Grant: A homogenization-based model for roughness-induced apparent slip

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Project Title
A homogenization-based model for roughness-induced apparent slip
 
Principal Investigator Ng, Chiu On (Principal investigator)
Co-Investigator(s) Professor Wang Chang Yi (Co-Investigator)
Project Code
HKU 715609E
 
Funding Year
2009/2010
 
Amount
668128
 
Panel Engineering (E)
Start Date
01-01-2010
 
Expected Completion
30-06-2013
 
Status
On-going
 
Keywords Stokes flow, Apparent slip, Surface micro-patterns, Homogenization method, Multiple-scale modeling
Discipline Fluid, Mechanics and Dynamics
Sponsor RGC General Research Fund (GRF)
Grant Type/Funding Scheme General Research Fund (GRF)
Duration
42
 
Publication Lagrangian transport induced by peristaltic pumping in a tube
Publication Wave induced oscillatory and steady flows in the annulus of a catheterized viscoelastic tube
Publication Stokes flow through a periodically grooved tube
Publication On the effects of liquid-gas interfacial shear on slip flow through a parallel-plate channel with superhydrophobic grooved walls
Publication Electrohydrodynamic dispersion of deformable aerosols in the presence of an electric field and chemical reaction using taylor dispersion model
Publication Darcy-Brinkman Flow Through a Corrugated Channel
Publication How does wall slippage affect hydrodynamic dispersion?
Publication Slip flow due to a stretching cylinder
Publication Oscillatory flow through a channel with stick-slip walls: Complex Navier's slip length
Publication Mass transport due to oscillatory flow through a prestressed viscoelastic tube with a retentive and absorptive wall
Publication Electrokinetic flows through a parallel-plate channel with slipping stripes on walls
Publication Effective slip for Stokes flow over a surface patterned with two- or three-dimensional protrusions
Publication Ferromagnetic Convection in a Heterogeneous Darcy Porous Medium Using a Local Thermal Non-equilibrium (LTNE) Model
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