Heat transfer has been investigated in the presence of hydrodynamic cavitation instigated by wide inlet micro-orifices entrenched inside hydraulic diameter microchannels. Average surface temperatures, heat transfer coefficients, and pressure drops have been obtained over effective heat fluxes ranging from 39 to at mass flux of under noncavitating and three cavitating conditions. Significant heat transfer enhancement has been recorded during supercavitating flow conditions in comparison to noncavitating flows with minimal pressure drop penalty. Once supercavitating conditions were reached, no apparent heat transfer augmentation was detected with the reduction of the cavitation index. Visualization of the flow morphology and the heat transfer coefficient characteristics aided in the evaluation of the dominant heat transfer mechanism under various thermal-hydraulic conditions.
Cavitation Enhanced Heat Transfer in Microchannels
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Schneider, B., Koşar, A., Kuo, C., Mishra, C., Cole, G. S., Scaringe, R. P., and Peles, Y. (February 21, 2006). "Cavitation Enhanced Heat Transfer in Microchannels." ASME. J. Heat Transfer. December 2006; 128(12): 1293–1301. https://doi.org/10.1115/1.2349505
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