Computational fluid dynamic evaluation of heat transfer enhancement in microchannel solar collectors sustained by alumina nanofluid

Abstract: Nanofluids have produced a wide range of researches for various cooling/heating purposes, owing to the enhanced thermophysical properties they bring by suspending nanoparticles in the base fluid. This work proposes a detailed computational fluid dynamic (CFD) study of heat transfer enhancement in microchannel solar collectors coupled with nanofluid. The accuracy of the numerical model is ensured through a reliable finite element analysis considering the complexity of the three‐dimensional structure of microcha… Show more

“…In figures 4(b) and 5, the temperature of the fluid at the end of the channel is higher than the temperature of the solar cell at that moment. In the same way, as Ahadi et al demonstrated, the accumulation of energy leads locally to a significant increase in the temperature being maximum [35].…”

Analysis of temperature distribution in PV-integrated electrochemical flow cells

“…In figures 4(b) and 5, the temperature of the fluid at the end of the channel is higher than the temperature of the solar cell at that moment. In the same way, as Ahadi et al demonstrated, the accumulation of energy leads locally to a significant increase in the temperature being maximum [35].…”

Analysis of temperature distribution in PV-integrated electrochemical flow cells

Unsteady mixed convection of a radiating and reacting nanofluid with variable properties in a porous medium microchannel

Unsteady mixed convection flow of variable viscosity nanofluid in a micro-channel filled with a porous medium