process. The fuel cell is responsible for converting the fuel to electricity, probably low voltage DC current, the batteries are charged and kept charged (and provide electricity while changing cylinders), and an inverter to actually output the 110 AC current.
But the price is totally absurd. There are units in the works, not that far out, that will produce current for your entire house, that will run on natural gas (and I believe it's expected to expand that with propane or methanol units not long after)... they'll provide continuous power, a lot more of it, and not absurdly priced. I can't see anyone really interested in units at that price point.
This is not yet ready for consumers (Score:2)
Expensive (Score:1)
Why just H2? (Score:3, Insightful)
Re:Why just H2? (Score:1)
"methane is for many people, now on tap, being the main component of natural gas."
If you can come up with one that burns methane...I've got a friend who could keep the thing running indefinitely on 1 serving of Mexican food a day.
Re:Why just H2? (Score:2)
Re:Why just H2? (Score:2)
Re:Why just H2? (Score:2)
Re:Why just H2? (Score:2)
Here's a bit on the basic science of the technology: What is a Fuel Cell? [ttcorp.com]
As an aside, is it just me or does anyone else get a "SecureIIS application firewall security alert" on this animation [colemanpowermate.com] URL?
Re:Why just H2? (Score:2)
Except the H2 is nowhere near as cheap, clean, or renewable as it's proponents would have you believe.
- Solar cells aren't cheap and generate some ghastly wastes in manufacturing. (And require maintenance and replacement on a regular basis.)
- There are few areas where there is enough clear land, available sunlight, and available seawater or fresh water to generate commercial quantites of H2.
- If you have to pump or transport sea or other water any distance you lose more energy than you gain
- If you haven't looked recently almost all waterfront, high insolation property is in high demand for residences.. And no one is going to build the bombs these plants will be in a populated area.
- If you extract the H2 with generated (fossil/nuclear) energy, the cycle is endothermic. (You get less energy out of the H2 than you put into manufacturing it.)
- Generating H2 chemically requires some pretty nasty acids and catalysts, more toxic waste...
H2 and fuel cells are cool technologies for certain special purposes and uses, but do be sure and talk to the man behind the curtain.Re:Why just H2? (Score:2)
Re:Why just H2? (Score:2)
The problem is that the US (at least) does not have all that much spare generating capacity. It's a waste to use what little we have to generate a fuel, that even at 100% conversion efficiency, will generate less work (energy) than that used to create the fuel.
Re:Why just H2? (Score:2)
If you have to pump or transport sea or other water any distance you lose more energy than you gain
If you haven't looked recently almost all waterfront, high insolation property is in high demand for residences.. And no one is going to build the bombs these plants will be in a populated area.
Haven't spent much time on the Texas coast between Freeport and Aransas Pass, have you? 100 miles of sparsely populated seacoast with a *lot* of available sunlight. Hell, they made an orbital launch from Matagorda Island, which lies along that stretch.
Fits the bill perfectly.
Re:Why just H2? (Score:2)
Except the insolation is pretty low for this kind of application, and large amount of that area are protected wetlands / national parks / etc.. A solar plant to generate commercially useful quantities of H2 will take tens of square miles, and needs sunshine 200+ days out of the year. (The risk of hurricanes along the stretch you mention is also going to be a huge factor in site selection as well.)
Re:Why just H2? (Score:2)
Assuming you're making the H2 near where you're selling it, and you better be or you're gonna go broke, solar cells cost more energy to make than the energy you'll get out of them over their lifetime.
A better idea, since you're near the water anyway, would be hydroelectric power.
Re:Why just H2? (Score:2, Informative)
However, alkaline electrolytes (probably potassium hydroxide) are poisoned very quickly by CO2 contamination, and stop working. So you have to feed it pure hydrogen - the chief downside to this fuel-cell type.
Other types, principally phosphoric acid, proton-exchange membrane, molten carbonate and solid oxide, can tolerate traces of CO2, to varying degrees, but may have other drawbacks. So then you can reform natural gas, propane or methanol, for instance, with steam, to produce CO2-contaminated hydrogen, and use that.
I don't think so. (Score:2)
(IIRC humidification was one of those things that became pretty important when you started getting out of the pure research grade fuel cell sizes and into something that could be useful. I.e. something that runs hot.)
Been a while since I looked at that stuff. Could be way wrong.
Kudos to Coleman (Score:3, Interesting)
Expensive? (Score:1, Interesting)
Re:Expensive? (Score:2, Informative)
Um, except for the fact that oxygen isn't actually flammable.
