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等离子体气动激励诱导空气流动的PIV研究
引用本文:梁华,李应红,宋慧敏,贾敏,吴云. 等离子体气动激励诱导空气流动的PIV研究[J]. 气动实验与测量控制, 2011, 0(4): 22-25,36
作者姓名:梁华  李应红  宋慧敏  贾敏  吴云
作者单位:[1]空军第五飞行学院,甘肃武威733003 [2]空军工程大学航空等离子体动力学实验室,西安710038
基金项目:国家自然科学基金(10972236,50906100)
摘    要:
为了揭示等离子体气动激励与边界层相互作用的物理机制,作者进行了等离子体气动激励诱导空气流动的PIV研究。实验结果表明:毫秒、微秒等离子体气动激励诱导空气流动以“启动涡”和“壁面射流”的形式出现;当激励电压为12kV时,最大诱导速度约为3m/s;激励电压越大,“启动涡”和“壁面射流”的强度越大;脉冲激励的作用强度和作用范围要强于定常激励。该结论为提高等离子体流动控制的作用能力提供了指导。

关 键 词:介质阻挡放电  流动控制  等离子体气动激励  粒子图像测速  诱导流动

PIV investigation on flow induced by plasma aerodynamic actuation
LIANG Hua,LI Ying-hong,SONG Hui-min,JIA Min,WU Yun. PIV investigation on flow induced by plasma aerodynamic actuation[J]. , 2011, 0(4): 22-25,36
Authors:LIANG Hua  LI Ying-hong  SONG Hui-min  JIA Min  WU Yun
Affiliation:1. The Fifth Flight College of the Air Force, Wuwei Gansu 733003, China; 2. Laboratory of Aero Plasma Dynamics,Air Force Engineering University,Xi'an 710038,China)
Abstract:
PIV investigation on flow induced by plasma aerodynamic actuation was presented in the paper to reveal the operation mechanism between plasma aerodynamic actuation and airflow. The experimental results show that the flow induced by millisecond and microsecond plasma aerodynamic actuation come out as starting vortex and wall jet. The maximal induced velocity is about 3m/s when the actuation voltage is 12kV. The higher the voltage is, the stronger the starting vortex and the wall jet. The intensity and the influence of the pulse actuation are higher than that of the steady actuation. The results are instructional for increasing the ability of plasma flow control.
Keywords:dielectric barrier diseharge  flow control  plasma aerodynamic actuation  PIV  induced flow
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