[Beowulf] A Cooler Cloud: A Clever Conduit Cuts Data Centers? Cooling Needs by 90 Percent

Fri Jan 25 12:56:10 PST 2019

Eric,

I was suspecting that might be the case, but the explanations in the 
other articles were way too vague to be sure of that. The NextPlatform 
provided much better pictures. If that's the case, this thing operates 
like a direct-expansion (DX) refrigeration system, where the refrigerant 
is air and does not change state from liquid to gas, like a typical DX 
refrigeration system, and the induced-draft fan provides the shaft work, 
and those tiny channels that allegedly line up the molecules act as many 
tiny offices for the throttling process. Based on the pictures in the 
Next Platform article, here is a crude drawing of cross-section of one 
of these devices that I drew in Google Draw. It should help you 
understand what's going inside this thing:

https://docs.google.com/document/d/1UK94PxVlQtVSb2ns5TbCqHjPJ1vYSOmkGSeSorvHyaM/edit?usp=sharing

Given this design, you can only have an induced-draft fan on the outlet. 
A forced-draft fan on the inlet would compress the air, heating it up 
and negating the throttling (or Joule-Thompson) effect on the 
low-pressure side.

At the end of the day, thermodynamics still says X amount of shaft work 
has to be done to provide Y amount of cooling through this process, so 
I'm still skeptical of it, especially at scale.

And for those of you looking for something really boring to read rather 
than work, here are the related patents. I haven't read them myself.

