Abstract
•Entropy generation of natural convection in an inclined semi-annulus enclosure filled with nanofluid was established.•The addition of CuO nanoparticles to the water base fluid provides a higher Bejan number = 0.8.•The average entropy generation due to heat transfer ( ) is strengthened by increasing ϕ and Ra.•For small inclination angles ( ) and ( ) values are reduced while aspect ratio is augmented.
A numerical study has been carried out to investigate the natural convection and entropy generation for different nanofluids within an inclined half-annulus heated from above. The conservation equations in cylindrical coordinates are solved using an in-house FORTRAN code based on the finite volume method coupled with multigrid acceleration. Water-based nanofluid containing various types of nanoparticles (Au, Ag, Cu and CuO) are used to examine the fluid flow and potential heat transfer enhancement in the annulus. The effective thermal conductivity and viscosity of nanofluids are calculated using the Maxwell–Garnetts (MG) and Brinkman models, respectively. The results demonstrate clearly that the average entropy generation due to heat transfer ( ) is strengthened by increasing Φ and Ra. Furthermore, for small inclination angles γ = 0° and 45° ( ) and ( ) values are reduced as RR is augmented, whereas, their values were observed to strengthen when RR increases for large tilt angles γ = 90°, 135° and 180°. So, several important issues are highlighted that deserve greater attention.