Calculating Computer Heat Generation with Thermoelectric Cooling Device

AI Thread Summary
To calculate the heat generated by microchips in a computer using a thermoelectric cooling device, one can use the formulas for electrical resistance: I^2R, V^2/R, or VI, based on the voltage and current supplied. Knowing the power output of each component can also provide necessary data for calculations. The temperature of the chip alone does not directly convert to Watts without additional information. The efficiency of heat exchange with the coolant is crucial for maintaining optimal temperatures. Understanding both heat generation and heat dissipation rates is essential for effective cooling in the system.
Jobistober
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Greetings All,

I have a computer project coming up and wanted to take an approach with physics. I want to use a thermoelectric cooling device to cool water in a liquid cooled computer. Heres the question: How can I calculate the amount of heat in Watts generated by the certain microchips and processors in the computer? If I know the temperature of the chip, isn't there a simple way to convert that temperature to its equivalent in Watts?

Any help is appreciated. Thanks.
 
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How about just knowing the power produced by each component? That should be published data on each component.
 
Jobistober said:
Greetings All,

I have a computer project coming up and wanted to take an approach with physics. I want to use a thermoelectric cooling device to cool water in a liquid cooled computer. Heres the question: How can I calculate the amount of heat in Watts generated by the certain microchips and processors in the computer? If I know the temperature of the chip, isn't there a simple way to convert that temperature to its equivalent in Watts?
The heat generated /unit time by any electrical resistance is I^2R or V^2/R or VI. So, if you have the voltage supplied and the current, you will be able to work out the heat given off.

I suspect that the most critical factor, however, will not be the amount of heat given off, but the speed at which heat can be exchanged with your coolant at the desired working temperature of the chip.

AM
 

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