Dr. Chunmei Wu received her Ph.D. degree in Power Engineering and Engineering Thermophysics at Chongqing University in 2013 and worked as a postdoctoral fellow at University of Toronto in 2013-2015. She joined the School of Energy and Power Engineering, Chongqing University in 2015.
2020-Present Professor, School of Energy and Power Engineering, Chongqing University
2015-2020 Associate professor, School of Energy and Power Engineering, Chongqing University
2003-2015 Postdoctoral fellow, University of Toronto,Canda
2003-2015 Lecture, College of Mechanical Engineering, Chongqing University
2009-2013 Joint-training Ph.D., Department of Mechanical & Industry Engineering, University of Toronto, together with College of Power Engineering, Chongqing University
2004-2008 Bachelor of Engineering, College of Power Engineering, Chongqing University
● Interfacial energy and Mass transfer
● Theory and application of nonequilibrium thermodynamics
● Flow stability and instability
● Energy saving technology and thermal mangement
● Energy storage
National Science Foundation of China
National Science Foundation for Young Scientists of China
Natural Science Foundation of Chongqing
Venture & Innovation Support Program for Chongqing Overseas Returnees
Fundamental Research Fund for the Central Universities
China Postdoctoral Science Foundation funded project
 Wu CM, Wei X., Li YR, Investigation on the mechanisms of cluster formation and transition from adsorption to condensation, International Journal of Heat and Mass Transfer, 2021, 171:121096
 Wei X., Wu CM, Li YR, Molecular insight into the formation of adsorption clusters based on the zeta isotherm, Physical Chemistry Chemical Physics, 2020, 22, 10123-10131
 Wu CM, Chen J.H., Li YR, Mixed oscillation flow of binary fluid with minus one capillary ratio in the czochralski crystal growth model, Crystals, 2020(3), 213.
 Wu CM, Chen J.H., Yuan B., Li YR, Bifurcations and pattern evolutions of thermo-solutocapillary flow in rotating cylinder with a top disk, Physics of Fluids, 31:094103, 2019.
 Chen JC, Wu CM, Li YR, Yu JJ, Capillary ratio dependence of thermal-solutal capillary convection in a shallow annular pool with radial temperature and concentration gradients, International Journal of Thermal Sciences, 139:15-24, 2019.
 Wu CM, Luo J.Q., Yu J.J., Li Y. R., Thermocapillary convection of a binary mixture with the Soret effect in a shallow annular pool heated from below, Fluid Dynamics Research, 51: 065501, 2019
 Wu CM, Yuan B, Li YR, Flow Instabilities of Coupled Rotation and Thermal-Solutal Capillary Convection of Binary Mixture in Czochralski Configuration, Crystals, 9:72, 2019.
 Shen T, Wu CM, Li YR, , Crystal Research and Technology, 52(9):1700268, 2018.
 Zhang L, Luo JQ, Wu CM, Yu JJ, Li YR, Thermocapillary convection in a binary mixture with moderate Prandtl number in a shallow annular pool, Microgravity Science and Technology, 30(1-2):33-42, 2018.
 Ye S, Wu CM, Zhang L, Li YR, Liu QS, Evolution of thermal patterns during steady state evaporation of sessile droplets, Experiemtnal Thermal and Fluid Science, 98: 712-718, 2018.
 Chen JC, Wu CM, Li YR, Yu JJ, Effect of capillary ratio on thermal-solutal capillary-buoyancy convection in a shallow annular pool with radial temperature and concentration gradients, International Journal of Heat and Mass Transfer, 109: 367-377, 2017.
 Yu JJ, Wu CM, Li YR, Chen JC, Thermal-solutal capillary-buoyancy flow of a low Prandtl number binary mixture with a -1 capillary ratio in an annular pool, Physics of Fluids, 28(8):084102, 2016.
 Shen T, Wu CM, Zhang L, Li YR, . Journal of Crystal Growth, 438:55-62, 2016.
 Shen T, Wu CM, Li, Li YR, , International Journal of Thermal Sciences, 104:20-28, 2016.
 Wu CM, Zandavi SH, Ward CA, Prediction of the wetting condition from the Zeta adsorption isotherm, Physical Chemistry Chemical Physics, 16(46):25564-72, 2014.
 Wu CM, Liao RJ, Rotating and thermocapillary-buoyancy-driven flow in a cylindrical enclosure with a partly free surface, Physics of Fluids, 26:104105, 2014.
 Wu CM, Ran DF, Liao RJ, Flow pattern transition driven by the combined Marangoni effect and rotation of crucible and crystal in a Czochralski configuration, International Journal of Thermal Sciences, 86:394-407, 2014.