在交流电场中,利用介质阻挡层和高频激励源,可获得稳定均匀的大气压下辉光放电。
In AC electrical field, the stable homogeneous glow discharge will appear by using dielectric barrier layer and high-frequency power source.
重点阐述大气压下辉光放电(APGD)技术的现状,解释了电子雪崩模型和流注放电理论,并以电压- 电流波形图和电压-电荷李萨育图鉴别介质阻挡放电与大气压下辉光放电。
The common models to explain APGD are electron avalanche model and streamer discharge model. APGD and DBD can be distinguished by voltage-current waveform and voltage-charge Lissajous figure.
在此基础上,根据大气压下有利于均匀辉光放电的放电条件,最终推算出有利于均匀辉光放电的最小电源频率。
On the basis of the studies above, the minimum power supply frequency favorable to uniform glow discharge was formulated.
探讨了与气体流动等条件相结合,用预电离方法实现大气压下空气中辉光放电的可能性。
By using of the preionization combined with the gas flow or other methods, the probability of obtaining atmosphere glow discharges in air is discussed, too.
探讨了与气体流动等条件相结合,用预电离方法实现大气压下空气中辉光放电的可能性。
By using of the preionization combined with the gas flow or other methods, the probability of obtaining atmosphere glow discharges in air is discussed, too.
应用推荐