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S. G. Kandlikar, S. Colin, Y. Peles, S. Garimella, R. Fabian Pease, J.J. Brandner and D. B. Tuckerman, Heat transfer in microchannels - 2012 status and research needs, ASME Journal of heat transfer, 2013, 135(9).
G. L. Morini, Single-phase convective heat transfer in microchannels: a review of experimental results, International Journal of Thermal Sciences, 2004, 43(7), 631-651.
CrossRef
G. Hetsroni, A. Mosyak, E. Pogrebnyak and L. Yarin, Heat transfer in micro-channels: Comparison of experiments with theory and numerical results, International Journal of Heat and Mass Transfer, 2005, 48(25-26), 5580 - 5601.
CrossRef
D. Lelea, S. Nishio and K. Takano, The experimental research on microtube heat transfer and fluid flow of distilled water, International Journal of Heat and Mass Transfer, 2004, 47(12-13), 2817-2830.
CrossRef
G. Celata, M. Cumo, S. McPhail and G. Zummo, Single-phase laminar and turbulent heat transfer in smooth and rough microtubes, Microfluidics and Nanofluidics, 2007, 3, 697-707.
CrossRef
T.-Y. Lin and C.-Y. Yang, An experimental investigation on forced convection heat transfer performance in micro tubes by the method of liquid crystal thermography, International Journal of Heat and Mass Transfer, 2007, 50(23-24), 4736-4742.
CrossRef
V. Natrajan and K. Christensen, Non-intrusive measurements of convective heat transfer in smooth- and rough-wall microchannels: laminar flow, Experiments in Fluids, 2010, 49, 1021-1037.
CrossRef
S. Colin, Gas microflows in the slip flow regime: A critical review on convective heat transfer, Journal of Heat Transfer, 2012, 134(2), 020908.
CrossRef
P. Wu and W. A. Little, Measurement of the heat transfer characteristics of gas flow in fine channel heat exchangers used for microminiature refrigerators, Cryogenics, 1984,. 24(8), 415-420.
CrossRef
E. N. Sieder and G. E. Tate, Heat transfer and pressure drop of liquids in tubes, Industrial & Engineering Chemistry, 1936, 28(12), 1429-1435.
CrossRef
H. Hausen, Neue gleichungen fuer die waermeuebertragung bei freier und erzwungener stroemung," Allg. Waermetechnik, 1959, 9, 75-79.
F. W. Dittus and L. M. K. Boelter, Heat transfer in automobile radiators of the tubular type, University of California (Berkeley) Publication in Engineering, 1930, 2, 443.
S. B. Choi, R. Barron and R. Warrington, Fluid flow and heat transfer in microtubes, in American Society of Mechanical Engineers, Dynamic Systems and Control Division (Publication) DSC, 1991, 32, 123-134.
D. Yu, R. Warrington, R. Barron and T. Ameel, An experimental and theoretical investigation of fluid flow and heat transfer in microtubes, in Proceedings of ASME/JSME Thermal Engineering Joint Conf., Maui, HI, 1995.
K. Hara, M. Inoue and M. Furukawa, Heat transfer in minichannel gaseous cooling, Journal of Environment and Engineering, 2007, 2, 525-534.
CrossRef
C.-W. Chen, T.-Y. Lin, C.-Y Yang and S. G. Kandlikar, An experimental investigation on heat transfer characteristics or air and co2 in microtubes, in Proceedings of the ASME 2011 9th International Conference on Nanochannels, Microchannels, and Minichannels, Edmonton, Canada, 2011.
C.-Y. Yang, C.-W. Chen, T.-Y. Lin and S. G. Kandlikar, Heat transfer and friction characteristics of air flow in microtubes, Experimental Thermal and Fluid Science, 2012, 37(3), 12 - 18.
CrossRef
V. Gnielinski, Ein neues berechnungsverfahren fuer die waermeuebertragung im uebergangsbereich zwischen laminarer und turbulenter roehrstromung, Forschung im Ingenieurwesen, 1995, 61(9), 240-248.
CrossRef
Hong, C. and Asako Y., Heat Transfer Characteristics of Gaseous Flow in a Microchannel and Microtube with Constant Wall Temperature, Numerical Heat Transfer, 2007, 52, 219-238.
Y. Yang, Experimental and numerical analysis of gas forced convection through Microtubes and Micro Heat Exchangers. PhD thesis, University of Bologna, 2013.
Y. Yang, T. Schakenbos, H. Chalabi, M. Lorenzini, and G. L. Morini, Compressible gas flow through heated commercial microtubes, in Proceedings of the 4th International Conference on Heat Transfer and Fluid Flow in Microscale, Fukuoka, Japan, 2011.
C. Hong, Y. Asako and T. Ueno, Flow and heat transfer characteristics of turbulent gas flow in microtube with constant wall heat flux, in 1st European Conference on Gas Micro Flows, Skiathos Island, Greece, 2012.
J. Lienhard IV and J. Lienhard V, A heat transfer textbook. Phlogiston Press, 3rd ed., 2003.
A. Demsis, B. Verma, SV Prabhu and A Agrawal, Experimental determination of heat transfer coefficient in the slip regime and its anomalously low value, Physical Review E, 2009, 80(016311).