Pages that link to "Item:Q955784"

The following pages link to Semi-analytical solution of the extended Graetz problem for combined electroosmotically and pressure-driven microchannel flows with step-change in wall temperature (Q955784):

Displaying 14 items.

• Electro-kinetically driven peristaltic transport of viscoelastic physiological fluids through a finite length capillary: mathematical modeling (Q730305) (← links)
• An analytical solution for thermally fully developed combined pressure--electroosmotically driven flow in microchannels (Q870937) (← links)
• Theoretical study of conjugate heat transfer effects on temperature profiles in parallel flow with embedded heat sources (Q974888) (← links)
• Extended Graetz problem including streamwise conduction and viscous dissipation in microchannel (Q981369) (← links)
• Steady-state Green's function solution for moving media with axial conduction (Q985151) (← links)
• Viscous dissipation effects on thermal transport characteristics of combined pressure and electroosmotically driven flow in microchannels (Q992996) (← links)
• Electro-osmotic flow of power-law fluid and heat transfer in a micro-channel with effects of Joule heating and thermal radiation (Q1619948) (← links)
• Analytical solution of the transient electro-osmotic flow of a generalized fractional Maxwell fluid in a straight pipe with a circular cross-section (Q1670944) (← links)
• Electroosmotic flow and heat transfer in a heterogeneous circular microchannel (Q2049841) (← links)
• Pseudo spectral solution of extended Graetz problem for combined pressure-driven and electroosmotic flow in a triangular micro-duct (Q2194818) (← links)
• Micro-scale thermo-fluidic transport in two immiscible liquid layers subject to combined electroosmotic and pressure-driven transport (Q2270915) (← links)
• Thermal characteristics of mixed electroosmotic and pressure-driven microflows (Q2458542) (← links)
• Investigation of variable-property microchannel flows with electro-thermo-hydrodynamic interactions at constant pressure gradient or constant flow rate (Q2470734) (← links)
• Investigating simultaneous effects of temperature, surface heterogeneity and geometry on fluid mixing in electroosmotic flow considering temperature dependent properties by Nernst-Planck Poisson method (Q2698404) (← links)