A parametric investigation of heat transfer and friction characteristics in cylindrical oblique fin minichannel heat sink

A novel cylindrical oblique fin minichannel heat sink was proposed and studied for cooling heat source with cylindrical surfaces. To optimize and analyze the heat transfer performance of the heat sink, a similarity analysis and parametric study on the geometric dimensions of the heat sink were perfo...

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Bibliographic Details
Published in:International journal of heat and mass transfer 2014-01, Vol.68, p.567-584
Main Authors: Fan, Yan, Lee, Poh Seng, Jin, Li-Wen, Chua, Beng Wah, Zhang, Ding-Cai
Format: Article
Language:English
Subjects:
Angles (geometry)
Apparent friction characteristics
Channels
Computational fluid dynamics
Cylindrical oblique fin minichannel
Fluid flow
Friction
Heat sinks
Heat transfer
Multiple correlation
Oblique angle
Reynolds number
Secondary channel gap
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Summary:A novel cylindrical oblique fin minichannel heat sink was proposed and studied for cooling heat source with cylindrical surfaces. To optimize and analyze the heat transfer performance of the heat sink, a similarity analysis and parametric study on the geometric dimensions of the heat sink were performed. Three dimensional conjugated heat transfer simulation using CFD (Computational Fluid Dynamics) approach was used to analyze the laminar convective heat transfer and apparent friction characteristics for 43 different cylindrical heat sinks with varied geometric dimensions. The studies were performed by varying the oblique angle from 20° to 45°, secondary channel gap from 1mm to 5mm and Reynolds number from 200 to 900. In this paper, the flow distribution was also investigated and reported, as the secondary channel gap, oblique angle and Reynolds number were varied. Based on the 259 numerical data points, multiple correlations for the average Nusselt number and the apparent friction constant were formulated, verified and presented. The average deviation for the approximation of average Nusselt number is from −5.8% to 7.0% while it is from −5.1% to 7.1% for the apparent friction constant. These correlations can be used for further studies such as performance prediction or geometrical optimization.
ISSN:0017-9310
1879-2189
DOI:10.1016/j.ijheatmasstransfer.2013.09.027