位置:成果数据库 > 期刊 > 期刊详情页
Analytical model andfrequency characteristics of plasma synthetic jet actuator
  • ISSN号:0899-8213
  • 期刊名称:Physics of Fluids. A, Fluid Dynamics
  • 时间:2015.1.1
  • 页码:114-121
  • 相关项目:等离子体合成射流激励的产生与演化机制研究
作者: 吴云|张志波|梁华|贾敏|
同期刊论文项目
等离子体合成射流激励的产生与演化机制研究
期刊论文 45 会议论文 2
同项目期刊论文
Influence of capacitor energy on performance of a three-electrode plasma synthetic jet actuator
Effect of pressure on the emission characteristics of surface dielectric barrier discharge plasma
Experimental Investigation on Hypersonic Flow and Plasma Aerodynamic Actuation Interaction
Spectroscopic Diagnosis of Dielectric Barrier Discharge in Long Gap Under Low Presssure
Experimental Characterization of the Plasma Synthetic Jet Actuator
等离子体气动激励控制超声速边界层分离的实验研究
压气机叶栅内流环境中纳秒脉冲等离子体的气动激励特性
纳秒脉冲表面介质阻挡等离子体激励唯象学仿真?
Experimental Investigation on Aerodynamic Control of a Wing with Distributed Plasma Actuators
等离子体合成射流的理论模型与重频激励特性
纳秒脉冲表面介质阻挡等离子体激励唯象学仿真
纳秒脉冲等离子体激励用于30°后掠三角翼流动控制实验研究
锯齿形等离子体激励器纳秒脉冲放电及红外辐射温度特性
低速三角翼纳秒脉冲等离子体激励实验
射频放电等离子体气动激励特性的实验研究
Shockwave-boundary layer interaction control by plasma aerodynamics actuation
Investigation on the shockwave induced by surface arc plasma in quiescent air
低气压闭式等离子体放电实验及光谱诊断
低气压长间隙介质阻挡放电的光谱诊断
Shock wave-boundary layer interactions control by plasma aerodynamic actuation
Computational and experimental analysis of Mach 2 air flow over a blunt body with plasma aerodynamic
纳秒脉冲等离子体激励控制小后掠三角翼低速绕流试验
等离子体气动激励抑制机翼失速分离的实验
不同布局等离子体激励器的纳秒脉冲放电特性与流动控制效果
表面介质阻挡纳秒脉冲放电能量特性和诱导流动特性研究
纳秒脉冲等离子体合成射流特性实验研究
等离子体气动激励改善低速叶栅性能数值仿真
Experimental study of flow control on delta wings with different sweep angles using pulsed nanosecon
Experimental Investigation of Plasma Sheet Actuator Driven by Repetitive Nanosecond Pulses with Nega
Control of vortex on a non-slender delta wing by a nanosecond pulse surface dielectric barrier disch
温升效应对介质阻挡放电诱导速度和涡量的影响
三角翼微秒脉冲等离子体流动控制的试验研究
毫秒脉冲等离子体激励改善飞翼的气动性能实验
等离子体流动控制与点火助燃研究进展
三电极等离子体合成射流的尖尖放电特性
压气机叶栅端壁射流/抽吸流动控制的实验研究
基于能量耗散率的低速扩压叶栅损失研究
Experimental Investigation of Hypersonic Flow and Plasma Aerodynamic Actuation Interaction
Experimental Investigation on Airfoil Shock Control by Plasma Aerodynamic Actuation
Shockwave-boundary layer interaction control by plasma aerodynamic actuation: An experimental investigation