Re:Expensive? (Score:1)
A classic experiment that I saw at the pyromaniacs lecture when I was at university was to burn oxygen. Yeah - we all went "huh?!" too. What the nutte^Wlecturer did was fill a large glass tube with hydrogen and light top of it (so we had a huge hydrogen flame from the top) and then introduce oxygen at the bottom of it so there was a mini-flame in the large tube that was burning oxygen.
The point is that if you lived in a hydrogen atmosphere you would consider oxygen very flammable indeed.
Classic lecture - everyone was just about deaf leaving it. There are hours of fun to be had with liquid oxygen, not to mention what you can do with aluminium, rust and a little magnesium.
Re:Expensive? (Score:2)
Re:Expensive? (Score:1)
roughly is the key, in our usual room there are plenty of combustibles that we don't see as such until we introduce a large % of Oxygen.
Horrible example is the Apollo-1 fire on January 27, 1967.
Re:Expensive? (Score:5, Informative)
In case of hydrogen leak... (Score:3, Informative)
If you really wanna know, their advice (from this fascinating page [colemanpowermate.com] is:
Anyone remember the Bloom County strip in which the black genius kid asks his parents to ``Move away from the basement'' while he tests his nuclear experiment? When asked ``How far?'', he suggests New Jersey.
Is this released? (Score:3, Insightful)
Aspects of this page indicate it's not yet released. For instance, lots of stuff is XX'd out; and if you click on "Fuel Cells" in the nav bar, you get a notice implying that the product is not yet ready.
Is it possible that this is not the final pricing? It could be an early number, could be the very top (so nobody claims "false advertising" if they stumble across it later, when they set the real price), could be misinformation for competitors, whatever.
Oh, nobody's mentioned numbers yet, but to get a single data point, you can get an APC's Matrix 3000XR [apc.com] (which sustains 500kW for about 5:15, and is in many ways more capable-- higher peak, for instance-- but obviously-- can't be refueled during a power outage). It's listed at $3750 US.
Re:Is this released? (Score:2)
I think you are off by a few orders of magnitude.
Green Bait (Score:1, Interesting)
Re:Green Bait (Score:2, Interesting)
What I think is sad is that the journalists covering this stuff and the public officials setting environmental policy are just as guilty of this energy-source-misdirection as the marketers of the technology are. How many times have we heard that electric cars are 100% environmentally friendly and will solve all of our pollution problems? Where do these people think electricity comes from?
Now if someone will merge solar power into the equation, then we'd be on to something. If Coleman provided a means to refuel those H2 canisters yourself you could hypothetically power the refueling device with a solar array. Now THAT would be environmentally friendly.
Re:Green Bait (Score:1)
Re:Green Bait (Score:2)
Also, when the relevant authorites take it upon themselves to do something about greenhouse gas emmissions , the switch to alternative power is much more cost-effective and easy if it's done centrally.
On a related note, and slashdot has covered this before, GE is working on a home fuel cell which uses the methane from natural gas:
http://www.gepower.com/dhtml/distributed_power/
It's potentially much more interesting and cleaner (not to mention cheaper) than the coleman cell.
They already have household cells... (Score:2)
Methane is NOT supplied with your NG line... (Score:2)
It's not green bait... It's more like safety... (Score:2)
I need this to charge the batteries on my Ginger (Score:1, Funny)
Is it the fuel that's expensive? (Score:3, Insightful)
I guess we'll wait and see.
Canisters are expensive, not fuel... (Score:3, Insightful)
This isn't bad for something that can be used indoors. It's also especially good for extreme environments where it's too cold outside for a gas powered generator to start in the winter.
Handicap access (Score:2, Funny)
This must be so that deaf people can use the electricity, too.
Not even close to being the first (Score:3, Interesting)
They use propane (or natural gas?) and extract the hydrogen from there. Still have the problem of storage, but at least propane/natural gas storage is common and suppliers abound.
GE's offering is vapor (Score:2)
The GE unit is made by Plug Power [plugpower.com] and has been on GE's web site for close to a year now. Evidently, they've hit some snags. The fact Plug Power recently laid off almost 1/4 of their work force and their press releases talk more about financial than technology milestones doesn't bode well.
think mainframes vs. PC's (Score:2, Insightful)
Of course, this thing is expensive, seemingly inefficient, and probably impractical... for now. But keep in mind a few things:
First of all, Ballard (the company that makes the fuel cell in this thing) has said all along that they're going to have the really practical consumer devices in the market in 2005 (I think it's in their annual report [ballard.com], if memory serves). I think anything you see out there earlier is going to be a test product to smooth out the edges in production.
The infrastructure to support hydrogen fuel (the price of those canisters, for example) is one of the things that needs to be smoothed out as well. The price of fuel should come WAY down with centralized production.
