... 18 09 2012 23 10 2012 electroosmotic flow hydrodynamic slippage microchannel flow The development of microelectromechanical systems (MEMs) has been advancing in a rapid pace owing to the versatile applications and unique merits of these systems; for instance high compactness...

... basic design data for the development of next-generation DNA sequencers. 13 04 2011 17 10 2011 23 12 2011 23 12 2011 DNA electrohydrodynamics electrokinetic effects electrophoresis flow visualisation microchannel flow microfabrication bionano fluid dynamics...

... simulation heat exchangers laminar flow laminar to turbulent transitions microchannel flow Navier-Stokes equations pipe flow micro-channels laminar continuous flow velocity distribution pressure drop transition from laminar to turbulent flow Flow through pipes and channels have been...

... we have a simplified version of the derived equation. 22 04 2011 18 09 2011 11 11 2011 11 11 2011 capillarity creeping flow electrophoresis flow simulation microchannel flow osmosis In a narrow micro-fluidic conduit, nonmechanical forces like capillary...

... velocity profiles has also been explored and compared to Newtonian fluid flows. The present model readily allows for an exploration of the impact of design choices on velocity profiles, shear stress, and channel distribution in multilayer microchannel flows as a function of layered viscosity distribution...

... approximations microchannel flow Poisson equation slip flow slip-flow microchannel analytical arbitrary cross-section fully developed MEMS Microchannels have numerous applications such as microelectronic cooling [( 1 )], MEMS [( 2 )], fuel cell technology [( 3 )], micro-reactors [( 4...

... approach greatly improves the near-wall accuracy of the Navier-Stokes-Fourier equations, well beyond the slip-flow regime. 16 12 2010 03 06 2011 05 07 2011 05 07 2011 creeping flow kinetic theory Knudsen flow microchannel flow nanofluidics Navier-Stokes equations...

... as incompressible for practical engineering applications. This paper improves and extends previous studies on slip flow in noncircular microchannels. aerodynamics compressible flow flow simulation microchannel flow Poiseuille flow slip flow subsonic flow slip flow microchannels noncircular...

... performance, and heat rejection capability. Therefore, it is critical that other portions of the system be addressed simultaneously in determining an optimal thermal solution. cooling laminar flow microchannel flow 10 12 2010 27 04 2011 07 06 2011 07 06 2011 2011...

... effect [ 9 ]. electrohydrodynamics micropumps ion drag charge injection electrode geometry boundary layers drag electrodes electrohydrodynamics flow simulation microchannel flow micropumps numerical analysis Poisson equation 19 08 2010 12 04 2011 31 05 2011...

..., interfacial properties, viscosities, and phenomena such as viscous buckling, wetting, breakup, and coalescence. buckling lubrication microchannel flow viscosity wetting The manipulation of highly viscous materials at the microscale is a key challenge for implementing lab-on-chips...

... cooling, single phase microchannel flow is one of the most attractive ones due to its compactness and high surface-to-volume ratio. Furthermore, in practice, the cross section of microchannels made by modern micromachining technology (e.g., anisotropic chemical etching) in silicon substrates...

... Microchannel Flow ,” Trans. JSME. Fluid Science and Technology , 3 ( 2 ), pp. 250 – 259 . 10.1299/jfst.3.250 Dinh , T. X. , and Ogami , Y. , 2008 , “ An Active Micromixer Enhances Mixing by a Rotating Shuttlecock Rotor ,” Proceedings of the ASME Heat Transfer, Fluids, Energy and Energy...

..., but taking gas flow rate measurements is more difficult and time consuming. flow measurement heat transfer laminar flow microchannel flow 29 03 2010 12 11 2010 22 12 2010 22 12 2010 2010 American Society of Mechanical Engineers ...

... laminar flow microchannel flow The fast growth of microfluidic systems and their applications in microelectronic cooling ( 1 ), micro electro mechanical systems (MEMS) ( 2 ), fuel cell technology ( 3 ), microreactors ( 4 ), and medical and biomedical devices ( 5 ) has motivated many researchers...

... case ( 19 20 21 ). It was found that the corrugations would promote apparent slip. Slip flow over a solid surface occurs in a wide variety of applications, especially in microchannel flow. These include rarefied gases where there is a slip regime between discrete and continuum ranges ( 1...

... microchannel flow slip flow two-phase flow viscometers viscosity microfluidics microchannel flow falling cylinder viscometer slip flow analytical solution Traditionally, many devices have been developed to measure the viscosity of fluids ( 1 ). However, most of these devices require...

... with solution for V z ( α ) : 2.42 V z ( α ) = C 5 C m n e 2 k α / ( 1 + k 2 ) P m n n H k ¯ T m n m B O m n 12 12 2009 19 05 2010 22 07 2010 22 07 2010 creeping flow microchannel...

... microchannel flow molecular dynamics method nanofluidics slip flow Flow through micro- and nanoscale structures has fundamental applications in many engineering devices, such as micro-integrated circuits, carbon nanotubes, and biosensors. In many microfluidics devices, the fluid molecules are within...

... number. micromixer overpotential numerical solution vortex strength boundary layers electrophoresis flow separation flow simulation iterative methods microchannel flow nanofluidics Navier-Stokes equations osmosis Poisson equation surface roughness vortices 23 03 2009...