Wave interaction with a concentric porous cylinder system KH Wang, X Ren Ocean Engineering 21 (4), 343-360, 1994 | 127 | 1994 |
Water wave interaction with a floating porous cylinder AN Williams, W Li, KH Wang Ocean Engineering 27 (1), 1-28, 2000 | 120 | 2000 |
Comparative case study of rainfall-runoff modeling between SWMM and fuzzy logic approach KH Wang, A Altunkaynak Journal of Hydrologic Engineering 17 (2), 283-291, 2012 | 109 | 2012 |
Wave interaction with semiporous cylindrical breakwater MKM Darwiche, AN Williams, KH Wang Journal of waterway, port, coastal, and ocean engineering 120 (4), 382-403, 1994 | 103 | 1994 |
Water waves on flexible and porous breakwaters KH Wang, X Ren Journal of Engineering Mechanics 119 (5), 1025-1047, 1993 | 102 | 1993 |
Three-dimensional scattering of solitary waves by vertical cylinder KH Wang, TY Wu, GT Yates Journal of waterway, port, coastal, and ocean engineering 118 (5), 551-566, 1992 | 80 | 1992 |
Wave motion over a group of submerged horizontal plates KH Wang, Q Shen International Journal of Engineering Science 37 (6), 703-715, 1999 | 70 | 1999 |
Solitary wave interaction with a concentric porous cylinder system Z Zhong, KH Wang Ocean Engineering 33 (7), 927-949, 2006 | 62 | 2006 |
Numerical investigation on the effect of the cross-sectional aspect ratio of a rectangular cylinder in FIM on hydrokinetic energy conversion B Zhang, KH Wang, B Song, Z Mao, W Tian Energy 165, 949-964, 2018 | 58 | 2018 |
Wave motion over a breakwater system of a horizontal plate and a vertical porous wall H Hu, KH Wang, AN Williams Ocean Engineering 29 (4), 373-386, 2002 | 52 | 2002 |
An effective wave-trapping system KH Wang, X Ren Ocean engineering 21 (2), 155-178, 1994 | 46 | 1994 |
Diffraction of solitary waves by breakwaters KH Wang Journal of waterway, port, coastal, and ocean engineering 119 (1), 49-69, 1993 | 38 | 1993 |
Flexible porous wave barrier for enhanced wetlands habitat restoration AN Williams, KH Wang Journal of engineering mechanics 129 (1), 1-8, 2003 | 36 | 2003 |
Modeling a solitary wave interaction with a fixed floating body using an integrated analytical–numerical approach X Lu, KH Wang Ocean Engineering 109, 691-704, 2015 | 35 | 2015 |
Environmental fluid mechanics: theories and applications HH Shen, AHD Cheng, KH Wang, MH Teng, CCK Liu ASCE Publications, 2002 | 35 | 2002 |
Estimation of significant wave height in shallow lakes using the expert system techniques A Altunkaynak, KH Wang Expert Systems with Applications 39 (3), 2549-2559, 2012 | 31 | 2012 |
Modeling propagation of pressure surges with the formation of an air pocket in pipelines KH Wang, Q Shen, B Zhang Computers & fluids 32 (9), 1179-1194, 2003 | 31 | 2003 |
WIND GENERATED WAVES IN LAKE OKEECHOBEE1 KR Jin, KH Wang JAWRA Journal of the American Water Resources Association 34 (5), 1099-1108, 1998 | 30 | 1998 |
Modeling dam-break flows in channels with 90 degree bend using an alternating-direction implicit based curvilinear hydrodynamic solver A Wood, KH Wang Computers & Fluids 114, 254-264, 2015 | 29 | 2015 |
Theory and model implementation for analyzing line structures subject to dynamic motions of large deformation and elongation using the absolute nodal coordinate formulation … F Sheng, Z Zhong, KH Wang Nonlinear Dynamics 101, 333-359, 2020 | 25 | 2020 |