Eun Yeong Choi scite author profile

The detailed distribution of the heat transfer coefficient on rotating smooth and dimpled rectangular channels were measured using the transient liquid crystal technique. The rotating speed of the channel was fixed at 500 rpm and the tested Reynolds number based on the channel hydraulic diameter was 10,000. A stationary surface and two different channel rotating orientations of 90 deg and 120 deg were tested in order to investigate the effects of channel orientation on the distribution of the heat transfer coefficient in smooth and dimpled rotating surfaces. Results show that the heat transfer coefficient on the trailing surface is higher than that on the leading surface. For the 120 deg channel orientation angle cases, a higher heat transfer coefficient was observed near the outer surface. In the dimpled channel, the effect of the Coriolis force induced secondary flow on the heat transfer coefficient was not as significant as that for the smooth channel case.

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Effect of Inlet Velocity Profile on Heat Transfer in a Rotating Channel

Choi¹,

Park²,

Kim³

et al. 2013

Journal of Thermophysics and Heat Transfer

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Effect of Dimple Configuration on Heat Transfer Coefficient in a Rib-Dimpled Channel

Choi

Kwak

2013

Journal of Thermophysics and Heat Transfer

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Effect of Dimple Configuration on Heat Transfer Coefficient in a Rotating Channel

Kim

Lee

Choi

et al. 2011

Journal of Thermophysics and Heat Transfer

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Eun Yeong Choi

Heat transfer augmentation using a rib–dimple compound cooling technique

Effect of Channel Orientation on the Heat Transfer Coefficient in the Smooth and Dimpled Rotating Rectangular Channels

Effect of Inlet Velocity Profile on Heat Transfer in a Rotating Channel

Effect of Dimple Configuration on Heat Transfer Coefficient in a Rib-Dimpled Channel

Effect of Dimple Configuration on Heat Transfer Coefficient in a Rotating Channel

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