1. Numerical study of the chaotic flow in three-dimensional open geometry and its effect on the both fluid mixing and heat performances.
- Author
-
Boukhalkhal, Ahmed L., Lasbet, Yahia, Makhlouf, Mohammed, and Loubar, Khaled
- Subjects
- *
COMPUTATIONAL fluid dynamics , *COMPUTATIONAL physics , *NUSSELT number , *REYNOLDS number , *GEOMETRY - Abstract
In this study, we investigate the chaotic behavior of fluid particles in three-dimensional open geometries and their effects on the amelioration of miscible fluids mixing, thermal homogenization and thermal performances by using a computational fluid dynamics (CFD) method. Three geometry configurations (straight channel, serpentine-2D channel and chaotic geometry channel serpentine-3D) are considered. The dispersion phenomena are characterized through the presentation of the Poincare sections and the mixing quality is quantified by calculating the mixing degree in cross section for several Reynolds numbers ranging from 5 to 200. This study reveals that height capacities in terms of mixing and heat performances are obtained by the chaotic geometry where the level mixing is superior to 0.95 for Reynolds equal to 200. In addition, the heat transfer in the S-3D is highly improved where the mean Nusselt number is 13 times bigger than that calculated in the straight channel. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF