A Liquid-Based System for CPU Cooling Implementing a Jet Array Impingement Waterblock and a Tube Array Remote Heat Exchanger

Citation

B.P. Whelan, R.S. Kempers, A.J. Robinson, A Liquid-Based System for CPU Cooling Implementing a Jet Array Impingement Waterblock and a Tube Array Remote Heat Exchanger, Applied Thermal Engineering, 39, 2012, 86 94

Abstract

A liquid CPU cooler has been designed and tested with the aim to achieve a cooling capacity of 200 W for a surface area of 8.24 cm2, commensurate with the integrated heat spreader dimensions of an Intel? Pentium? 4 Processor. The primary aim of the design was to develop thermal hardware components that can be manufactured simply and cost effectively. To this end, a miniature jet array waterblock and a tube bundle remote heat exchanger were employed since the bulk of their housings could be manufactured using low cost injection molding techniques which could significantly reduce the total system cost compared with conventional units. The system was capable of dissipating the required heat load and exhibited an overall thermal resistance of 0.18 K/W requiring approximately 1.5 W of hydraulic power. At maximum power the chip-to-air temperature difference was 45?C which is adequately close to typical design thresholds. The influences of power loading and liquid volumetric flow rate are also discussed.

Description

PUBLISHED

Endorsement

Review

Supplemented By

Referenced By

Sponsor: Science Foundation Ireland (SFI)

Author's Homepage: http://people.tcd.ie/arobins
Type of material: Journal Article