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Measurement of the heat transfer coefficient in the dimpled channel:effects of dimple arrangement and channel height Somin Shin
The Journal of Mechanical Science and Technology, vol. 23, no. 3, pp.624-630, 2009
Abstract : Heat transfer coefficients were measured in a channel with one side dimpled surface. The sphere type dimples were
fabricated, and the diameter (D) and the depth of dimple was 16 mm and 4 mm, respectively. Two channel heights of
about 0.6D and 1.2D, two dimple configurations were tested. The Reynolds number based on the channel hydraulic
diameter was varied from 30000 to 50000. The improved hue detection based transient liquid crystal technique was
used in the heat transfer measurement. Heat transfer measurement results showed that high heat transfer was induced
downstream of the dimples due to flow reattachment. Due to the flow recirculation on the upstream side in the dimple,
the heat transfer coefficient was very low. As the Reynolds increased, the overall heat transfer coefficients also increased.
With the same dimple arrangement, the heat transfer coefficients and the thermal performance factors were
higher for the lower channel height. As the distance between the dimples became smaller, the overall heat transfer coefficient
and the thermal performance factors increased.
Keyword :
Turbine heat transfer; Turbine blade cooling; Dimple; Transient liquid crystal technique
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