Chiu On Ng scite author profile

Chiu On Ng

4Publications

194Citation Statements Received

116Citation Statements Given

How they've been cited

194

173

How they cite others

111

Affiliations

Chinese University of Hong Kong, University of Hong Kong

Publications

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Apparent slip arising from Stokes shear flow over a bidimensional patterned surface

Wang

2009

Microfluid Nanofluid

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A mathematical model is presented for the problem of apparent slip arising from Stokes shear flow over a composite surface featuring mixed boundary conditions on the microscale. The surface can be composed of a bidimensional array of solid areas placed on an otherwise no-shear surface corresponding to an envelope over the tops of posts, or no-shear areas placed on an otherwise solid surface corresponding to an envelope over

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Emulsification of Silicone Oil and Eye Movements

Chan

Knox

et al. 2011

Invest. Ophthalmol. Vis. Sci.

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Temperature Jump Coefficient for Superhydrophobic Surfaces

Wang

2014

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Mathematical models are developed for heat conduction in creeping flow of a liquid over a microstructured superhydrophobic surface, where because of hydrophobicity, a gas is trapped in the cavities of the microstructure. As gas is much lower in thermal conductivity than liquid, an interfacial temperature slip between the liquid and the surface will develop on the macroscale. In this note, the temperature jump coefficient is numerically determined for several types of superhydrophobic surfaces: a surface with parallel grooves, and surfaces with two-dimensionally distributed patches corresponding to the top of circular or square posts, and circular or square holes. These temperature jump coefficients are found to have a nearly constant ratio with the corresponding velocity slip lengths.

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Darcy–Brinkman Flow Through a Corrugated Channel

Wang

2010

Transp Porous Med

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A perturbation analysis is carried out to the second order to give effective equations for Darcy-Brinkman flow through a porous channel with slightly corrugated walls. The flow is either parallel or normal to the corrugations, and the corrugations of the two walls are either in phase or half-period out of phase. The present study is based on the assumptions that the corrugations are periodic sinusoidal waves of small amplitude, and the channel is filled with a sparse porous medium so that the flow can be described by the Darcy-Brinkman model, which approaches the Darcian or Stokes flow limits for small or large permeability of the medium. The Reynolds number is also assumed to be so low that the nonlinear inertia can be ignored. The effects of the corrugations on the flow are examined, quantitatively and qualitatively, as functions of the flow direction, the phase difference, and the wavelength of the corrugations, as well as the permeability of the channel. It is found that the corrugations will have greater effects when it is nearer the Stokes' flow limit than the Darcian flow limit, and when the wavelength is shorter. For the same wavelength and phase difference, cross flow is more affected than longitudinal flow by the corrugations. Opposite effects can result from 180 • out-of-phase corrugations, depending on the flow direction, the wavelength, as well as the permeability.

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Chiu On Ng

Apparent slip arising from Stokes shear flow over a bidimensional patterned surface

Emulsification of Silicone Oil and Eye Movements

Temperature Jump Coefficient for Superhydrophobic Surfaces

Darcy–Brinkman Flow Through a Corrugated Channel

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