TITLE:
Experimental Study of Jet Nanofluids Impingement System for Cooling Computer Processing Unit
AUTHORS:
Paisarn Naphon, Somchai Wongwises
KEYWORDS:
Jet Impingement, Nanofluids Cooling, Cooling CPU, Mini-Rectangular Fin Heat Sink
JOURNAL NAME:
Journal of Electronics Cooling and Thermal Control,
Vol.1 No.3,
December
16,
2011
ABSTRACT: An experimental investigation of the jet nanofluids impingement heat transfer characteristics of mini-channel heat sink for cooling computer processing unit of personal computer is performed. The experiments are tested under the real personal computer operating conditions: no load and full load conditions. The experiments are performed for the following ranges of the parameters: coolant flow rate varies from 0.008 to 0.020 kg/s, the nozzle diameter is set to 1.00, 1.40, 1.80 mm, the distance nozzle-to-fins tip is 2.00 mm, the channel width of the mini-channel heat sink is 1.00 mm. The nanofluids with suspending of TiO2 particles in base fluid are used as a working fluids. It was observed that the average CPU temperatures obtained from the jet nanofluids impingement cooling system are 3.0%, 6.25% lower than those from the jet liquid impingement and from the conventional liquid cooling systems, respectively. However, this cooling system requires higher energy consumption.