Identification of minimum air flow design for a desktop computer using CFD modeling

Abstract

This paper reports the results of CFD analysis to cool the 30-W socketed CPU of a desktop computer with minimum air flow rate and minimum heat sink size. This was achieved using only the fan in the power supply for all air movement in the chassis. A duct was employed to direct the air flow over the CPU and then to the inlet air vents of the power supply. Use of this duct allowed more than 10/spl deg/C reduction of the CPU case temperature, relative to a unducted design. The CFD analysis results were confirmed by experiment, and the predicted CPU case temperatures agreed within /spl plusmn/2.9/spl deg/C of the experimental values for the ducted cases. This paper describes the methodology of CFD analysis for the heat sink/duct design, and describes experimental procedures to validate the predictions.