Home
中文
Home
Academic Achievements
Selected Papers
Courses
Current position::
Zhizhao Che
>>
Academic Achievements
>>
Selected Papers
Che Zhizhao
Personal Information
Professor
Selected Papers
[81]Z Che*, A Deygas, OK Matar*. [2015] Impact of droplets on inclined flowing liquid films. Physical Review E, 92, 023032.
[82]Z Che*, TN Wong, NT Nguyen, C Yang. [2015] Three dimensional features of convective heat transfer in droplet-based microchannel heat sinks, International Journal of Heat and Mass Transfer, 86, 455-464.
[83]Z Che*, F Fang, J Percival, C Pain, O Matar, M Navon. [2014] An ensemble method for sensor optimisation applied to falling liquid films. International Journal of Multiphase Flow, 67 (Supplement), 153-161.
[84]Z Che*, TN Wong, NT Nguyen, C Yang. [2014] Asymmetric heat transfer in liquid-liquid segmented flow in microchannels. International Journal of Heat and Mass Transfer, 77, 385-394.
[85]Z Che, TN Wong*, NT Nguyen. [2013] Heat transfer in plug flow in cylindrical microcapillaries with constant surface heat flux. International Journal of Thermal Sciences, 64, 204-212.
[86]Z Che, TN Wong*, NT Nguyen. [2012] Heat transfer enhancement by recirculating flow within liquid plugs in microchannels. International Journal of Heat and Mass Transfer, 55 (7-8), 1947-1956.
[87]Z Che, TN Wong*, NT Nguyen, JC Chai. [2012] Formation and breakup of compound pendant drops at the tip of a capillary and its effect on upstream velocity fluctuations. International Journal of Heat and Mass Transfer, 55 (4), 1022-1029.
[88]Z Che, NT Nguyen*, TN Wong*. [2011] Analysis of chaotic mixing in plugs moving in meandering microchannels. Physical Review E, 84 (6), 066309.
[89]Z Che, TN Wong*, NT Nguyen, YF Yap, JC Chai. [2011] Numerical investigation of upstream pressure fluctuation during growth and breakup of pendant drops. Chemical Engineering Science, 66 (21), 5293-5300.
[90]Z Che, TN Wong*, NT Nguyen. [2011] An analytical model for plug flow in microcapillaries with circular cross section. International Journal of Heat and Fluid Flow, 32 (5), 1005-1013.
total94 9/10
first
previous
next
last
Page