HOME /

Publications

Search
[ Author(Asc)] Title Type Year
Z
Zhou, Y. , Jiao, K. , Du, Q. , Yin, Y. , & Li, X. . (2013). Gas diffusion layer deformation and its effect on the transport characteristics and performance of proton exchange membrane fuel cell. International Journal of Hydrogen Energy, 38(29), 12891-12903. Elsevier.
Zhao, J. , Shahgaldi, S. , Alaefour, I. , Xu, Q. , & Li, X. . (2018). Gas permeability of catalyzed electrodes in polymer electrolyte membrane fuel cells. Applied Energy, 209, 203-210. Elsevier.
Zhang, H. , Qin, Y. , Li, X. , & Liu, X. . (Submitted). Driver-Oriented Optimization of Power Management in Plug-In Hybrid Electric Vehicles CCTC 2013 Paper Number 1569730735.
Zhang, J. , Li, X. , & Vance, M. . (2008). Experiments and modeling of heat transfer in oil transformer winding with zigzag cooling ducts. Applied Thermal Engineering, 28(1), 36-48. Elsevier.
Zhang, J. , & Li, X. . (2007). Analysis for oil thermosyphon circulation and winding temperature in on transformers. Power Engineering Society General Meeting, 2007. IEEE. IEEE.
Zhang, J. , & Li, X. . (2006). Oil cooling for disk-type transformer windings-Part II: Parametric studies of design parameters. IEEE transactions on power delivery, 21(3), 1326-1332. IEEE.
Zhang, J. , & Li, X. . (2006). Oil cooling for disk-type transformer windings-part 1: theory and model development. IEEE transactions on power delivery, 21(3), 1318-1325. IEEE.
Zhang, J. , & Li, X. . (2005). Natural cooling oil flow in disk-type transformer windings with zigzag flow passages. International Journal of Transport Phenomena, 7(3), 199. OCP Science.
Zhang, J. , & Li, X. . (2004). Coolant flow distribution and pressure loss in ONAN transformer windings. Part II: Optimization of design parameters. IEEE transactions on power delivery, 19(1), 194-199. IEEE.
Zhang, J. , & Li, X. . (2004). Coolant flow distribution and pressure loss in ONAN transformer windings $ Part I: Theory and model development. IEEE Transactions on Power Delivery, 19(1), 186-193. IEEE.
Zamel, N. , & Li, X. . (2013). Effective transport properties for polymer electrolyte membrane fuel cells–with a focus on the gas diffusion layer. Progress in energy and combustion science, 39(1), 111-146. Elsevier.
Zamel, N. , Li, X. , & Shen, J. . (2012). Numerical estimation of the effective electrical conductivity in carbon paper diffusion media. Applied energy, 93, 39-44. Elsevier.
Zamel, N. , Li, X. , Becker, J. , & Wiegmann, A. . (2011). Effect of liquid water on transport properties of the gas diffusion layer of polymer electrolyte membrane fuel cells. International Journal of Hydrogen Energy, 36(9), 5466-5478. Elsevier.
Zamel, N. , Litovsky, E. , Li, X. , & Kleiman, J. . (2011). Measurement of the through-plane thermal conductivity of carbon paper diffusion media for the temperature range from− 50 to+ 120° C. international journal of hydrogen energy, 36(19), 12618-12625. Elsevier.
Zamel, N. , Litovsky, E. , Shakhshir, S. , Li, X. , & Kleiman, J. . (2011). Measurement of in-plane thermal conductivity of carbon paper diffusion media in the temperature range of− 20° C to+ 120° C. Applied energy, 88(9), 3042-3050. Elsevier.
Zamel, N. , & Li, X. . (2011). Effect of contaminants on polymer electrolyte membrane fuel cells. Progress in Energy and Combustion Science, 37(3), 292-329. Elsevier.
Zamel, N. , & Li, X. . (2010). Non‐isothermal multi‐phase modeling of PEM fuel cell cathode. International Journal of Energy Research, 34(7), 568-584. Wiley Online Library.
Zamel, N. , & Li, X. . (2010). Anode contamination modeling. Proton Exchange Membrane Fuel Cells: Contamination and Mitigation Strategies, 209. CRC Press.
Zamel, N. , Li, X. , Shen, J. , Becker, J. , & Wiegmann, A. . (2010). Estimating effective thermal conductivity in carbon paper diffusion media. Chemical Engineering Science, 65(13), 3994-4006. Elsevier.
Zamel, N. , Astrath, N. G. C. , Li, X. , Shen, J. , Zhou, J. , Astrath, F. B. G. , Wang, H. , et al. (2010). Experimental measurements of effective diffusion coefficient of oxygen–nitrogen mixture in PEM fuel cell diffusion media. Chemical Engineering Science, 65(2), 931-937. Elsevier.

Pages