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Main Authors: Tricouros, Frank A., Hoober, Cameron, Vaccaro, John C., Van Buren, Tyler
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.01392
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author Tricouros, Frank A.
Hoober, Cameron
Vaccaro, John C.
Van Buren, Tyler
author_facet Tricouros, Frank A.
Hoober, Cameron
Vaccaro, John C.
Van Buren, Tyler
contents We experimentally explore the effectiveness of a rectangular orifice synthetic jet actuator for wall-bounded vortex destruction. Vortex flows near a boundary often present unforeseen or undesired forcing on a neighboring surface due to the low pressure concentration within the vortex. Synthetic jets -- primarily used for separation control, enhanced mixing, and induced turbulence -- offer a unique strategy for vortex mitigation due to the unsteady flow at the region of the orifice disrupting the coherence of the oncoming flow. In a flat plate boundary layer, we test multiple jet orifice configurations, vortex lateral position relative to the orifice, and vortex sizes. We find that each jet was capable of reducing the incoming vortex rotational coherence up to 70%. This disruption led to pressure recovery within the vortex wake region. The velocity wake of the vortex was more persistent (most jets produced a wake of their own) though some cases were capable of accelerating the fluid while maintaining moderate rotation reduction and pressure recovery. These results indicate that synthetic jets have the potential to mitigate a near wall vortex structure, particularly in scenarios where the position and size of the vortex are known.
format Preprint
id arxiv_https___arxiv_org_abs_2603_01392
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Destruction of wall-bounded vortices using synthetic jet actuators
Tricouros, Frank A.
Hoober, Cameron
Vaccaro, John C.
Van Buren, Tyler
Fluid Dynamics
We experimentally explore the effectiveness of a rectangular orifice synthetic jet actuator for wall-bounded vortex destruction. Vortex flows near a boundary often present unforeseen or undesired forcing on a neighboring surface due to the low pressure concentration within the vortex. Synthetic jets -- primarily used for separation control, enhanced mixing, and induced turbulence -- offer a unique strategy for vortex mitigation due to the unsteady flow at the region of the orifice disrupting the coherence of the oncoming flow. In a flat plate boundary layer, we test multiple jet orifice configurations, vortex lateral position relative to the orifice, and vortex sizes. We find that each jet was capable of reducing the incoming vortex rotational coherence up to 70%. This disruption led to pressure recovery within the vortex wake region. The velocity wake of the vortex was more persistent (most jets produced a wake of their own) though some cases were capable of accelerating the fluid while maintaining moderate rotation reduction and pressure recovery. These results indicate that synthetic jets have the potential to mitigate a near wall vortex structure, particularly in scenarios where the position and size of the vortex are known.
title Destruction of wall-bounded vortices using synthetic jet actuators
topic Fluid Dynamics
url https://arxiv.org/abs/2603.01392