1) dielectric barrier surface discharge
介质阻隔面放电
1.
The dielectric barrier surface discharge process is simulated using Poisson\'s equation and drift-diffusion equation and the distribution history of electron,ion and electric field is gained.
采用泊松方程和漂移-扩散方程对介质阻隔面放电进行数值模拟,得到了电子、离子以及电场分布随时间的变化。
2.
For improving the flow control effect of dielectric barrier surface discharge (DBDs) actuator,the discharge process of nine kinds of DBDs electrode geometrical configurations was simulated.
为提高介质阻隔面放电激励器的流动控制效果,采用漂移-扩散模型对9种电极结构的放电过程进行了数值计算,得到了随时间变化的放电空间电子数密度、电场、电极电流以及离子静电力,探索了等离子体放电的作用机理,研究了暴露电极、植入电极的宽度以及两个电极之间的间隙宽度对放电过程和放电效果的影响。
2) surface dielectric barrier discharge
沿面介质阻挡放电
1.
In this paper,two kinds of high pressure surface dielectric barrier discharge generator are designed and their static electric field is calculated by boundary-element-.
鉴于高气压下的沿面介质阻挡放电发生器在工业应用以及等离子体电磁屏蔽技术领域的重要应用前景,在梳状电极结构的沿面介质阻挡放电发生器基础上设计了两种电极结构的等离子体发生器,并通过边界元方法得到两种结构类型沿面放电发生器的静态场强分布。
3) DBD
共面型介质阻挡放电
1.
The analytical solution of Laplace s equation with symmetrical potential profile has been obtained for coplanar dielectric barrier discharge (DBD) cell.
利用拉普拉斯方程求出共面型介质阻挡放电单元电势分布的解析解,结合汤生放电理论,研究了共面 型放电单元的结构参数对其击穿特性的影响。
2.
The analytical solution of Laplace s equation with symmetrical potential profile has beenobtained for coplanar dielectric barrier discharge(DBD)cell.
利用拉普拉斯方程求出共面型介质阻挡放电单元电势分布的解析解,结合汤生放电理论,研究了共面型放电单元的结构参数对其击穿特性的影响。
4) dielectric barrier discharge
电介质阻挡放电
6) dielectric-barrier discharge
介质阻挡放电
1.
Study on Characteristics and Modes of Homogenous Dielectric-barrier Discharge at Atmospheric Pressure;
均匀大气压介质阻挡放电特性及模式研究
2.
When treating automotive exhaust by the dielectric-barrier discharge reactor with modified fly ash pellets bed as catalyst,the removal rates of NO,HC and CO under different pulsed voltage,pulsed frequency,discharge space and gas flow are investigated.
针对汽车尾气防治,自制了介质阻挡放电催化反应器,并以改性粉煤灰小球为催化剂对汽油机尾气进行处理,研究了脉冲电压、脉冲频率、放电间隙及气体流量qV等对NO、HC和CO去除率η的影响。
3.
Methane coupling to produce C_2 hydrocarbons through dielectric-barrier discharge(DBD)plasma reaction was studied in four DBD reactors.
运用4个介质阻挡放电反应器,考察了甲烷介质阻挡放电等离子体转化过程中,高压电极位置、放电间隙、内电极形式、氢气与甲烷的体积比、空气冷却方式等因素对甲烷转化率和产物分布的影响。
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