https://patents.google.com/patent/US8414847

https://patents.google.com/patent/US8986627B2

https://patents.google.com/patent/US10113774B2

Prentice

On 1/25/19 2:26 PM, Eric Moore wrote:
> Actually, it looks like Joule-Thompson cooling to me (Especially given 
> the "Joule Force" name). You've got the air intake (ambient), then an 
> expansion nozzle, into a low-pressure region, which is created by the 
> fan at the end. So the outlet velocity of the air (and thus it's 
> kinetic energy) is higher than the inlet velocity, which would lower 
> the internal energy, and thus the temperature. Instead the 
> fins/nozzle/heatsink transfer heat to the expanding gas, which exits a 
> little above ambient temperature. I imagine the drawback is you really 
> need to get rid of that high velocity hot air, and can't recirculate 
> it, or the kinetic energy would be converted back to thermal energy, 
> and mess it all up. The descriptions do all involve the exhaust air 
> being ducted to the outside. This article has the most technical 
> detail: 
> https://www.nextplatform.com/2018/12/04/the-leading-edge-of-air-cooled-servers-leads-to-the-edge/
>
> On Fri, Jan 25, 2019 at 11:33 AM Prentice Bisbal via Beowulf 
> <beowulf at beowulf.org <mailto:beowulf at beowulf.org>> wrote:
>
>     You all know how much I like talking about heat transfer and
>     server cooling, so I decided to do some research on this product:
>
>     Here's their website:
>
>     https://forcedphysics.com
>
>     and here's their YouTube channel with 5 videos:
>
>     https://www.youtube.com/channel/UClwWeahYGuNl0THWVz1Hyow/videos
>
>     This is really nothing more than an air-cooled heatsink. I'm
>     afraid I'm going to have to call BS on this technology for the
>     following reasons:
>
>     1. It still uses air as the primary cooling medium. I just don't
>     think air has adequate thermal conductivity or thermal capacity to
>     serve modern processor, no matter what you do to it.
>
>     2. In the videos, they present highly idealized tests with no
>     control to use for comparison. How do I know I wouldn't get the
>     same results doing the same experiment but using a similar duct
>     fashioned out of sheet metal.
>
>     3. Using this technology means a complete redesign of your server
>     hardware and possibly your racks.
>
>     4. None of the information in the videos or on their website
>     really explains how this technology works, and what really
>     differentiates it from any other air-cooled heat sink. Most people
>     with a good invention are usually excited to tell you how it
>     works. Since they brag about 30 international patents for this,
>     there's no need to try to protect a trade secret.
>
>     5. This statement:
>
>>     The fins work like teeth in a comb, neatly orienting air
>>     molecules to point in the same direction and arranging them into
>>     columns. 
>
>     Based on my education, this statement seems to be completely
>     devoid of science.
>
>     This statement seems to defy the laws of physics. Last time I
>     checked, unless an atom or molecule is at absolute zero, it has
>     movement, whether it's spinning or vibrating, or both, so how can
>     they get air molecules to line up all in neat little rows, where
>     the molecules are all pointing the same way?
>
>     This also implies very laminar flow.  As fluid velocity increases
>     that the diameter of the channel decreases, the Reynolds Number
>     increases. As the Reynold's number goes up, turbulence increases,
>     so mathematically, I would expect this flow to be tubulent, and
>     not laminar. From my classes on heat transfer, turbulent flow
>     around the heat transfer surface increases heat transfer, so
>     laminar flow in this case wouldn't be a good thing.
>
>     Until they can provide better comparisons with real servers in
>     real data center environments, I'm going to classify this as
>     "snake oil"
>
>     https://en.wikipedia.org/wiki/Snake_oil
>
>     Prentice
>
>     On 1/24/19 3:54 PM, Chuck_Petras at selinc.com
>     <mailto:Chuck_Petras at selinc.com> wrote:
>>     Well, this is interesting.
>>
>>     "According to Forced Physics’ <https://forcedphysics.com/
>>     [forcedphysics.com]
>>     <https://urldefense.proofpoint.com/v2/url?u=https-3A__forcedphysics.com_&d=DwMFAw&c=-_uRSsrpJskZgEkGwdW-sXvhn_FXVaEGsm0EI46qilk&r=fawF3TRTwCqlaBkoLcxYCr4F4NRwCc64hmEgi9rHPpE&m=zr6lAlVphGxOQTXSElww9hGpqb9IZPik0_MN2v8Fqjs&s=lb4Hi9X8NKIYWe_e1RU3Cw4gr9Uz_B7n5pnCNY0ss3U&e=>>
>>     chief technology officer, David Binger, the company’s conductor
>>     can help a typical data center eliminate its need for water or
>>     refrigerants and shrink its 22-MW load by 7.72 MW, which
>>     translates to an annual reduction of 67.6 million kWh. That data
>>     center could also save a total of US $45 million a year on
>>     infrastructure, operating, and energy costs with the new system,
>>     according to Binger. “We are solving the problem that electrons
>>     create,” he said."
>>
>>     A Cooler Cloud: A Clever Conduit Cuts Data Centers’ Cooling Needs
>>     by 90 Percent
>>     https://spectrum.ieee.org/energy/environment/a-cooler-cloud-a-clever-conduit-cuts-data-centers-cooling-needs-by-90-percent
>>     [spectrum.ieee.org]
>>     <https://urldefense.proofpoint.com/v2/url?u=https-3A__spectrum.ieee.org_energy_environment_a-2Dcooler-2Dcloud-2Da-2Dclever-2Dconduit-2Dcuts-2Ddata-2Dcenters-2Dcooling-2Dneeds-2Dby-2D90-2Dpercent&d=DwMFAw&c=-_uRSsrpJskZgEkGwdW-sXvhn_FXVaEGsm0EI46qilk&r=fawF3TRTwCqlaBkoLcxYCr4F4NRwCc64hmEgi9rHPpE&m=zr6lAlVphGxOQTXSElww9hGpqb9IZPik0_MN2v8Fqjs&s=VuDTSuinKPMpF6NCztFZkSGOVo3LD7MLjroIj_sn0ao&e=>
>>
>>
>>
>>     Chuck Petras, PE**
>>     Schweitzer Engineering Laboratories, Inc
>>     Pullman, WA  99163  USA
>>     http://www.selinc.com <http://www.selinc.com/>
>>
>>     SEL Synchrophasors - A New View of the Power System
>>     <http://synchrophasor.selinc.com <http://synchrophasor.selinc.com/>>
>>
>>     Making Electric Power Safer, More Reliable, and More Economical (R)
>>
>>     ** Registered in Oregon.
>>
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