If you take a cm^3 of space, right next to the cpu and fill it either with air, or with oil, you'll have many, many, more atomic/molecular degrees of freedom to fill with energy in the cm^3 of oil. Getting that energy out of the cooling medium seems primarily like a fluid-flow problem - given oil's higher heat capacity, you can leave it around something hot, and still have it serve as an effective heat sink for a longer period of time than you can with air. My point is, the fan for the air has to run much faster than the oil pump for the oil coolant. <div>
<br></div><div>I'm too young for this, but didn't VW and Porche cool some of their engines with oil through the early 1980's? <div><br></div><div><br><div class="gmail_quote">On Thu, Mar 15, 2012 at 10:47 PM, Mark Hahn <span dir="ltr"><<a href="mailto:hahn@mcmaster.ca">hahn@mcmaster.ca</a>></span> wrote:<br>
<blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex"><div class="im">>> I guess I'm a bit skeptical about the utility of this approach -<br>
>> would be nice if they had some technical literature. something about<br>
>> thermal resistance. define how the oil bath dumps the heat (water<br>
>> hookups in the back?) comparison to modern heatpipe-based solutions, etc.<br>
><br>
> No need for water hookups. You can circulate the oil through an oil to<br>
> air heat exchanger. That's what those green cooing guys at the SC<br>
<br>
</div>is that really better than going to air directly?<br>
I guess I'd like to see the the numbers - to my way of thinking,<br>
it's almost all about the thermal resistance. transferring heat to oil,<br>
then to air, means two stages of resistance. using oil would permit<br>
a bigger air interface, though I suppose.<br>
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</div></div></blockquote></div><br><br clear="all"><div><br></div>-- <br>- - - - - - - - - - - - - - - - - - - - - <br>Nathan Moore<br>Associate Professor, Physics<br>Winona State University<br>- - - - - - - - - - - - - - - - - - - - -<br>
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