MIT Produces Electricity Using Thermopower Waves 157
MikeChino writes "MIT scientists have discovered a never-before-known phenomenon wherein carbon nanotubes can be used to harness energy from 'thermopower waves.' To do this they coated the nanotubes with a reactive fuel and then lit one end, causing a fast-moving thermal wave to speed down the length of the tube. The heat from the fuel rises to a temperature of 3,000 kelvins, and can speed along the tube 10,000 times faster than the normal spread of this chemical reaction. The heat also pushes electrons down the tube, which creates a substantial electrical current. The system can output energy (in proportion to its weight) about 100x greater than an equivalent weight lithium-ion battery, and according to MIT the discovery 'opens up a new area of energy research, which is rare.'"
That's some hot stuff... (Score:2)
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Yeah they mention a possible implementation of this in producing laptop batteries. I for one am not all that happy with contemplating using a laptop whose battery reaches 3000 Kelvin :P
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Can you imagine trying to take it on a plane? It'd be worse than laptop batteries [xkcd.com]...
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It'll be over nine thousand any moment now.
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The notable downside is the fact that since you're destroying the tubes, this is inherently a primary cell -- no recharging that! But it's still an interesting concept. I wonder what the conversion efficiency is. And for that matter, how much energy it takes to make CNTs relative to the output energy.
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Re:That's some hot stuff... (Score:4, Funny)
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Islamofascists are really "Mufsidoon engaged in Hiraba."
I'm not sure that helps at all, what do you think of this article [americanthinker.com]?
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I agree--but I am *really* looking forward to my flaming electric car. Better start trying to snag the GHST RDR plate now....
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Dibs on the IM BTMN plate!
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This doesn't look like a battery solution.
It looks like a railgun power source to me.
You need immense pulses of power for railguns, and having a ready supply of preloaded nonotube "cartridges" could reduce the need for huge and dangerous capacitors.
Re:That's some hot stuff... (Score:4, Insightful)
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100x seems... optimistic.
indeed. but only 2x or 3x means the end of the combustion engine, if the cost can be kept under control.
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This IS a combustion engine. Or more accurately a combustion generator.
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but only 2x or 3x means the end of the combustion engine, if the cost can be kept under control.
If I had a dime for every time I'd heard this on Slashdot.... wow. Anyhow, it's not only cost that has to be solved, of course, this is very basic research and I'm sure there are a whole host of practcal problems to overcome, any one of which could be a show stopper. Once they are all addressed, then we can start talking about cost.
Re:That's some hot stuff... (Score:5, Interesting)
Refueling could be as simple as pouring more fuel on the nanotubes. But it may also be irrelevant -- not all power systems need to be reusable. For example, an emergency beacon is not likely to be used frequently, so refueling is not nearly as important as shelf life. And even in applications where refueling is desirable, the increased power density may be worth it -- if you phone battery lasted 200 days instead of 2 days you might not care that the battery can only be refueled with special equipment.
That being said, 100x might well be optimistic. Or it might be wildly conservative. Since this is a brand new field it seems unlikely that an estimate will be terribly accurate.
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And another application might be to use this to charge a supercapacitor, allowing time for the cell to regenerate/refuel/cool down, and repeat as necessary.
Really interesting. Power density is the new frontier. If this can increase density usably by just a factor or 10, it is a tremendous advance. And I'm just thinking about portable electronics. For a vehicle, this really could be a good fit. Temperature could be manageable if you have space to put some insulation and cooling structures in...
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Railgun or laser power source.?
Re:That's some hot stuff... (Score:5, Informative)
For some perspective that is about the heat that a filament in a lightbulb is at.
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Why convert to Celsius? At that temperature the difference between the two becomes almost irrelevant.
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Because somebody who doesn't know how hot 3,000K is, isn't likely to know what it would be in Celsius, and a web search for 3,000 kelvins isn't likely to find many real-world examples...
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Actually it does. Using a torch is a bad example as a Carbon Nano Tube is much more like a filament then a full flame. So yes it is high heat but it is really small so the heat doesn't go out being really hot. Secondly if a Battery like device was used for this it would be inclosed and probably nicely insulated
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So yes it is high heat but it is really small so the heat doesn't go out being really hot.
A light bulb has a HUGE (relative to the filament) glass envelope to dissipate the heat, and yet that envelope still gets dangerously hot.
I'm not aware of any insulation which can handle such temperatures. You're probably looking at a ceramic casing, which needs to be very large, and then a large layer of insulation.
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game changer? (Score:2)
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No, because in order to get a pilot's license you must be proficient in English. Sorry.
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2727c, 4940f for thos of us who aren't physicists. For those who aren't nerds, that's "damned hot". IIRC that's hot enough to melt steel. I don't think you'll be running your cell phone on these "batteries".
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Chemical reactions are very hot, but the heat dissipates (spreads out) quickly.
