Experimental Investigation on the Characteristics of Sliding Discharge Plasma Aerodynamic Actuation 被引量：2

Experimental Investigation on the Characteristics of Sliding Discharge Plasma Aerodynamic Actuation

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摘要 A new electrical discharge called sliding discharge was developed to generate plasma aerodynamic actuation for flow control. A microsecond-pulse high voltage with a DC component was used to energize a three-electrode actuator to generate sliding discharge. The characteristics of plasma aerodynamic actuation by sliding discharge were experimentally investigated. Discharge morphology shows that sliding discharge is formed when energized by properly adjusting microsecond-pulse and DC voltage. Compared to dielectric barrier discharge （DBD）, the plasma extension of sliding discharge is quasi-diffusive and stable but longer and more intensive. Results from particle image velocimetry （PIV） test indicate that plasma aerodynamic actuation by sliding discharge can induce a ＇starting vortex＇ and a quasi-steady ＇near-wall jet＇. Body force induced by plasma aerodynamic actuation is about the order of mN, which is stronger than that induced by single DBD. It is inferred that microsecond-pulse sliding discharge may be more effective to generate large-scale plasma aerodynamic actuation, which is very promising for improving aircraft aerodynamic characteristics and propulsion efficiency. A new electrical discharge called sliding discharge was developed to generate plasma aerodynamic actuation for flow control. A microsecond-pulse high voltage with a DC component was used to energize a three-electrode actuator to generate sliding discharge. The characteristics of plasma aerodynamic actuation by sliding discharge were experimentally investigated. Discharge morphology shows that sliding discharge is formed when energized by properly adjusting microsecond-pulse and DC voltage. Compared to dielectric barrier discharge （DBD）, the plasma extension of sliding discharge is quasi-diffusive and stable but longer and more intensive. Results from particle image velocimetry （PIV） test indicate that plasma aerodynamic actuation by sliding discharge can induce a ＇starting vortex＇ and a quasi-steady ＇near-wall jet＇. Body force induced by plasma aerodynamic actuation is about the order of mN, which is stronger than that induced by single DBD. It is inferred that microsecond-pulse sliding discharge may be more effective to generate large-scale plasma aerodynamic actuation, which is very promising for improving aircraft aerodynamic characteristics and propulsion efficiency.

作者宋慧敏李应红张乔根贾敏吴云

机构地区 School of Electrical Engineering Engineering College

出处《Plasma Science and Technology》 SCIE EI CAS CSCD 2011年第5期608-611,共4页 等离子体科学和技术（英文版）

基金 supported by National Natural Science Foundation of China (No. 51007095) the Natural Science Foundation of Shaanxi Province of China (No. 2010JQ1012)

关键词 plasma aerodynamic actuation sliding discharge plasma flow control plasma aerodynamic actuation, sliding discharge, plasma flow control

分类号 O53 [理学—等离子体物理]

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Experimental Investigation on the Characteristics of Sliding Discharge Plasma Aerodynamic Actuation 被引量：2

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