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Ultra Efficient Chip Cooling Passes Boeing Tests

joelgrimes writes "A company called Cool Chips plc is showing off a cooling device that claims unbelievable efficiencies using what they call 'quantum mechanical electron tunneling'. A choice quote from their press release: "A panel of Cool Chips one inch square will provide enough cooling for a refrigerator; a panel about two inches square will have the capacity to provide the air conditioning for a living room". They also mention using them to cool microprocessors. I used to think this company was nuts, but Boeing is making me think twice. Oh, and by the way, they work in reverse to make electricity from heat. Should I sell my baseball cards and buy their stock now, or can an army of slashdotters poke holes in their claims?" Fascinating stuff. Makes peltier coolers look pretty old school. In the press release they claim up to 80% efficiency, compared to 5-8% for peltier coolers and 50% for conventional refrigeration. I will say the cool chips corporate logo is baffling, though.

6 of 573 comments (clear)

  1. Local over heating by brejc8 · · Score: 4, Interesting

    We have been workingb on asynchronous chips which slow down when the chip heats up. The problem with having super high heat producing chips and a great big super high enegry sucking heat sink is that the chip will have hot and cold regions. These hotspots will get hotter as the gradient gets larger. The problem is that clocked design will not be able to cope with a small area of the chip being slow. Anly a very localy generated clock can cope with it and slow down the circuit.

  2. This reeks of stock manipulation... by Travelr9 · · Score: 5, Interesting

    The company is run out of a tax haven. A mere three weeks after they get NASD trading approval, up pops an article on Slashdot - complete with vague but reassuring press release from a big [but likely dumb] name, Boeing. Then you go to their site - KewlChips have lots of vague but reassuring information about their governance and pedigree, and look, kids, you can invest now!

    I quote from their Investor Relations page:

    "Cool Chips plc common shares were cleared for trading in the United States by the National Association of Securities Dealers (NASD) on 24 April 2002. Quotes are available from www.pinksheets.com under the symbol COLCF. The Cool Chips Technology work is managed out of Europe and we are a virtual company based in the European Union. Your Company is a member of the Borealis Family of Companies, and is incorporated in Gibraltar. Gibraltar law is essentially English law and we are governed by that. We have elected to use Gibraltar GAAP as our reporting standards, as these are the standards of our domicile.

    In addition to the Investor Information available for our parent company, Borealis Exploration Limited, links to corporate information specific to Cool Chips plc are located at http://www.coolchips.gi/investor/corpinfo.shtml

    Stock quotes can be found at:
    Pink Sheets: BOREF COLCF Bloomberg: BOREF COLCF "

    Does that sound like pandering to you? It sure does to me, and my wallet is firmly tucked away.

    Just remember... their own statement is that they are a virtual company run out of a tax haven. Caveat emptor. Don't throw your SlashDollars away.

  3. Sounds reasonable by HalfFlat · · Score: 5, Interesting

    Reading their technology explanation, the idea certainly seems reasonable enough! The trick being of course in the manufacturing of the two very close but seperated layers.

    If I understood their physics-for-dummies explanation correctly, the principle relies on two metals separated by a very thin gap; a potential difference across the plates encourages tunneling of electrons across the gap, carrying heat with them.

    IANAP, but I'm sure someone here is: doesn't vibration at the atomic scale in some crystalline medium also act like a particle? Can these guys also tunnel across gaps, or is their weird quantum nature restricted to the single medium they're expressed in? If they could tunnel, I would have thought that as the heat differential across the plates increased, their tunneling would also increase, acting as a break on the process and bringing about an equilibrium situation (temperature differential vs. potential differential.) Or is the mechanism for equilibrium simply black-body radiation across the gap, or similar?

    What sort of temperature differentials are possible through a device like this? Is it only limited by mechanical constraints?

    Hope these thoughts aren't entirely moronic.

  4. Re:.5 inch gives... by wimmi · · Score: 4, Interesting
    and half a square inch of the coolchip gives me a nice beercan cooler!!
    I believe that a (beer-)can manufacturer (I believe it was Chorus Steel) is experimenting with cooling cans by releasing a harmless gas on opening which has been previously dissolved during the canning procedure.

    To vaporise that gas it drained the heat-energy from the drink and therefore instantly cooled it.
    It's probably cheaper than Coolchip too.

  5. Re:Why this is bullsh*t... by HalfFlat · · Score: 3, Interesting

    Caveat: I really am Not a Physicist, and am talking with little clue. But I don't think it is as bleak a picture as you describe.

    For starters, I thought these weren't necessarily semiconductor based. If I understand the principle correctly, you'd want both sides of the device to behave like metals. 'Hot' electrons would be being replaced by relatively slow-moving electrons from the current source.

    Also, if (big 'if') you can do some fancy molecular footwork so that the two layers are held apart by relatively heat-non-conucting struts, then there could still be a fair amount of room to produce a temperature differential before heat conduction back to the cold side caused equilibrium.

    Lastly, there's always going to be some radiation-based transfer of heat from the hot side to the cold side, but again that just constrains where the equilibrium point is going to be reached. It's possible that in normal operating range, this effect is quite small.

  6. I get it by Spinality · · Score: 3, Interesting

    They claim to have actually built a Maxwell's Demon. Like all such claims, it is founded on germs of plausibility, and the prospect of beating the thermodynamic game is so interesting that folks line up to play with it. It's hard to imagine that all the objections posted here can be wrong; though perhaps it will turn out that, after you cut through their marketing hyperbole, there's a valid useful nugget of technology that has some practical applications. One hopes that this is what the Boeing geeks have found, and that they didn't get swindled. (It's sad when smart guys get fooled by a scam.) But time will tell, of course.

    --
    -- We all have enough strength to endure the misfortunes of other people. La Rochefoucauld