Large-eddy simulation of the effect of distributed plasma forcing on the wake of a circular cylinder

•LES of flow control of circular cylinder.•Segmented forcing with DBD plasma actuators.•Two blowing ratios were implemented, 0.2 and 0.7.•In the low blowing ratio vortex shedding was not canceled although waviness developed in the wake, direct wake control.•In the high blowing ratio case, vortex she...

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Published in	Computers & fluids Vol. 193; p. 104295
Main Authors	Joshi, Kamlesh, Bhattacharya, Samik
Format	Journal Article
Language	English
Published	Amsterdam Elsevier Ltd 30.10.2019 Elsevier BV
Subjects	Actuators Blowing Circular cylinders Computer simulation Cylinder wake Diameters Flow control Fluid flow Large eddy simulation LES Periodic variations Plasma actuators Reynolds number Separation Simulation Velocity distribution Vortex shedding Vortices Waviness Flow control Plasma actuators LES Cylinder wake
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Abstract	•LES of flow control of circular cylinder.•Segmented forcing with DBD plasma actuators.•Two blowing ratios were implemented, 0.2 and 0.7.•In the low blowing ratio vortex shedding was not canceled although waviness developed in the wake, direct wake control.•In the high blowing ratio case, vortex shedding was canceled in front of the plasma region, separation control. We conducted large-eddy simulation (LES) to investigate the effect of segmented plasma forcing on the wake of a circular cylinder, at a subcritical Reynolds number of 4700. The action of the plasma actuators was simulated by a body-force model developed by Shyy et al. [1]. The main objective of this study was to investigate the changes in the three-dimensionality of the wake, and the nature of separation on the cylinder surface, with the increasing power of segmented forcing. By observing the three-dimensional (3D) structures, and the separating streamlines close to the cylinder surface, we aim to provide more insight on the experimental findings of Bhattacharya and Gregory [2], which contained only two-dimensional (2D) velocity field data. To that end, we used segmented actuators with a spatial wavelength of 5d (d= cylinder diameter), and two separate blowing ratios of 0.2 and 0.7. At the lower blowing ratio (BR=0.2), spanwise vortex shedding was not canceled, although waviness developed in the spanwise vortices. However, there was no considerable difference in the separation angles between two adjacent spanwise locations. Forcing with higher blowing ratio (BR=0.7) completely disrupted the vortex shedding infront of the plasma region. The separation line on the surface of the cylinder developed significant periodicity leading to a spanwise variation of formation length. We show that such spanwise variation created spatially locked streamwise vortices which disrupted regular vortex shedding.
AbstractList	•LES of flow control of circular cylinder.•Segmented forcing with DBD plasma actuators.•Two blowing ratios were implemented, 0.2 and 0.7.•In the low blowing ratio vortex shedding was not canceled although waviness developed in the wake, direct wake control.•In the high blowing ratio case, vortex shedding was canceled in front of the plasma region, separation control. We conducted large-eddy simulation (LES) to investigate the effect of segmented plasma forcing on the wake of a circular cylinder, at a subcritical Reynolds number of 4700. The action of the plasma actuators was simulated by a body-force model developed by Shyy et al. [1]. The main objective of this study was to investigate the changes in the three-dimensionality of the wake, and the nature of separation on the cylinder surface, with the increasing power of segmented forcing. By observing the three-dimensional (3D) structures, and the separating streamlines close to the cylinder surface, we aim to provide more insight on the experimental findings of Bhattacharya and Gregory [2], which contained only two-dimensional (2D) velocity field data. To that end, we used segmented actuators with a spatial wavelength of 5d (d= cylinder diameter), and two separate blowing ratios of 0.2 and 0.7. At the lower blowing ratio (BR=0.2), spanwise vortex shedding was not canceled, although waviness developed in the spanwise vortices. However, there was no considerable difference in the separation angles between two adjacent spanwise locations. Forcing with higher blowing ratio (BR=0.7) completely disrupted the vortex shedding infront of the plasma region. The separation line on the surface of the cylinder developed significant periodicity leading to a spanwise variation of formation length. We show that such spanwise variation created spatially locked streamwise vortices which disrupted regular vortex shedding. We conducted large-eddy simulation (LES) to investigate the effect of segmented plasma forcing on the wake of a circular cylinder, at a subcritical Reynolds number of 4700. The action of the plasma actuators was simulated by a body-force model developed by Shyy et al. [1]. The main objective of this study was to investigate the changes in the three-dimensionality of the wake, and the nature of separation on the cylinder surface, with the increasing power of segmented forcing. By observing the three-dimensional (3D) structures, and the separating streamlines close to the cylinder surface, we aim to provide more insight on the experimental findings of Bhattacharya and Gregory [2], which contained only two-dimensional (2D) velocity field data. To that end, we used segmented actuators with a spatial wavelength of 5d (d= cylinder diameter), and two separate blowing ratios of 0.2 and 0.7. At the lower blowing ratio (BR=0.2), spanwise vortex shedding was not canceled, although waviness developed in the spanwise vortices. However, there was no considerable difference in the separation angles between two adjacent spanwise locations. Forcing with higher blowing ratio (BR=0.7) completely disrupted the vortex shedding infront of the plasma region. The separation line on the surface of the cylinder developed significant periodicity leading to a spanwise variation of formation length. We show that such spanwise variation created spatially locked streamwise vortices which disrupted regular vortex shedding.
ArticleNumber	104295
Author	Joshi, Kamlesh Bhattacharya, Samik
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Cites_doi	10.1017/S0022112096003631 10.1017/S0022112067002368 10.1063/1.1515103 10.2514/1.15155 10.1016/S0142-727X(98)10015-2 10.1063/1.4999091 10.1023/A:1009995426001 10.1063/1.1850151 10.1146/annurev.fl.28.010196.002401 10.1017/S0022112000002299 10.1063/1.4914406 10.1115/1.2903816 10.1063/1.3194307 10.1017/S0022112008000177 10.1016/S0167-6105(02)00232-5 10.2514/8.3286 10.1007/BF00189383 10.1063/1.870318 10.1063/1.4905536 10.1006/jfls.1997.0128 10.1115/1.4028236 10.1146/annurev-fluid-121108-145550 10.1146/annurev.fluid.39.050905.110149
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Snippet	•LES of flow control of circular cylinder.•Segmented forcing with DBD plasma actuators.•Two blowing ratios were implemented, 0.2 and 0.7.•In the low blowing... We conducted large-eddy simulation (LES) to investigate the effect of segmented plasma forcing on the wake of a circular cylinder, at a subcritical Reynolds...
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StartPage	104295
SubjectTerms	Actuators Blowing Circular cylinders Computer simulation Cylinder wake Diameters Flow control Fluid flow Large eddy simulation LES Periodic variations Plasma actuators Reynolds number Separation Simulation Velocity distribution Vortex shedding Vortices Waviness
Title	Large-eddy simulation of the effect of distributed plasma forcing on the wake of a circular cylinder
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