Numerical Investigation of the Double Diffusive Convection in 3D Trapezoidal Solar Still Equipped with Conductive Fins

Numerical Investigation of the Double Diffusive Convection in 3D Trapezoidal Solar Still Equipped with Conductive Fins

In this paper a numerical investigation on the double diffusive natural convection in a finned solar still is performed using the finite volume method. The 3D vector potential-vorticity formalism is used to eliminate the gradient pressure terms and due to the complex shape of the cavity the blocked-...

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Bibliographic Details
Main Authors: Lioua Kolsi, Kaouther Ghachem, Samia Larguech, Ghada AlNemer
Format: Article
Language:English
Published: MDPI AG 2022-06-01
Series:Mathematics
Subjects:
3D double diffusion
partial differential equations
finite volume method
vector potential-vorticity formalism
blocked-of-region method
conductive fins
Online Access:https://www.mdpi.com/2227-7390/10/12/2115
Description
Summary:In this paper a numerical investigation on the double diffusive natural convection in a finned solar still is performed using the finite volume method. The 3D vector potential-vorticity formalism is used to eliminate the gradient pressure terms and due to the complex shape of the cavity the blocked-off-region method is adopted. After getting the dimensionless governing equations, they are written in a generalised form then discretised. The effects of the buoyancy ratio, conductivity ratio and Rayleigh number of the flow structure, temperature field and heat and mass transfer are studied. The results show that the increase of conductivity ratio and Rayleigh number leads to an enhancement of the heat and mass transfer.
ISSN:2227-7390

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