趙天壽,香港科技大學工程及環境學冠名講席教授、機械及航空航天工程系講座教授(Chair Professor)、香港科大能源研究院院長、香港科大高研院資深學人(IAS Senior Fellow)、國際期刊International Journal of Heat and Mass Transfer主編。
【9】T.S. Zhao, P. Cheng, 1998, “Heat Transfer in Oscillatory Flows,” Annual Review of Heat Transfer, Volume IX, pp. 359-420, Edited by L.T. Chang.
代表性論文
【1】T.S. Zhao, P. Cheng, 1995, “A numerical solution of laminar forced convection in a heated pipe subjected to a reciprocating flow,” International Journal of Heat and Mass Transfer 38 (1995) 3011-3022.
【2】T.S. Zhao, P. Cheng, 1996, “Oscillatory heat transfer in a pipe subjected to a laminar reciprocating flow,” ASME Journal of Heat Transfer 118 (1996) 592-598.
【4】Z.L. Guo, T.S. Zhao, 2002, “Lattice Boltzmann model for incompressible flows through porous media,” Physical Review E 66 (2002) 036304.
【5】T.S. Zhao, Q. Liao, 2002, “Theoretical analysis of film condensation heat transfer inside vertical mini triangular channels,” International Journal of Heat and Mass Transfer 45 (2002) 2829-2842.
【6】 Z.L. Guo, T.S. Zhao, 2003, “Explicit finite-difference lattice Boltzmann method for curvilinear coordinates,” Physical Review E 67 (2003) 066709.
【7】H. Yang, T.S. Zhao, Q. Ye, 2005, “In situ visualization study of CO2 gas bubble behavior in DMFC anode flow fields,” Journal of Power Sources 139 (2005) 79-90.
【8】 R. Chen, T.S. Zhao, 2005, “Mathematical modeling of a passive-feed DMFC with heat transfer effect,” Journal of Power Sources 152 (2005) 122-130.
【9】W.W. Yang, T.S. Zhao, 2007, “A two-dimensional, two-phase mass transport model for liquid-feed DMFCs,” Electrochimica Acta 52 (2007) 6125-6140.
【10】T.S. Zhao, C. Xu, R. Chen, W.W. Yang, 2009, “Mass transport phenomena in direct methanol fuel cells,” Progress in Energy and Combustion Science 35 (2009) 275-292.
【11】 T.S. Zhao, R. Chen, W.W. Yang, C. Xu, 2009, “Small direct methanol fuel cells with passive supply of reactants,” Journal of Power Sources 191 (2009) 185-202.
【12】T.S. Zhao, W.W. Yang, R. Chen, Q.X. Wu, 2010, “Toward operating direct methanol fuel cells with highly concentrated fuel,” Journal of Power Sources 195 (2010) 3451-3462.
【13】L. An, T.S. Zhao, 2011, “An alkaline direct ethanol fuel cell with a cation exchange membrane,” Energy & Environmental Science 4 (2011) 2213-2217.
【14】 S.Y. Shen, T.S. Zhao, J.B. Xu, Y.S. Li, 2011, “High performance of a carbon supported ternary PdIrNi catalyst for ethanol electro-oxidation in anion-exchange membrane direct ethanol fuel cells,” Energy & Environmental Science 4 (2011) 1428-1433.
【15】 L. An, T.S. Zhao, Y.S. Li, Q.X. Wu, 2012, “Charge carriers in alkaline direct oxidation fuel cells,” Energy & Environmental Science 5 (2012) 7536-7538.
【16】 J.B. Xu, P. Gao, T.S. Zhao, 2012, “Non-precious Co3O4 nano-rod electrocatalyst for oxygen reduction reaction in anion-exchange membrane fuel cells,” Energy & Environmental Science 5 (2012) 5333-5339.
【17】X.B. Zhu, T.S. Zhao, Z.H. Wei, P.Tan, L.An, 2015, “A high-rate and long cycle life solid-state lithium-air battery,” Energy & Environmental Science 8 (2015) 3745-3754.
【18】X.B. Zhu, T.S. Zhao, Z.H. Wei, P. Tan, G. Zhao, 2015, “A novel solid-state Li-O2 battery with an integrated electrolyte and cathode structure,” Energy & Environmental Science 8 (2015) 2782-2790.
【19】 L. Zeng, T.S. Zhao, L. An, G. Zhao, X.H. Yan, 2015, “A high-performance sandwiched-porous polybenzimidazole membrane with enhanced alkaline retention for anion exchange membrane fuel cells,” Energy & Environmental Science 8 (2015) 2768-2774.
【20】 Q. Xu, T.S. Zhao, 2015, “Fundamental Models for Flow Batteries,” Progress in Energy and Combustion Science 49 (2015) 40-58.