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Computational analysis of cross‐flow of power‐law fluids through a periodic square array of circular cylinders.

Authors :
Bharti, Ram Prakash
Ram, Ram Pravesh
Dhiman, Amit Kumar
Source :
Asia-Pacific Journal of Chemical Engineering. Mar2022, Vol. 17 Issue 2, p1-25. 25p.
Publication Year :
2022

Abstract

The steady flow of non‐Newtonian power‐law fluids across a periodic square array of infinitely long circular cylinders is studied numerically using an unstructured finite volume method. The local and global flow characteristics have extensively been explored by the systematic variations of the pertinent dimensionless parameters as follows: fluid volume fraction (ϕf =.70–.99), Reynolds number (Re = 1–40), and power‐law index (n =.4–1.8). Qualitatively, the dense and curved streamlines are seen with the increasing inertial forces and shear‐thinning behavior across all the fluid volume fractions. Further, the pressure coefficient over the surface of periodic cylinders is significantly influenced by the governing parameters and found to be maximum and minimum for the upstream and downstream cylinders, respectively. The individual and total drag coefficients have shown complex dependence on n, ϕf, and Re. For shear‐thinning fluids (n < 1), the pressure drag coefficient dominates over the friction drag coefficient, whereas an opposite response is seen for the shear‐thickening fluids (n > 1) except at Re = 40. Further, both individual and total drag coefficients are observed to increase and decrease in the ranges of ϕf of.70–.90 and.92–.99, respectively, with increasing n. The strong interactions between the periodic cylinders, at smaller ϕf, diminish with a corresponding increase in ϕf. In addition, simple predictive correlations for the pressure, friction, and total drag coefficients have been developed to gain further physical insights into the detailed flow kinematics. Finally, the present findings display a good agreement with the available literature. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
19322135
Volume :
17
Issue :
2
Database :
Academic Search Index
Journal :
Asia-Pacific Journal of Chemical Engineering
Publication Type :
Academic Journal
Accession number :
156195377
Full Text :
https://doi.org/10.1002/apj.2748