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guiquan wang
guiquan wang
Life and Science department, IMEC
Adresse e-mail validée de imec.be
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Two mechanisms of modulation of very-large-scale motions by inertial particles in open channel flow
G Wang, D Richter
Journal of Fluid Mechanics 868, 538-559, 2019
642019
Inertial particle velocity and distribution in vertical turbulent channel flow: a numerical and experimental comparison
G Wang, KO Fong, F Coletti, J Capecelatro, DH Richter
International Journal of Multiphase Flow 120, 103105, 2019
582019
Modulation of large-scale structures by neutrally buoyant and inertial finite-size particles in turbulent Couette flow
G Wang, M Abbas, É Climent
Physical Review Fluids 2 (8), 084302, 2017
452017
Mechanisms governing the settling velocities and spatial distributions of inertial particles in wall-bounded turbulence
AD Bragg, DH Richter, G Wang
Physical Review Fluids 6 (6), 064302, 2021
332021
Modulation of the turbulence regeneration cycle by inertial particles in planar Couette flow
G Wang, DH Richter
Journal of Fluid Mechanics 861, 901-929, 2019
322019
Contributions of different scales of turbulent motions to the mean wall-shear stress in open channel flows at low-to-moderate Reynolds numbers
Y Duan, Q Zhong, G Wang, P Zhang, D Li
Journal of Fluid Mechanics 918, A40, 2021
292021
Modulation of the regeneration cycle by neutrally buoyant finite-size particles
G Wang, M Abbas, E Climent
Journal of Fluid Mechanics 852, 257-282, 2018
182018
Transport of finite-size particles in a turbulent Couette flow: the effect of particle shape and inertia
G Wang, M Abbas, Z Yu, A Pedrono, E Climent
International Journal of Multiphase Flow 107, 168-181, 2018
162018
Multiscale interaction of inertial particles with turbulent motions in open channel flow
G Wang, D Richter
Physical Review Fluids 5 (4), 044307, 2020
152020
Settling strongly modifies particle concentrations in wall-bounded turbulent flows even when the settling parameter is asymptotically small
AD Bragg, DH Richter, G Wang
Physical Review Fluids 6 (12), 124301, 2021
122021
Diffusion-Free Scaling in Rotating Spherical Rayleigh-Bénard Convection
G Wang, L Santelli, D Lohse, R Verzicco, R Stevens
Geophysical Research Letters 48 (20), 9, 2021
122021
Effect of computational domain size on inertial particle one-point statistics in open channel flow
G Wang, HJ Park, DH Richter
International Journal of Multiphase Flow 125, 103195, 2020
112020
Parameter on Waste Incinerator Fly Ash Vitrification (in Chinese)
J Zhang, Y Li, G Wang, J Deng, Y Xu, H Sheng
燃烧科学与技术 18 (002), 186-191, 2012
8*2012
Predicting vertical concentration profiles in the marine atmospheric boundary layer with a Markov chain random walk model
HJ Park, T Sherman, LS Freire, G Wang, D Bolster, P Xian, A Sorooshian, ...
Journal of Geophysical Research: Atmospheres 125 (19), e2020JD032731, 2020
62020
Vitreous material formation mechanism and heavy metal fixation efficiency (in Chinese)
J Zhang, Y Li, G Wang, J Deng, Y Xu, H Sheng
化工学报 62 (s1), 215-218, 2011
6*2011
Off-centre gravity induces large-scale flow patterns in spherical Rayleigh–Bénard convection
G Wang, L Santelli, R Verzicco, D Lohse, RJAM Stevens
Journal of Fluid Mechanics 942, A21, 2022
42022
Experimental study on dechlorination of calcium oxide in the presence of water vapor (in Chinese)
R Wang, G Wang, J Tian, J Zhang, Y Xu, H Sheng
工程热物理学报 31 (03), 519-522, 2010
4*2010
Asymptotic closure model for inertial particle transport in turbulent boundary layers
Y Zhang, AD Bragg, G Wang
Physical Review Fluids 8 (1), 014301, 2023
32023
Additional spanwise vortices near the free surface in open channel flows
Y Duan, Q Zhong, G Wang, Q Chen, F Wang, D Li
Journal of Fluid Mechanics 924, R3, 2021
32021
When is settling important for particle concentrations in wall-bounded turbulent flows?
AD Bragg, DH Richter, G Wang
arXiv preprint arXiv:2101.04607, 2021
32021
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