Heat transfer augmentation of magnetohydrodynamics natural convection in L-shaped cavities utilizing nanofluids

Increasing nanoparticles concentration increases single- phase pressure drop compared to pure fluids at the same Reynolds number.Increasing nanoparticle concentration

A three dimensional incompressible steady model has been developed to investigate the effects of Reynolds number, aspect ratio, rarefaction, Prandtl number and

• Total entropy generation increased by augment- ing Rayleigh number, irreversibility coeffi- cient, aspect ratio or solid volume fraction while it decreased with the increase

Plain fins require a smaller flow frontal area than interrupted surfaces (i.e. offset strip fins and louvered fins) for given values of heat duty, pressure drop, and flow rate, but

This cell is more intense compared to the case of the injection mode (Fig. The corresponding isotherms are more tightened at the level of the heated vertical wall indicating a

The above literature review revealed that no study has yet to be conducted on heat transfer in mixed convection flow of ferrofluid inside a vertical channel in the presence of

vortexes tend to the lower part of enclosure and the small vortexes forming at the lower corners of enclosure are bigger and stronger. This behavior is seen at all Rayleigh

Abstract – Surface wettability is one of the mechanisms responsible for the enhancement of pool boiling heat transfer. This work investigates the effect of