Nabil Esmail scite author profile

In the present study, the transient performance of the viscous micropump will be investigated numerically. The viscous micropump's operation depends mainly on viscous forces and can operate in any situation where viscous forces are dominant. All the micropump calculations are reported in nondimensional quantities, which allows for the prediction of the micropump performance, regardless of the dimensions or the fluid that is used. The effect of the microchannel height, rotor eccentricity, Reynolds number, and pump load on the transient performance of the viscous micropump has been studied in detail. The steady state performance was compared with the available experimental data and was found to be in a very good agreement. The rotor eccentricity was determined to be the parameter that affected the transient performance of the micropump the most significantly. This work provides a foundation for future research on the subject of fluid phenomena in viscous micropumps.

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The effects of outlet boundary conditions on simulating supersonic microchannel flows using DSMC

Hassan

Esmail

2007

Applied Thermal Engineering

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Shear driven droplet shedding and coalescence on a superhydrophobic surface

Moghtadernejad

Tembely

Jadidi

et al. 2015

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Turbulence and skin friction modification in channel flow with streamwise-aligned superhydrophobic surface texture Phys. Fluids 26, 095102 (2014); 10.1063/1.4894064 Numerical exploration of the origin of aerodynamic enhancements in [low-Reynolds number] corrugated airfoils A mechanism for unsteady separation in over-expanded nozzle flowThe interest on shedding and coalescence of sessile droplets arises from the importance of these phenomena in various scientific problems and industrial applications such as ice formation on wind turbine blades, power lines, nacelles, and aircraft wings. It is shown recently that one of the ways to reduce the probability of ice accretion on industrial components is using superhydrophobic coatings due to their low adhesion to water droplets. In this study, a combined experimental and numerical approach is used to investigate droplet shedding and coalescence phenomena under the influence of air shear flow on a superhydrophobic surface. Droplets with a size of 2 mm are subjected to various air speeds ranging from 5 to 90 m/s. A numerical simulation based on the Volume of Fluid method coupled with the Large Eddy Simulation turbulent model is carried out in conjunction with the validating experiments to shed more light on the coalescence of droplets and detachment phenomena through a detailed analysis of the aerodynamics forces and velocity vectors on the droplet and the streamlines around it. The results indicate a contrast in the mechanism of two-droplet coalescence and subsequent detachment with those related to the case of a single droplet shedding. At lower speeds, the two droplets coalesce by attracting each other with successive rebounds of the merged droplet on the substrate, while at higher speeds, the detachment occurs almost instantly after coalescence, with a detachment time decreasing exponentially with the air speed. It is shown that coalescence phenomenon assists droplet detachment from the superhydrophobic substrate at lower air speeds. C 2015 AIP Publishing LLC.

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Nabil Esmail

Heavy crude oil viscosity reduction and rheology for pipeline transportation

Rheological properties of heavy & light crude oil mixtures for improving flowability

Transient Behavior of the Viscous Micropump

The effects of outlet boundary conditions on simulating supersonic microchannel flows using DSMC

Shear driven droplet shedding and coalescence on a superhydrophobic surface

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