[HTML][HTML] Recent developments in thermal characteristics of surface dielectric barrier discharge plasma actuators driven by sinusoidal high-voltage power
X Zhang, Z Yugang, Y Chun - Chinese Journal of Aeronautics, 2023 - Elsevier
Flow control using surface Dielectric Barrier Discharge (DBD) plasma actuators driven by a
sinusoidal alternating-current power supply has gained significant attention from the …
sinusoidal alternating-current power supply has gained significant attention from the …
Research progress of hypersonic boundary layer transition control experiments
H Yang, H Liang, S Guo, M Tang, C Zhang… - Advances in …, 2022 - Springer
Hypersonic boundary layer transition is a hot yet challenging problem restricting the
development and breakthrough of hypersonic aerodynamics. In recent years, despite great …
development and breakthrough of hypersonic aerodynamics. In recent years, despite great …
Numerical investigation of control of dynamic stall over a NACA0015 airfoil using dielectric barrier discharge plasma actuators
H Yu, J Zheng - Physics of Fluids, 2020 - pubs.aip.org
The control of dynamic stall over a periodically pitching NACA 0015 airfoil using alternating
current (AC) and nanosecond (NS) dielectric barrier discharge (DBD) plasma actuators is …
current (AC) and nanosecond (NS) dielectric barrier discharge (DBD) plasma actuators is …
[HTML][HTML] AC-SDBD 等离子体激励防/除冰研究现状与展望
孟宣市, 惠伟伟, 易贤, 蔡晋生, 李华星 - 空气动力学学报, 2022 - html.rhhz.net
层流控制, 复合材料, 全电驱动等创新性航空技术的应用给传统防/除冰方法带来了新的挑战.
基于高电压驱动的表面介质阻挡放电等离子体激励新概念防/除冰方法因其没有复杂的机械构造 …
基于高电压驱动的表面介质阻挡放电等离子体激励新概念防/除冰方法因其没有复杂的机械构造 …
Heat transfer characteristics of plasma actuation in different boundary-layer flows
W Hui, H Zhang, J Wang, X Meng, H Li - Physics of Fluids, 2022 - pubs.aip.org
The coupling characteristics of the aerodynamic and thermal effects of a surface dielectric
barrier discharge plasma actuator and its transfer characteristics in different boundary-layer …
barrier discharge plasma actuator and its transfer characteristics in different boundary-layer …
Thermal effect on the performance of an alternating-current dielectric-barrier-discharge plasma actuator
The dielectric-barrier-discharge (DBD) plasma actuator is a popular technology for active
flow control; however, the influence of the heat generated by the actuator on its performance …
flow control; however, the influence of the heat generated by the actuator on its performance …
[HTML][HTML] Experimental investigation of induced velocity by dielectric barrier discharge plasma actuator in different configurations
This paper aims to study the effect of different geometrical and electrical parameters,
including the voltage, frequency, dielectric thickness, gap width between electrodes, length …
including the voltage, frequency, dielectric thickness, gap width between electrodes, length …
Thermal effect on the flow induced by a single-dielectric-barrier-discharge plasma actuator under steady actuation
L Zhao, Z Xiao, F Liu - Physics of Fluids, 2024 - pubs.aip.org
The thermal effect of a single-dielectric-barrier-discharge plasma actuator under steady
actuation is numerically investigated. A new actuator model is proposed and validated using …
actuation is numerically investigated. A new actuator model is proposed and validated using …
Thermal characteristics of plasma actuators in turbulent boundary layer
Surface Dielectric Barrier Discharge (SDBD) plasma actuators driven by alternating current
(AC), also known as AC-SDBD, have been used recently in many aerodynamic and heat …
(AC), also known as AC-SDBD, have been used recently in many aerodynamic and heat …
Thermal effect and anti-/de-icing characteristics of nanosecond pulse surface dielectric barrier discharge
Q Wen, G Yang, Y Shi, Z Zhang, Q Hu… - … on Plasma Science …, 2024 - ieeexplore.ieee.org
Clean energy has received increasing attention in the recent past. Wind power, as a widely
distributed clean energy source, has been promoted and applied on a large scale. However …
distributed clean energy source, has been promoted and applied on a large scale. However …