ChinTsau Hsu
Department of Mechanical Engineering
The Hong Kong University of Science and Technology, Hong Kong (China)
Professor Emeritus
Email: mecthsu@ust.hk
Qualifications
1977 Ph.D., Stanford University, Civil and Environmental Engineering
1976 M.S., Stanford University, Civil and Environmental Engineering
1970 M.S., National Taiwan University, Civil Engineering (Appl. Mech.)
1968 B.S., National Taiwan University, Civil Engineering
Publications (selected)

Hsu, C.T., Cheng, P. and Homsy, G.M. (1978), "Instability of free convection flow over a horizontal impermeable surface in a porous medium," Int. J. Heat Mass Transfer, 21, 12211228.

Hsu, C.T.and Cheng, P. (1979), "Vortex instability in buoyancyinduced flow over heated inclined surfaces in porous media," J. Heat Transfer, 101, 660665.

Hsu, C.T. and Cheng, P. (1980), "The onset of longitudinal vortices in mixed convective flow over an inclined surface in a porous medium," J. Heat Transfer, 102, 544549.

Hsu, C.T., Hsu, E.Y. and Street, R.L. (1981), "On the structure of turbulent flow over a progressive water wave: Theory and experiment in a transformed wavefollowing coordinate system," J. Fluid Mech., 105, 87117.

Hsu, C.T., Wu, H.Y., Hsu, E.Y. and Street, R.L. (1982), "Momentum and energy transfer in wind generation of waves," J. Physical Oceanography, 12, 929951.

Hsu, C.T. and Hsu, E.Y. (1983), "On the structure of turbulent flow over a progressive water wave: Theory and experiment in a wavefollowing coordinate system. Part 2," J. Fluid Mech., 131, 123153.

Hsu, C.T. and Cheng, P. (1985), "Brinkman's Model for natural convection about a vertical plate in a porous medium," Int. J. Heat Mass Transfer, 28, 683697.

Hsu, C.T. and Cheng, P. (1990), "Thermal dispersion in a porous medium," Int. J. Heat Mass Transfer, 33, 15871597.

Hsu, C.T. and Cheng, P. (1991), "A singular perturbation solution for Couette flow over a semiinfinite porous bed," J. Fluids Engineering, 113, 137142.

Hsu, C.T., Cheng, P. and Wong, K.W. (1995), "A lumpedparameter model for stagnant thermal conductivity of spatially periodic porous medium," ASME, J. Heat Transfer, 117, 264269.

Qiu, H.H. and Hsu, C.T.(1997), “A Fourier optics method for the simulation of measurementvolumeeffect by the slit constraint,” Part. Part. Syst. Charact.,14 (6), 295303.

Chang, C.C., and Hsu, C.T.(1998), “Control performance of liquid vibration absorbers,” J. Engineering Structures, 20, 580586.

Hsu, C.T., Fu, H. and Cheng, P. (1999), “On pressurevelocity correlation of steady and oscillating flows in regenerators made of wirescreens,” ASME J. Fluids Engineering, 121, 5256.

Hsu, C.T. (1999), “A closure model for transient heat conduction in porous media,” ASME J. Heat Transfer, 121, 733739.

Hsu, C.T., Lu, X.Y. and Kwan, M.K. (2000), “LES and RANS studies of oscillating flows over flat plate,” ASCE Journal of Engineering Mechanics, 126, 186193.

Hsu, C.T. (2000), “Heat Conduction in Porous Media,” Handbook of Porous Media, ed. by K. Vafai, Marcel Dekker Inc., New York, 171200.

Kuang, J.,Hsu, C.T.and Qiu, H.H. (2001), “Experiments on vertical plane jets in water of finite depth.” ASCE Journal of Engineering Mechanics, 127 (1), 19.

Hsu, C.T., Kunag, J. and Sun J.H. (2001), "Flapping instability of vertically impinging turbulent plane jets." ASCE Journal of Engineering Mechanics, 127 (5), 411420.

Chen, X.W. and Hsu, C. T.(2004), “Experimental study on turbulent jet interacting with surface standing water wave,” Advances in Water Science, 15 (2), 173177.

Hsu, C.T. (2005), “Dynamic Modeling of Convective Heat Transfer in Porous Media,” Handbook of Porous Media2ndedition, ed. by K. Vafai, Taylor & Francis, New York, 3980.

Peng, X.X. and Hsu, C.T. (2008), “Analysis and measurement of Stokes layer flows in an oscillating narrow channel”, Journal of Hydrodynamics, 20 (6), 770775.

Sun, J.H. and Hsu, C.T. (2009), “Flow visualization of submerged jets in narrow channels,” Modern Physicis Letters B, 23, 377380.

Hsu, C.T., Chiang, S.W., and Sin, K.F., (2012), "A novel dynamics quadrature scheme for solving Boltzmann equation with discrete ordinate and lattice Boltzmann methods", Communications in Computational Physics, 11, No. 4, 13971414.

Hsu, C.T., Sin, K.F. and Chiang, S.W. (2012), “Hybrid parallelism for Boltzmann equation simulation with dynamic discrete ordinate method (DDOM),” Computers and Fluids, (in press)
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