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Dynamic Burst Actuation to Enhance the Flow Control Authority of Plasma Actuators

Takuto Ogawa, Kengo Asada, Satoshi Sekimoto, Tomoaki Tatsukawa, Kozo Fujii

2021Aerospace14 citationsDOIOpen Access PDF

Abstract

A computational study was conducted on flows over an NACA0015 airfoil with dielectric barrier discharge (DBD) plasma. The separated flows were controlled by a DBD plasma actuator installed at the 5% chord position from the leading edge, where operated AC voltage was modulated with the duty cycle not given a priori but dynamically changed based on the flow fluctuations over the airfoil surface. A single-point pressure sensor was installed at the 40% chord position of the airfoil surface and the DBD plasma actuator was activated and deactivated based on the strength of the measured pressure fluctuations. The Reynolds number was set to 63,000 and flows at angles of attack of 12 and 16 degrees were considered. The three-dimensional compressible Navier–Stokes equations including the DBD plasma actuator body force were solved using an implicit large-eddy simulation. Good flow control was observed, and the burst frequency proven to be effective in previous fixed burst frequency studies is automatically realized by this approach. The burst frequency is related to the characteristic pressure fluctuation; our approach was improved based on the findings. This improved approach realizes the effective burst frequency with a lower control cost and is robust to changing the angle of attack.

Topics & Concepts

Plasma actuatorAirfoilDielectric barrier dischargeMechanicsAngle of attackMach numberReynolds numberControl theory (sociology)Flow control (data)Chord (peer-to-peer)ActuatorAerodynamicsPhysicsVoltageMaterials scienceEngineeringElectrical engineeringComputer scienceTurbulenceTelecommunicationsControl (management)Artificial intelligenceDistributed computingPlasma and Flow Control in AerodynamicsFluid Dynamics and Turbulent FlowsAerodynamics and Fluid Dynamics Research
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