Kumar, A and Ray, RK (2020) Theoretical understanding of unsteady flow separation for shear flow past three square cylinders in vee shape using structural bifurcation analysis. In: Computational and Applied Mathematics, 39 (3).
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Abstract
The unsteady flow separation of two-dimensional (2-D) incompressible shear flow past three identical square cylinders arranged in vee shape is studied in this paper, using theoretical structural bifurcation analysis based on topological equivalence. Through this analysis, the exact location and time of occurrence of bifurcation points (flow separation points) associated with secondary and tertiary vortices on all cylinders are studied. The existence of saddle points is also studied during primary flow separation. Different gap ratios between the downstream cylinders, s/d = 0.6�3.0 (where s is the gap between cylinders, d is the length of cylinder side) with fixed gap 2d between upstream and downstream cylinders for different shear parameter (K) values ranging from K= 0.0 to 0.4 are considered at Reynolds number (Re) 100. In this process, the instantaneous vorticity contours and streakline patterns, center-line velocity fluctuation, phase diagram, lift and drag coefficients are studied to confirm the theoretical results. Computations are carried out by using higher order compact finite difference scheme. Present study mainly investigates the effect of K and gap ratio on unsteady flow separation and vortex-shedding phenomenon. All the computed results very efficiently and very accurately reproduce the complex flow phenomenon. Through this study, many noticeable and interesting results are reported for the first time for this problem. © 2020, SBMAC - Sociedade Brasileira de Matemática Aplicada e Computacional.
| Item Type: | Journal Article |
|---|---|
| Publication: | Computational and Applied Mathematics |
| Publisher: | Springer |
| Additional Information: | Copy right for this article belongs to Springer |
| Keywords: | Unsteady shear flow · Square cylinders in vee shape · Vortex shedding · Flow separation · HOC scheme · Structural bifurcation |
| Department/Centre: | Division of Interdisciplinary Sciences > Computational and Data Sciences |
| Date Deposited: | 11 Nov 2020 10:43 |
| Last Modified: | 11 Nov 2020 10:43 |
| URI: | http://eprints.iisc.ac.in/id/eprint/65699 |
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