This sounds like it'd be good for car batteries, where capacity vs weight vs drain/charge speed are all important considerations.
Heh (Score:2)
Images of Wile E. Coyote sitting on a nano-tube rocket trying to light a fuse are taking over my mind's eye.
So basically they cut out the middleman (Score:5, Funny)
Instead of having a Lion battery that explodes we now have a deliberately exploding battery.
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Yes, so instead of having a laptop, we will have a crotch rocket. Furthering the cause of geeks everywhere as we can impress the ladies by confusing them into thinking we ride motorbikes.
But in all seriousness, if it produces 100x time energy, then it equates to a lighter, 30 kelvin thermowave battery in the end.
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This so needs the whatcouldpossiblygowrong tag
Re:So basically they cut out the middleman (Score:4, Funny)
Bah. My Lion battery still eats your puny Zebra batteries for dinner!
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Robot charged with battery!
Film at 11.
Bloom Energy (Score:2)
Bloom is out, boom is in. (Score:3, Insightful)
Kelvins are degrees on an absolute scale... (Score:2, Insightful)
The heat from the fuel rises to a temperature of 3,000 kelvins
Since it presumably didn’t start at absolute zero, wouldn’t it have made more sense just to give the temperature in degrees Celsius?
Re:Kelvins are degrees on an absolute scale... (Score:4, Informative)
3000-273=2727C They were rounding. Also thermodynamic efficiency is easier to calculate in kelvins and is standard practice in thermodynamics; see carnot cycle for details.
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If they’re rounding once, they might as well round twice. These numbers are for laypersons... 2700C would be close enough.
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Thermodynamic systems are more often than not quoted in Kelvin. The only times they're ever really converted to Fahrenheit or Celcius is for the public's convenience. Very nearly every equation in thermodynamics works best in Kelvin as it is an absolute scale from absolute zero.
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Yes, but the only time it makes more sense to give the public a temperature in Kelvins is when you have some good reason for which to set the reference at absolute zero. In this case, I think it would have made more sense to convert it to Celsius, since the public will at least be somewhat familiar with that scale.
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As opposed to the freezing point of water? Sure, people are familiar with the properties of water, but does it really make sense to translate anyway? "You know how water freezes? Well, this reaction takes place 5400 Fahrenheit above that." Informative.
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As opposed to the freezing point of water?
The reason Celsius (or Fahrenheit) makes more sense than Kelvins is because people are more familiar with it. They probably have no idea what 3000 Kelvins is. Unless you have a good reason for basing it at absolute zero (they probably have at least heard of absolute zero), there’s no good reason to use Kelvins.
Oh, you're not American.
I said somewhat familiar. They know that degrees C is a temperature scale. Some of them might even know that 0 is freezing and 100 is boiling, if you’re lucky.
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So they open a new tab, move to the little search thingy in the top right of their browser screen, type in "wiki kelvin", hit the first link and learn something new/remember physics class from when they were 14.
If they routinely did that, they wouldn’t be dumb in the first place.
Really, do we have to dumb everything down?
Only slightly. But yes.
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Since the 'size' of a Kelvin and a degree Celsius are the same, I've noticed it seems to be common practice in science that when dealing with any values larger than about 1000 deg. C, to just use Kelvins. As the parent points out, all the physics equations are based on Kelvin anyhow (since Kelvin 0 == absolute Zero), but there's also the fact that, when dealing with 'large' temperatures, the difference between Kelvin and Celsius is basically negligible.
Kelvin is the 'more correct' scale to use for science,
Fricken Lasers (Score:5, Interesting)
Doesn't sound too great as a battery. But as "ammo" for hand held laser weapons? Could be perfect for that.
Re:Fricken Lasers (Score:5, Insightful)
Basically nano-combustion that very quickly creates a very strong electrical charge.
EMP in a suitcase.
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...in a BURNING suitcase that is! ^^
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I was actually thinking about vehicles.
What if you had enough of these in an "engine" where you have enough nanotubes to spread fuel onto to create energy. Instead of powering pistons you could push the energy to an electric motor and perhaps a battery.
I know, I know, we want to get away from fossil fuels and we may potentially be able to with this but even if we can't, if this is more energy efficient it may still be worth it.
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Screw Lasers - I want to fire the actual electrons at the guy. The target will be so staticly charge his pubic hair will shoot out of his crotch causing him to double over in physical and emotional pain, thereby rendering him neutralized but not killed, an effective non-lethal weapon.
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what if your target shaves down there?
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Unless they shave all over, the effect should also take place in Arm-pits, the head, arms, legs, etc.
So this weapon is essentially useless on professional swimmers.
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Not to worry. That's what the sharks with lasers are for.
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It's more like a fuel cell in that it uses fuel to produce a current but it is small enough and light enough to be potentially usable in devices that otherwise would use a battery. Also, the mechanism by which it produces a current implies that it can use a variety of fuels; pretty much anything that burns hot enough which is extremely useful.
