Hong-sheng Zhang is the professor in fluid dynamics in the College of Ocean Science and Engineering at Shanghai Maritime University. Prof. Zhang has 20 years experience in both numerical and physical modelling of hydrodynamics, including wave generation and propagation, the current simulation, the interaction between waves and currents, the interaction between waves/currents and structures, and the sediment transport. He has published a lot of papers in the famous peer-reviewed journals, including “Coastal Engineering”, “Ocean Engineering”, “Journal of Hydrodynamics” and “Journal of Engineering Mathematics”, et al. As a Principal Investigator, he has succeeded in applying for three projects funded by the Nature Science Foundation of China and more than 30 projects funded by Shanghai Municipal Science and Technology Commission, and the other funding agencies. Those projects are closely related to the interaction between waves and currents, wave propagation, wind wave generation and measurement, the simulation of current, the interactions between waves/currents and structures, and water resources planning. Prof. Zhang is the editorial member of “Journal of Hydrodynamics,Ser.B”, “The Ocean Engineering”(in Chinese)and “Journal of Hydrodynamics,Ser.A”(in Chinese).
Publications
[1] ZHANG H.S., ZHU L. S., YOU Y.X., 2005. A numerical model for wave propagation in curvilinear coordinates. Coastal Engineering, Vol.52:513-533(ESI;SCI:973VW;EI:05239143703).
[2] ZHANG H.S., ZHAO H.J., DING P.X.,2007.On the modeling of wave propagation on non-uniform currents and depth. Ocean Engineering,Vol. 34(10):1393-1404 (ESI;SCI:183KF;EI: 071610554421).
[3]ZHANG H.S, WANG Y., XU C.H., et al.,2013. Tests and applications of an approach of absorbing the reflected waves towards incident boundary, China Ocean Engineering, 27(6):703-718(SCI;EI).
[4] Zhang Hong-sheng, Zhou Hua-wei,2013. Wave radiation and diffraction by a two dimensional floating body with an opening near a side wall, China Ocean Eng.,Vol.27(4):437-450.(SCI;EI)
[5] ZHANG H. S., WU P.F., LIU W.B.,2014. The analysis of second-order sloshing resonance in a 3-D tank. Journal of Hydrodynamics, Ser.B,26(2):309-315(ESI;SCI;EI).
[6] ZHOU H.W.,ZHANG H.S.,2013. Radiation and diffraction analysis of a cylindrical body with a moon pool, Journal of Hydrodynamics, Ser.B,25(2):196-204(ESI;SCI;EI ).
[7] ZHOU H.W.,WU G.X., ZHANG H.S.,2013.Wave radiation and diffraction by a two dimensional floating rectangular body with a bottom opening, Journal of Eng. Math., Vol.83(1):1-22(ESI;SCI;EI).
[8] ZHOU H.W.,ZHANG H.S.,2010.A numerical model of nonlinear wave propagation in curvilinear coordinates. China Ocean Engineering,Vol. 24(4):597-610(SCI:711DP;EI: 20110913712502).
[9] ZHANG H.S., WANG W.Y., FENG W.J., et al. 2010. Tests and applications of a Boussinesq model with ambient current. Journal of Hydrodanamics, Ser.B, Vol. 22(4):526-536 (ESI;SCI:672EX;EI: 20103713226509).
[10] ZHANG H.S., ZHAO, SHI Z.,2007. A finite-difference approach to the time-dependent mild-slope equation. China Ocean Engineering, Vol.21(1): 65-76(SCI:154QO;EI:071910594395).
[11]Chen Xin-hua, Zhu Liang-sheng, Zhang Hong-sheng, 2007.Numerical simulation of summer circulation in the east China sea and its application in estimating the sources red tides in the Changjiang River estuary. Journal of Hydrodynamics, Ser.B,Vol.19(3), 272-281(EI:072710695141)
[12] WANG Y.L., ZHANG H.S., MIAO G.P. et al., 2005. A new approach to high-order Boussinesq-type equations with ambient currents. China Ocean Engineering, Vol.19(1):49-60 (SCI:933IC;EI:05189082114).
[13] ZHANG H.S., DING P.X., PAN J.N., et al., 2003. Numerical simulation of a mathematical model for wave propagation on non-uniform current and depth. Journal of Hydrodynamics,Ser.B, Vol. 15(2): 43-50(EI:03337594572).
[14] ZHANG H.S., HONG G.W., DING P.X., 2001.Numerical Modelling of Standing Waves with Three-Dimensional Non-Linear Wave Propagation Model. China Ocean Engineering, Vol.15(4),521-530 (SCI:510UC;EI:02056843956).
[15] HONG G.W., ZHANG H.S., FENG W.B., 1998. Numerical Simulation of Nonlinear Three-Dimensional Waves in Water of Arbitrary Varying Topography, China Ocean Eng., 12(4), 383-404(SCI:510UC;EI:99034616651).
[16] ZHU L.S., LI M.Q., ZHANG H.S., et al., 2004.Wave attenuation and friction coefficient on the coral-reef flatareas. China Ocean Engineering, Vol.18(1),129-136(SCI:807NK; EI:04498707892).
[17] ZHAO H.J., SONG Z.Y., ZHANG H.S., 2008.Comparison of four numerical models for the time-dependent mild-slope equations. Proceedings of the Chinese -German joint symposium on hydraulic and ocean Engineering,565-570(ISTP:BKG6).