International Journal of Heat and Mass Transfer, Vol.108, 453-467, 2017
On the flow boiling enhancement in interconnected reentrant microchannels
Interconnected reentrant microchannels (IRM) were developed to explore the feasibility of flow boiling enhancement and applications in high heat flux dissipations. They consisted of 14 parallel semi-closed Omega-shaped microchannels and 8 transverse ones each with a hydraulic diameter of 781 mu m. These microchannels were fabricated in copper by wire electrical discharge machining process. One-to-one comparative studies between the IRM and parallel reentrant microchannels (PRM) with the same reentrant configurations were conduced in flow boiling experiments. Two coolants tests of deionized water and ethanol were performed at inlet subcoolings of 10 and 40 degrees C and mass fluxes of 125-300 kg/m(2) s. Significant flow boiling heat transfer augmentation, i.e., an enhancement ratio of 40-280% in water tests, and 28-61% in ethanol tests, were achieved for the interconnected reentrant microchannels. This can be attributed to that the addition of transverse microchannels provided more flow passages, diminished the confinement effects for vapor flow and introduced intense disruption and re-initializations of the liquid thin film. Moreover, the two-phase flow instabilities were mitigated considerably, and the stream-wise temperature uniformity was also improved for the IRM. All these features of interconnected reentrant microchannels indicate that they could be a promising option for the application in high heat flux dissipations. (C) 2016 Elsevier Ltd. All rights reserved.
Keywords:Microchannel heat sinks;Flow boiling;Interconnected reentrant microchannels;Heat transfer enhancement