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How could a battery be too great?
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But what it lacks is a recharging mechanism...
Link to the Nature Materials article (Score:5, Informative)
The "fuel" used, cyclotrimethylene trinitramine, may be better known as the explosive RDX.
Re:Link to the Nature Materials article (Score:5, Funny)
Yeah, I doubt that I'm gonna be able to bring a laptop on a plane with RDX in its battery...
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Makes about as much sense as nuclear bombs for propulsion [wikipedia.org].
I should've invented this! (Score:2)
All those hours of reading Slashdot and watching movies with all kinds of stuff being blown up, and I didn't put 2 and 2 together to get RDX-powered nanotubes. I feel like I missed my calling.
This is one power-generation technology, however, where you do NOT want a device that goes to 11.
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Especially not in a laptop.
Re:Link to the Nature Materials article (Score:4, Informative)
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Proving Ted Stevens wrong (Score:2)
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Ever take a flashlight battery apart? It's just a tube filled with carbon and stuff.
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There are actually a few different kinds. Some have a carbon electrode at the positive terminal. Others have this silvery white goo at the negative terminal. Apparently the latter is cheaper, because back when I was actively destroying stuff (like dead batteries) I noticed that really large and really old batteries had the carbon, but cheaply made, smaller, and newer batteries did not.
9 volt batteries also had a few different types: 6 skinny round self-enclosed batteries packed in 2 rows of 3 and connected
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Well, it's been almost half a century since I was ten. It's probably a good thing I wasn't born ten years ago, or I'd be blowing myself up with nicads. I almost burned the house down playing with my chemistry set.
My nerdiness often got me in trouble at school [slashdot.org], too.
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Thanks! Lately most of my experiments (and journals) involve alcohol and women, although there's one about the eclipse the year before last [slashdot.org], one about hurricanes and tornados [slashdot.org].
..and lit one end. (Score:1)
I suppose they really did start the fire.
All right. (Score:1)
This isn't exactly "new" methinks (Score:2)
If you read the description of how things work - it's almost the EXACT same design principle of the home-made EMP bomb that you could read about in an early 90's issue of Popular Science, just instead of using sequential plastique explosives and a wound copper tube, you're using a carbon nanotube and some other energy source. Same idea, though - burn from the back, go forwards, create a powerful burst of energy.
It's about 15 years new.
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Other than the use of explosives, the two techniques don't really have much in common. In the thermopower technology, the explosion serves to "throw" electrons toward one end of a chamber, generating a current. The movement of the electrons is the objective. In an EMP, the objective is the controlled obliteration of the conductor itself, in order to "squeeze" the magnetic field into an extremely tight packet, ultimately causing the magnetic flux to become unconstrained, generating a large EM pulse. Thermopo
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Boredom is evil. (Score:2)
People should never be bored, especially smart people.
What we have here is some idiot with access to a lot of high technology designing himself a tiny little cannon fuse. Let's burn something, this will be cool. This was obvious, but you're not doing this in your basement; the results aren't obvious, of course. But hey, we have a tiny little tube, like a string or a hair or something; let's light one end and watch it burn!
This is why smart people should never be bored. They shouldn't sit around stari
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Carbon Nanotubes (Score:2)
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Unless, of course, your research in them manages to steal the attention of this guy's [gubatron.com] girlfriend.
And if not, they could save her life [dvorak.org].
"Stewardess, do you have a match?" (Score:2)
Somehow I think this is for non-portable energy generation.
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Somehow I think this is for non-portable energy generation.
Unless you of course you want your junk burned with a speed that a lithium-ion battery powered Sony laptop can only dream of....
Efficiency? (Score:2)
Can anyone who has read the journal paper comment on what kind of thermal/electric conversion efficiency they saw in this process? Did they provide any information as to whether the efficiency was proportional to temperature (i.e. with heat engines, we have the Carnot Efficiency theorem which shows that the maximum theoretical efficiency is proportional to the difference between the maximum and minimum temperatures - do these nanotubes conform to the same, or similar, principle)?
How hot can nanotubes get be
Another bad material science article (Score:2)
More hype from the materials-science people.
This seems to happen too frequently. Usually in Nature. Someone comes up with some bit of progress in materials science, and it's hailed as the biggest breakthrough since the transistor. Then it's never heard about again.
This particular gimmick is kind of cute, but a general-purpose power supply it's not. They coated carbon nanotubes with RDX, which is a fast explosive, and got a big voltage spike out when they set it off. It's a one-shot device. This mi
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And the second law somehow doesn't apply? (Score:2)
RS
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As in it just was not feasible?
That is the way things work in research isn't it? You make lots of discoveries, but not all of them are useful.
Is this technology going to be feasible? No one knows yet.
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For future reference: http://en.wikipedia.org/wiki/Relational_operator#Standard_relational_operators [wikipedia.org]
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