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DC and Pulsed Surface Corona Discharge along a Dielectric Flat Plate in Air: Electrical Properties and Discharge-Induced Ionic Wind
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Eric Moreau
Published/Copyright:
November 30, 2016
Abstract
Several studies have shown that a surface corona discharge may be used as an electrohydrodynamic actuator in order to control the airflow around profiles. For a few years, our laboratory has been working on this subject, specifically in the case of a DC corona discharge. The present paper deals with experimental work on DC and pulsed surface non-thermal plasmas produced between two wire electrodes flush mounted on the surface of a PMMA (polymethyl-methacrylate) insulating flat plate. The goal is to optimize the plasma actuator in terms of electro-mechanical efficiency in the absence of an external free airstream. First, electrical properties (such as discharge current versus applied voltage and discharge current versus time) of these different discharges are observed. Secondly, the time-averaged ionic wind induced by DC coronas and pulsed coronas is measured by means of a small diameter tube connected to a micro manometer.
Keywords: Surface corona discharge; non-thermal plasma; ionic wind; electrohydrodynamic actuator; electromechanical; flow control
Received: 2005-1-10
Revised: 2004-10-15
Accepted: 2005-1-17
Published Online: 2016-11-30
Published in Print: 2005-7-1
© 2016 by Walter de Gruyter Berlin/Boston
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- Study in Space and Time of the Gas Temperature Variations in Dielectric Barrier Discharge Reactors
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- Hybrid Gas/Liquid Electrical Discharge Reactors with Zeolites for Colored Wastewater Degradation
- CF4/O2/He Reaction Chemistry in an Atmospheric Pressure Plasma Jet
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- Soot Free Non-Thermal Plasma Reforming of Hydro Carbon Gas by Flow Stabilized Corona Discharges
- Decoloration of Organic Dye in Water by Pulsed Discharge Plasma Generated Simultaneously in Gas and Liquid Media
- The Effect of Conductivity on Active Species Products by Electrical Discharge with Air Bubbles in Water
- The Role of Surface Reactions in De-NOx Processes in Corona Discharge-Catalyst (or Zeolite) Hybrid Systems
- Characteristics of DC Corona Streamers Induced by UV Laser Irradiation in Non-Thermal Plasma
- Decomposition of Gas-Phase Benzene Using Plasma – Driven Catalyst Reactor: Complete Oxidation of Adsorbed Benzene Using Oxygen Plasma
- A Solution to the Problem of Large Energy Consumption of the De-NOx Process by Non-Thermal Plasma
- DC and Pulsed Surface Corona Discharge along a Dielectric Flat Plate in Air: Electrical Properties and Discharge-Induced Ionic Wind
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- After-Treatment of NOx Using Combination of Non-Thermal Plasma and Oxidative Catalyst Prepared by Novel Impregnation
Keywords for this article
Surface corona discharge;
non-thermal plasma;
ionic wind;
electrohydrodynamic actuator;
electromechanical;
flow control
Articles in the same Issue
- Preface
- The Oxidation of Carbon Soot in a Non-thermal, Atmospheric Pressure Plasma: Experiment and Modelling
- Study in Space and Time of the Gas Temperature Variations in Dielectric Barrier Discharge Reactors
- Removal of Phenol from Water: A Comparison of Energization Methods
- Non Thermal Plasma NOx Remediation: From Binary Gas Mixture to Lean-Burn Gasoline and Diesel Engine Exhaust
- Influences of Reactor Geometry on Ozone Production with Dielectric Barrier Discharges: Experimental and Simulation Studies
- Ozone Production by Primary and Secondary Streamers in Pulsed Positive Corona Discharge
- Hybrid Gas/Liquid Electrical Discharge Reactors with Zeolites for Colored Wastewater Degradation
- CF4/O2/He Reaction Chemistry in an Atmospheric Pressure Plasma Jet
- Enhancement of Propane Flame Stability by Dielectric Barrier Discharges
- Soot Free Non-Thermal Plasma Reforming of Hydro Carbon Gas by Flow Stabilized Corona Discharges
- Decoloration of Organic Dye in Water by Pulsed Discharge Plasma Generated Simultaneously in Gas and Liquid Media
- The Effect of Conductivity on Active Species Products by Electrical Discharge with Air Bubbles in Water
- The Role of Surface Reactions in De-NOx Processes in Corona Discharge-Catalyst (or Zeolite) Hybrid Systems
- Characteristics of DC Corona Streamers Induced by UV Laser Irradiation in Non-Thermal Plasma
- Decomposition of Gas-Phase Benzene Using Plasma – Driven Catalyst Reactor: Complete Oxidation of Adsorbed Benzene Using Oxygen Plasma
- A Solution to the Problem of Large Energy Consumption of the De-NOx Process by Non-Thermal Plasma
- DC and Pulsed Surface Corona Discharge along a Dielectric Flat Plate in Air: Electrical Properties and Discharge-Induced Ionic Wind
- Dependence of NOx Removal by Pulsed Streamer Discharge on the Input Energy Density to Nitric Oxide Ratio
- After-Treatment of NOx Using Combination of Non-Thermal Plasma and Oxidative Catalyst Prepared by Novel Impregnation
