Lian-Ping Wang
Lian-Ping Wang
Professor, Dept of Mechanics and Aerospace Engineering, SUSTech, China; Dept of Mechanical
Verified email at udel.edu - Homepage
Title
Cited by
Cited by
Year
Settling velocity and concentration distribution of heavy particles in homogeneous isotropic turbulence
LP Wang, MR Maxey
Journal of Fluid Mechanics 256, 27-68, 1993
9411993
Statistical mechanical description and modelling of turbulent collision of inertial particles
LP Wang, AS Wexler, Y Zhou
Journal of Fluid Mechanics 415, 117-153, 2000
3552000
Dispersion of Heavy Particles by Turbulent Motion
LPWDE Stock
Journal of the Atmospheric Sciences 50, 1897-1913, 1993
280*1993
Growth of cloud droplets in a turbulent environment
WW Grabowski, LP Wang
Annual Review of Fluid Mechanics 45, 293-324, 2013
2682013
Effects of turbulence on the geometric collision rate of sedimenting droplets. Part 2. Theory and parameterization
O Ayala, B Rosa, LP Wang
New Journal of Physics 10 (7), 075016, 2008
213*2008
Droplet growth in warm turbulent clouds
BJ Devenish, P Bartello, JL Brenguier, LR Collins, WW Grabowski, ...
Quarterly Journal of the Royal Meteorological Society 138 (667), 1401-1429, 2012
2072012
Examination of hypotheses in the Kolmogorov refined turbulence theory through high-resolution simulations. Part 1. Velocity field
LP Wang, S Chen, JG Brasseur, JC Wyngaard
Journal of Fluid Mechanics 309, 113-156, 1996
2001996
Simulations of dispersed turbulent multiphase flow
MR Maxey, BK Patel, EJ Chang, LP Wang
Fluid Dynamics Research 20 (1-6), 143-156, 1997
1601997
Modelling turbulent collision of bidisperse inertial particles
Y Zhou, AS Wexler, LP Wang
Journal of Fluid Mechanics 433, 77-104, 2001
1522001
Effects of turbulence on the geometric collision rate of sedimenting droplets. Part 1. Results from direct numerical simulation
O Ayala, B Rosa, LP Wang, WW Grabowski
New Journal of Physics 10 (7), 075015, 2008
1502008
Effects of turbulence on the geometric collision rate of sedimenting droplets. Part 1. Results from direct numerical simulation
O Ayala, B Rosa, LP Wang, WW Grabowski
New Journal of Physics 10 (7), 075015, 2008
1502008
On the collision rate of small particles in isotropic turbulence. II. Finite inertia case
Y Zhou, AS Wexler, LP Wang
Physics of fluids 10 (5), 1206-1216, 1998
1431998
Retention and transport of silica nanoparticles in saturated porous media: effect of concentration and particle size
C Wang, AD Bobba, R Attinti, C Shen, V Lazouskaya, LP Wang, Y Jin
Environmental science & technology 46 (13), 7151-7158, 2012
1272012
Theoretical formulation of collision rate and collision efficiency of hydrodynamically interacting cloud droplets in turbulent atmosphere
LP Wang, O Ayala, SE Kasprzak, WW Grabowski
Journal of the atmospheric sciences 62 (7), 2433-2450, 2005
1142005
Statistical mechanical descriptions of turbulent coagulation
LP Wang, AS Wexler, Y Zhou
Physics of Fluids 10 (10), 2647-2651, 1998
1101998
On the collision rate of small particles in isotropic turbulence. I. Zero-inertia case
LP Wang, AS Wexler, Y Zhou
Physics of fluids 10 (1), 266-276, 1998
1091998
Lattice Boltzmann simulation of turbulent flow laden with finite-size particles
H Gao, H Li, LP Wang
Computers & Mathematics with Applications 65 (2), 194-210, 2013
1072013
Effects of subgrid-scale modeling on time correlations in large eddy simulation
GW He, R Rubinstein, LP Wang
Physics of Fluids 14 (7), 2186-2193, 2002
1022002
Growth of cloud droplets by turbulent collision-coalescence
Y Xue, LP Wang, WW Grabowski
Journal of the Atmospheric Sciences 65 (2), 331-356, 2008
892008
Turbulent collision efficiency of heavy particles relevant to cloud droplets
LP Wang, O Ayala, B Rosa, WW Grabowski
New Journal of Physics 10 (7), 075013, 2008
862008
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