Ballard fuel cells can also run on other fuels (methanol, for one) but at a reduced efficiency and with a slight hydrocarbon emission (still something on the order of 3-5% of what comes out of a combustion engine, but enough that you couldn't run one in a closed room).
Yes, hydrogen fuel takes energy to produce, but so does fossil fuel extraction and then once you've got, say, gasoline, it gets burned inefficiently and with lotsa nasty waste products. I know cars seem to be getting more efficient all the time, but every car I know of requires a separate system to keep the engine cool (read: waste heat) and I wouldn't put my lips on a tailpipe. Fuel cells do their thing at 75-80 degrees F, and when hydrogen-fueled, the only output is distilled H20. That's it.
Once practical devices come to market , they'll have the potential of decentralizing power, with that huge advantage of EFFICIENCY. And aside from the abovementioned advantages, don't forget to factor in power loss from transmission through wires. A world where fuel cells are practical everyday devices is nothing less than a PC revolution for power: power plants for all! Think an power Gnutella as opposed to the power grid. After all, I'm sure some folks were saying "Two thousand dollars for 64K of RAM? These things'll never catch on" twenty years ago...
other sources of fuel cell energy... (Score:2, Informative)
i did some research years ago about fuel cells. the viable solution is to buy the fuel cell generator that provides 200kwatts from UTC Fuel Cells [utcfuelcells.com].
this is actually a cool device that allows source from methane or natural gas.
they also have numerous installations made.
although at this time, i am not sure if there are other companies that have created generators made from fuel cells.
This is a new error one ... (Score:2)
Recharging (Score:2)
by cracking H2O back into hydrogen to refill its fuel tanks when the AC is on. Now this would be cool.
Correct URL (Score:3, Informative)
BTW, this site doesn't support Netscape. They don't know how to close off tables. Why is it that more then 40% of the websites I have gone to recently do that ?
It's a Ballard fuel cell (Score:3, Informative)
Ballard builds big systems. Their shipped product is a 250KW unit the size of a standard truck/ship container. They've been talking about a 1KW unit for a while, but their site still doesn't have photos of it.
Ballard was supposed to be the hot company in fuel cells, but they've been at Real Soon Now for a few years, and it's not clear what's wrong.
Info from ballard (makers of the fuel cell) (Score:2)
1200 W, not 1000W.
Lifetime: 1500 Hours (~2 months)
Control interface: RS485
Output: 46 Amps @ 26 volts
Unit must be protected from weather, sand, dust, marine, and freezing conditions in product packaging (I assume coleman does this to some extent)
Comment removed (Score:3, Informative)
Re:what you have to realize (Score:2, Informative)
Er... Check your high school economics textbook again.
High supply + low demand = surplus, which means lower prices. Assuming a constant supply, when demand goes up, prices increase. (Think about it for a minute, and it makes sense.)
To simplify to HS economics terms, we're looking at a low supply in this market. We don't know the specs of the H2 canisters, so they may be unique. Also, the users of this are probably a separate market than those who know where to get cheap H2, so it's effectively a low supply market, meaning high prices.
Of course, if demand increases, and the free market works right, then supply will increase to meet it (since H2 is not a scarce resource). That means competition, which means lower prices.
How fuel cells work (Score:3, Informative)
How do they not take up too much space, as you said? Fuel cells are extremely efficient because rather than producing pneumatic energy from combustion which is then converted to electrical energy, they essentially make a battery out of them that fuses hydrogen and oxygen to produce electricity. But they still don't usually store hydrogen or oxygen.
Fuel cells usually have a liquid forms - these are produced by dissolving or chemically combining hydrogen with less electropositive and negative elements (making an acid and a base), and then removing the hydrogen from this right before it is needed. Typically, the hydrogen is removed from an alcohol. Oxygen is just taken straight out of the air.
Here [howstuffworks.com] is a good summary of fuel cells, if you want to know more.
Re:Five little words from History (Score:1)
Cheers,
Chris
That will go only 24 hours... (Score:2)
Actually, no... (Score:2)
Re:Actually, no... (Score:2)
And to the trolls who have been following me around marking my posts as flaimbait, don't you have anything better to do?
"Call us" pricing (Score:2)
I checked the Coleman site for pricing on real generators, and (as consistent with my experience elsewhere) the pricing was "call us".
"Call us" generally means "If you have to ask, you can't afford it; it's not priced for residential use." It lets sellers put people on the line who are experienced in dealing with the effects of sticker shock. Once, I was looking into a library to develop installable filesystems for Windows NT/2K/XP to see if I could port ext2fs, but Microsoft's poorly documented headers cost $1,000, and the only other available package cost $100,000. Ouch.
Re:Need more nukes first (Score:2)