Google's Chiller-Less Data Center

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Google's Chiller-Less Data Center

Posted by samzenpus on Wednesday July 15, 2009 @11:37AM from the cooler-than-cool dept.

1sockchuck writes "Google has begun operating a data center in Belgium that has no chillers to support its cooling systems, which will improve energy efficiency but make weather forecasting a larger factor in its network management. With power use climbing, many data centers are using free cooling to reduce their reliance on power-hungry chillers. By foregoing chillers entirely, Google will need to reroute workloads if the weather in Belgium gets too warm. The facility also has its own water treatment plant so it doesn't need to use potable water from a local utility."

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Yakhchal by physicsphairy · 2009-07-15 12:28 · Score: 4, Informative

The ancient Persians had a passively cooled refrigerator called the yakhchal which "often contained a system of windcatchers that could easily bring temperatures inside the space down to frigid levels in summer days."
Perhaps the Google datacenter could employ some variation of their technique.

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When things get complex, multiply by the complex conjugate.
Re:This might be a dumb question by InsertWittyNameHere · 2009-07-15 12:32 · Score: 4, Informative

They already do that:
http://en.wikipedia.org/wiki/Deep_lake_water_cooling
http://en.wikipedia.org/wiki/Geothermal_heating
Re:Unreliable... by j79zlr · 2009-07-15 12:48 · Score: 5, Informative

If you have chilled water, you have a chiller, which means you have compressors. Process water or ground source water usually is not cold enough to be an effective cooling medium. You want a high delta T between the entering air temp and the entering water temp to induce heat transfer. Closed loop ground source water is extremely (prohibitively) expensive and open loop is quite a maintenance hassle due to water treatment. High efficiency chillers paired with evaporative cooled water towers with economizer capability is very efficient and reliable. Usually you can get down to around 0.5kW per ton with high efficiency chillers at full load and with multiple staged compressors you can do even better with part load conditions. The cooling towers are usually pretty low with around 0.05 to 0.15kW per ton. Use VFD's on the secondary pumps and cooling tower fans, and you can get cooling in at 0.75kW per ton for the whole plant at peak and even lower and part load conditions (95% of the time).

I just designed a data center for a large Big Ten univeristy and there were no large air handlers involved at all. The system had two 400-ton chillers with the chilled water piped directly to rack mount APC fan coils. Without "green" being the basis of design, the chiller system still operates right at about 1kW/ton.

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I'm not not licking toads.
Re:Unreliable... by j79zlr · 2009-07-15 15:03 · Score: 4, Informative

The units were mounted on the roof, but were packaged AAON 2 x LL210 chillers (and a full 400 ton backup) with no exposed exterior piping. Glycol reduces the specific heat of the fluid and increases the specific gravity, so it can move less heat and takes more power to move. I only add glycol to the system if freezing is an issue.

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I'm not not licking toads.