Add to ORKGA parametric numerical investigation is performed of the natural convection and heat transfer in an enclosure with opposing wavy walls, layered by a porous medium, saturated by a hybrid nanofluid, at different inclination angles. The Galerkin finite element method is used to obtain steady-state solutions of the heat and mass convection laws by application of the semi-implicit method for pressure linked equations algorithm. The Darcy-Brinkman model is used for representing the state variables change in the porous layer. The influence of six parameters on the flow and heat transfer rate is described. These are the inclination angle, varied from 0 to 90 degrees, the Rayleigh number (10,000 ≤ ≤ 10M), the Darcy number (0.00005 ≤ ≤ 0.01,), the ...
By employing the finite element method, thermophoresis and Brownian diffusion are studied numeri-cal...
In this study, conjugate natural convection-conduction heat transfer in an inclined partitioned cavi...
A numerical investigation of buoyancy-driven flow in a two-dimensional square enclosure filled with ...
Buoyancy-driven flow inside a superposed enclosure filled with composite porous-hybrid nanofluid lay...
This article presents the results of a numerical study on natural convection heat transfer in an inc...
Abstract The present work introduces the use of E-shaped enclosure for heat transfer applications. N...
Heat transfer enhancement utilizing nanofluids in a trapezoidal enclosure is investigated for variou...
AbstractThis paper analyzes heat transfer and fluid flow of natural convection in inclined cavity fi...
In this study steady-state natural convection for Al2O3 and CuO nanofluids inside different enclosur...
AbstractThis paper discusses the natural convection heat transfer in an inclined triangular enclosur...
Flow and heat transfer dynamics are considered quite complex phenomenon in different enclosures. Hea...
In this article, mixed convection fl ow in a two-sided lid-driven cavity at diff erent inclination a...
With the porous medium-filling inclined channels, we investigate the nanoparticle sphericity of Cu-A...
Numerical simulations are undertaken to investigate the flow of fluids and heat transfer through a n...
Numerical simulation analyzes the mixed convection flow of $$\hbox {Al}_{2}\hbox {O}_{3}{-}\hbox {Cu...
By employing the finite element method, thermophoresis and Brownian diffusion are studied numeri-cal...
In this study, conjugate natural convection-conduction heat transfer in an inclined partitioned cavi...
A numerical investigation of buoyancy-driven flow in a two-dimensional square enclosure filled with ...
Buoyancy-driven flow inside a superposed enclosure filled with composite porous-hybrid nanofluid lay...
This article presents the results of a numerical study on natural convection heat transfer in an inc...
Abstract The present work introduces the use of E-shaped enclosure for heat transfer applications. N...
Heat transfer enhancement utilizing nanofluids in a trapezoidal enclosure is investigated for variou...
AbstractThis paper analyzes heat transfer and fluid flow of natural convection in inclined cavity fi...
In this study steady-state natural convection for Al2O3 and CuO nanofluids inside different enclosur...
AbstractThis paper discusses the natural convection heat transfer in an inclined triangular enclosur...
Flow and heat transfer dynamics are considered quite complex phenomenon in different enclosures. Hea...
In this article, mixed convection fl ow in a two-sided lid-driven cavity at diff erent inclination a...
With the porous medium-filling inclined channels, we investigate the nanoparticle sphericity of Cu-A...
Numerical simulations are undertaken to investigate the flow of fluids and heat transfer through a n...
Numerical simulation analyzes the mixed convection flow of $$\hbox {Al}_{2}\hbox {O}_{3}{-}\hbox {Cu...
By employing the finite element method, thermophoresis and Brownian diffusion are studied numeri-cal...
In this study, conjugate natural convection-conduction heat transfer in an inclined partitioned cavi...
A numerical investigation of buoyancy-driven flow in a two-dimensional square enclosure filled with ...