Using nanofluids, at low nanoparticle concentrations, in minichannels or microchannels can be considered as the potential revolution in heat transfer enhancement processes for many industries’ applications. Acknowledgment The authors of this article would like to thank the French Ministry of Industry and Commerce (DGCIS) for the funding of this work, which is integrated in the European project OPERANET-2 labeled by Celtic-Plus. References 1. Harirchian T, Garimella SV: Microchannel size
effects on local flow boiling heat transfer to a dielectric fluid. J Heat and Mass Trans 2008, 51:3724–3737.CrossRef Akt inhibitor 2. Kandlikar SG: A general correlation for saturated two-phase flow boiling heat transfer inside horizontal and vertical tubes. J Heat Trans 1990, 112:219–228.CrossRef 3. Bowers MB, Mudawar I: Two-phase Selleckchem VS-4718 electronic cooling using mini-channel and micro-channel heat sinks: part
1-design criteria and heat diffusion constraints. ASME J Electron Packag 1994, 116:290–197.CrossRef 4. Qu W, Mudawar I: Flow boiling heat transfer in two-phase micro-channel heat sinks-II. Annular two phase flow model. J Heat Mass Trans 2003, 46:2773–2784.CrossRef 5. Liu D, Garimella SV: Flow boiling heat transfer in microchannels. J Heat Trans 2007, 129:1321–1332.CrossRef 6. Shah MM: A new correlation for heat transfer during subcooled boiling in pipes and annuli. ASHRAE Trans 1976, 83:202–217. 7. Chen T, Garimella SV: Measurements and high-speed visualization of flow boiling of a dielectric fluid in a silicon microchannel heat sink. J Multiphase Flow 2006,
32:957–971.CrossRef 8. Fang Autophagy high throughput screening X, Rongrong S, Zhanru Z: Correlations of flow boiling heat transfer of R134a in minichannels: comparative study. Energy Sci Technol 2011, 1:1–15. 9. Nguyen CT, Roy G, Galanis CH: Heat transfer enhancement using Al 2 O 3 -water nanofluid for an electronic liquid cooling system. Appl Therm Eng 2007, 27:1501–1506.CrossRef 10. Peng H, Ding G, Jiang W, Hu H, Gao Y: Heat transfer characteristics of refrigerant-based nanofluid flow boiling inside a horizontal smooth tube. J Refrigeration 2009, 32:1259–1270.CrossRef 11. Mohammed HA, Bhaskaran G, Shuaib NH, Saidur R: Heat transfer and fluid flow characteristics in microchannels heat exchanger Loperamide using nanofluids: a review. Renew Sustain Energy Rev 2011, 15:1502–1512.CrossRef 12. Paul G, Chopkar M, Manna I, Das PK: Techniques for measuring the thermal conductivity of nanofluids: a review. Renew Sustain Energy Rev 2010, 14:1913–1924.CrossRef 13. Yu W, France DM, Routbort JL, Choi SUS: Review and comparison of nanofluid thermal conductivity and heat transfer enhancements. Heat Trans Eng 2008, 29:432–460.CrossRef 14. Chen CH, Ding CY: Study on the thermal behavior and cooling performance of a nanofluid-cooled microchannel heat sink. J Thermal Sciences 2011, 50:378–384.CrossRef 15. Huminic G, Huminic A: Application of nanofluids in heat exchangers: a review. Renew Sustain Energy Rev 2012, 16:5625–5638.CrossRef 16.