Surface dielectric barrier discharges are investigated in order to explore the combined effects of barrier thickness and microstructure of the exposed electrode on the ion wind generation. Actuators with straight and structured high voltage electrodes with characteristic sizes of 200 and 250 µm and dielectric thicknesses of 0.5, 1 and 2 mm are compared. It is observed that: i) actuator efficiency of ion wind generation strongly depends on the applied voltage amplitude; ii) operation voltage depends on the dielectric thickness logarithmically; iii) electrode microstructure slightly increases the dynamic pressure (few percent in maximum), however the effect decreases with thicker dielectrics and smaller electrode structures; iv) the pattern o...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Abstract Surface dielectric barrier discharges are investigated in order to explore t...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
International audienceThe influence of the air-exposed active electrode shape on the electrical, opt...
Dielectric Barrier Discharge (DBD) plasma devices have been designed and manufactured with micro s...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Dielectric barrier discharge is vulnerable to ion bombardment, radical species or ultraviolet radiat...
University of Minnesota Ph.D. dissertation. April 2013. Major: Mechanical Engineering. Advisor: Uwe ...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Abstract Surface dielectric barrier discharges are investigated in order to explore t...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
International audienceThe influence of the air-exposed active electrode shape on the electrical, opt...
Dielectric Barrier Discharge (DBD) plasma devices have been designed and manufactured with micro s...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Plasma actuators based on dielectric barrier discharge promise a bright future in aerodynamical appl...
Dielectric barrier discharge is vulnerable to ion bombardment, radical species or ultraviolet radiat...
University of Minnesota Ph.D. dissertation. April 2013. Major: Mechanical Engineering. Advisor: Uwe ...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...
Plasma actuators based on dielectric barrier discharge (DBD) promise a bright future in aerodynamica...