A numerical hydrodynamic study of the influence of prolate and prolate 45-degrees ellipsoids on laminar flow
A numerical hydrodynamic study of the influence of prolate and prolate 45-degrees ellipsoids on laminar flow
This paper examines the impact of two tandem configurations of ellipsoids on laminar flow using numerical methods. The first configuration features an ellipsoid in a prolate orientation, while the other employs a prolate ellipsoid tilted at a 45° angle relative to the vertical axis. The study investigates inter-ellipsoid distances ranging from one ellipsoid diameter (1D) to eight diameters (8D) from the ellipsoids' centers and different Reynolds numbers (100, 200, 300, and 400). The presented results focus on hydrodynamic forces, wake symmetry, and wake patterns for different scenarios. The findings reveal that when an angle is present in the ellipsoid, the drag forces between the front and rear ellipsoids tend to approach at smaller separations compared to the prolate orientation case. In these cases, flow separation is asymmetric in the x–y plane but becomes symmetric in the x–z plane at larger ellipsoid spacings. Additionally, the detachment zones are analyzed concerning the angle and Reynolds number. It is observed that up to a distance of approximately 4D, the wake of the front ellipsoid significantly influences the recirculation and hydrodynamics of the rear ellipsoid.
tandem configurations, inter-ellipsoid
Diaz-Ojeda, H.R.
6990e39d-cb55-4dbe-b943-2d728e74a0a7
Zhang, Yifu
201620b2-8af6-4747-8f3a-923c92fea4f1
Turnock, Stephen
d6442f5c-d9af-4fdb-8406-7c79a92b26ce
Perez-Santiago, Julio
f949a54e-37d9-4bb2-8998-93cbad4a80f7
Diaz-Ojeda, H.R.
6990e39d-cb55-4dbe-b943-2d728e74a0a7
Zhang, Yifu
201620b2-8af6-4747-8f3a-923c92fea4f1
Turnock, Stephen
d6442f5c-d9af-4fdb-8406-7c79a92b26ce
Perez-Santiago, Julio
f949a54e-37d9-4bb2-8998-93cbad4a80f7
Diaz-Ojeda, H.R., Zhang, Yifu, Turnock, Stephen and Perez-Santiago, Julio
(2024)
A numerical hydrodynamic study of the influence of prolate and prolate 45-degrees ellipsoids on laminar flow.
Physics of Fluids, 36, [093607].
(doi:10.1063/5.0228807).
Abstract
This paper examines the impact of two tandem configurations of ellipsoids on laminar flow using numerical methods. The first configuration features an ellipsoid in a prolate orientation, while the other employs a prolate ellipsoid tilted at a 45° angle relative to the vertical axis. The study investigates inter-ellipsoid distances ranging from one ellipsoid diameter (1D) to eight diameters (8D) from the ellipsoids' centers and different Reynolds numbers (100, 200, 300, and 400). The presented results focus on hydrodynamic forces, wake symmetry, and wake patterns for different scenarios. The findings reveal that when an angle is present in the ellipsoid, the drag forces between the front and rear ellipsoids tend to approach at smaller separations compared to the prolate orientation case. In these cases, flow separation is asymmetric in the x–y plane but becomes symmetric in the x–z plane at larger ellipsoid spacings. Additionally, the detachment zones are analyzed concerning the angle and Reynolds number. It is observed that up to a distance of approximately 4D, the wake of the front ellipsoid significantly influences the recirculation and hydrodynamics of the rear ellipsoid.
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Paper1
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Accepted/In Press date: 22 August 2024
e-pub ahead of print date: 13 September 2024
Keywords:
tandem configurations, inter-ellipsoid
Identifiers
Local EPrints ID: 494857
URI: http://eprints.soton.ac.uk/id/eprint/494857
ISSN: 1070-6631
PURE UUID: ae2cb2a2-ef8a-4aea-9f06-8a6d1b96b83d
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Date deposited: 18 Oct 2024 16:30
Last modified: 19 Oct 2024 02:09
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Contributors
Author:
H.R. Diaz-Ojeda
Author:
Yifu Zhang
Author:
Julio Perez-Santiago
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