An experimental study of two phase multiple jet cooling on straight-finned surfaces using a dielectric fluid

Liang Han Chien*, Chin Yao Chang, Han Yang Liu

*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

In the present study, a jet cooling device for electronics was investigated using FC-72 as the working fluid. The system temperature of jet cooling device was set at 50°C. The jets were 5 mm above the test surface, and the heated area of the test surface was 12×12 mm2. The nozzle plate had 5 or 9 pores of 0.24 mm in diameter. The test surfaces included: a smooth surface and two straight-finned surfaces of either 400 or 800μm fin height, 200 or 400 μm fin thickness and gap width. The volume flow rate varied from 50 to 150 ml/min (Re = 1655 ∼ 1860). The results showed that the heat transfer performance increased with increasing flow rate, or increasing surface area enhancement ratio. The finned surface of 800μm fin height, 200μm fin thickness and gap width yielded the best performance, which is about 250 % greater than the smooth surface at 150 ml/min. As a promising chip cooling solution, the thermal resistance of spray cooling on this straight-finned surface varied between 0.14 and 0.15 K/W in the range of 60 ∼ 121 W of heat input when the present jet cooling system operated at 150 ml/min. Correlations of multiple jets cooling on smooth and straight-finned surfaces have been proposed. For the data in the range of Re = 1655 ∼ 8960, Bo = 0.024 ∼ 0.389, surface area enhancement ratio (γA) = 2.07 ∼ 5.32, this correlation predicts 94% of the present data within ±20%.

Original languageEnglish
Title of host publication2010 14th International Heat Transfer Conference, IHTC 14
Pages629-638
Number of pages10
DOIs
StatePublished - 2010
Externally publishedYes
Event2010 14th International Heat Transfer Conference, IHTC 14 - Washington, DC, United States
Duration: 08 08 201013 08 2010

Publication series

Name2010 14th International Heat Transfer Conference, IHTC 14
Volume5

Conference

Conference2010 14th International Heat Transfer Conference, IHTC 14
Country/TerritoryUnited States
CityWashington, DC
Period08/08/1013/08/10

Keywords

  • Electronic cooling
  • Impingement
  • Jet
  • Straight fin

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