Title: The Dielectric Surface Conductivity Effect on the Dielectric Barrier Discharge Actuator Characteristics
Abstract:The effect of the surface conductivity on the electrical and mechanical characteristics of the surface dielectric barrier discharge actuator has been numerically investigated in this study. Two typica...The effect of the surface conductivity on the electrical and mechanical characteristics of the surface dielectric barrier discharge actuator has been numerically investigated in this study. Two typical ac-surface dielectric barrier discharge actuators, wire-to-plate and plate-to-plate, have been considered to control airflow alongside a flat dielectric plate. A sinusoidal high voltage of varied frequencies and amplitudes is supplied to the active electrode, and the passive electrode, which is grounded, is encapsulated inside a dielectric plate. Two-species ion transport model, involving generic positive and negative ions, coupled to the electrostatics model is assumed. The electrostatic field is affected by both the space and the surface charges. The surface charge is accumulated due to ion deposition, but its distribution varies due to the surface ohmic conduction. The Navier–Stokes equations for the flow simulation, which include the time-averaged electrohydrodynamic force determined from the discharge model, are solved to analyze the flow field and the boundary layer morphology. The numerical algorithm has been implemented in the COMSOL commercial package. The significance of the dielectric surface conductivity on the discharge behavior and the flow field has been shown. The dielectric surface conductivity behaves nonmonotonically and affects the flow field by altering the electrohydrodynamics force strength, direction, and distribution.Read More
Publication Year: 2021
Publication Date: 2021-10-27
Language: en
Type: article
Indexed In: ['crossref']
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Cited By Count: 6
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Title: $The Dielectric Surface Conductivity Effect on the Dielectric Barrier Discharge Actuator Characteristics
Abstract: The effect of the surface conductivity on the electrical and mechanical characteristics of the surface dielectric barrier discharge actuator has been numerically investigated in this study. Two typical ac-surface dielectric barrier discharge actuators, wire-to-plate and plate-to-plate, have been considered to control airflow alongside a flat dielectric plate. A sinusoidal high voltage of varied frequencies and amplitudes is supplied to the active electrode, and the passive electrode, which is grounded, is encapsulated inside a dielectric plate. Two-species ion transport model, involving generic positive and negative ions, coupled to the electrostatics model is assumed. The electrostatic field is affected by both the space and the surface charges. The surface charge is accumulated due to ion deposition, but its distribution varies due to the surface ohmic conduction. The Navier–Stokes equations for the flow simulation, which include the time-averaged electrohydrodynamic force determined from the discharge model, are solved to analyze the flow field and the boundary layer morphology. The numerical algorithm has been implemented in the COMSOL commercial package. The significance of the dielectric surface conductivity on the discharge behavior and the flow field has been shown. The dielectric surface conductivity behaves nonmonotonically and affects the flow field by altering the electrohydrodynamics force strength, direction, and distribution.