等离子体驱动器
介质阻挡放电
材料科学
等离子体
纹影
纳秒
电极
电压
局部放电
体积流量
光电子学
电介质
机械
化学
电气工程
光学
激光器
物理
物理化学
量子力学
工程类
作者
Hao Zheng,Hua Liang,Jie Chen,Haohua Zong,Xiangzhe MENG,Like Xie,Yinghong Li
标识
DOI:10.1088/2058-6272/ac35a3
摘要
Abstract Combining high-speed schlieren technology and infrared imaging technology, related research has been carried out on the influence of parameters such as actuation voltage, repetition frequency, and electrode size of an actuator on the discharge characteristics, induced flow field characteristics, and thermal characteristics of nanosecond pulsed dielectric barrier discharge. The results show that increasing the value of the actuation voltage can significantly increase the actuation intensity, and the plasma discharge area is significantly extended. Increasing the repetition frequency can increase the number of discharges per unit time. Both will cause more energy input and induce more changes in the flow field. The effect of temperature rise is more significant. The width of the covered electrode will affect the potential distribution during the discharge process, which in turn will affect the extension process of the plasma discharge filament. Under the same actuation intensity, the wider the covered electrode, the larger range the induced flow field and temperature rise is. Preliminary experimental analyses of high-frequency actuation characteristics, temperature field characteristics, flow field characteristics and actuation parameter settings provide support for the parameter selection and partial mechanism analysis of plasma anti-icing.
科研通智能强力驱动
Strongly Powered by AbleSci AI