HEAT AND MASS TRANSFER AND ENTROPY GENERATION INSIDE 3D TRAPEZOIDAL SOLAR DISTILLER
Walid Aicha,c, Lioua Kolsia,d,*, Abdelkarim Aydie,f, Abdullah A.A.A Al-Rashedb
, Noureddine Ait Messaoudenea
,
Mohamed Naceur Borjinid
Frontiers in Heat and Mass Transfer, Vol.9, pp. 1-9, 2017, DOI:10.5098/hmt.9.8
Abstract Numerical study of double-diffusive natural convection flow and entropy generation in 3D trapezoidal solar distiller was performed using
computational fluid dynamics (CFD). In this research the flow, provoked by the interaction of chemical species diffusions and the thermal energy, is
assumed to be laminar. Using potential vector-vorticity formulation in its three-dimensional form, the governing equations are formulated and solved
by the numerical methodology based on the finite volume method. The main objective is to analyze the effects of buoyancy ratio for opposed
temperature and concentration gradients and to focus the attention on three-dimensional aspects and More >