不同结构介质阻挡放电的放电特性。
Study on discharge characteristic of different configurable DBD.
高频高压脉冲电源是介质阻挡放电的核心部分。
The high-frequency and high-voltage pulse power source is the core part of the dielectric barrier discharge.
首次确定了接地电极转动对介质阻挡放电的影响。
The effect of the rotating grounding electrode on dielectric barrier discharge is determined.
对介质阻挡放电的影响因素进行了系统地分析和研究。
This paper analyses the related factors of dielectric barrier discharge (DBD).
利用光学方法测量了介质阻挡放电中放电丝的时空特性。
The spatiotemporal correlation of filaments is obtained with optical method.
利用介质阻挡放电进行常压氮气渗氮研究取得突破性进展。
Research on the dielectric barrier discharge nitrogen nitriding at atmospheric pressure have consumedly progressed.
介绍了一种基于介质阻挡放电原理的新型人体指纹提取方法。
Based on the principle of dielectric barrier discharge, a new type of human's fingerprint acquisition method is introduced in this paper.
研究了大气压介质阻挡放电引发亚麻接枝丙烯酸的工艺条件。
The conditions of dielectric barrier discharge plasma initiation graft polymerization of linen are investigated.
以介质阻挡放电照相技术为背景,建立了介质阻挡放电的一维模型。
According to the dielectric barrier discharge photography, a one dimension model of dielectric barrier discharge is developed.
对共面介质阻挡放电(DBD)的放电过程进行了实验和理论研究。
The process of coplanar dielectric barrier discharge (DBD) has been investigated experimentally and theoretically by using a segmented-electrode system.
介质阻挡放电是一种较高气压范围下产生非平衡等离子体的放电方式。
The dielectric barrier discharge (DBD) can produce non-equilibrium plasma at about atmospheric pressure.
利用介质阻挡放电,在自行研制的设备上进行常压非平衡等离子体渗氮。
Using dielectric barrier discharge (DBD), atmospheric pressure non equilibrium plasma nitriding technology is under development at self made equipment.
介质阻挡放电(DBD)处理聚合物表面可有效提高其亲水性和结合强度。
Dielectric barrier discharge (DBD) can be applied to modify polymer surface to improve its wettability and adhesive strength.
本工作的结果对常压介质阻挡放电及其在材料改性中的应用具有重要的意义。
The result shows a great importance to dielectric barrier discharge at atmospheric pressure and its application of material modification.
本文以介质阻挡放电法为例进行分析,研究整个臭氧发生系统的电能损耗源。
This thesis analyzes the main power consumptions of the DBD principle ozone generator.
利用介质阻挡放电,在自行研制的设备上进行常压非平衡等离子体渗氮的研究。
By using medium to stop discharging, the non-equilibrium plasma nitriding under normal pressure can be made in self developed equipment.
在大气压氩气介质阻挡放电中,研究了不同电介质温度对放电时间特性的影响。
The influence of different temperature of dielectric on temporal behavior of dielectric barrier discharge in argon at atmospheric pressure is studied.
等离子体的产生采用了自制中频电源和平行板电极结构组成的介质阻挡放电系统。
Plasma was created by dielectric barrier discharge (DBD) system, which consisted of home-made middle frequency power supply and parallel plane electrode configurations.
根据壁电荷对相邻两次微放电的不同影响,建立了介质阻挡放电时间序列的映射方程。
Considering the different effects of wall charges on the adjacent micro-discharges in DBD, we have proposed a mapping equation of discharge moment.
介质阻挡放电和远等离子体处理是实现工业化和获得更好的等离子体表面改性的新方法。
The dielectric barrier discharge and remote plasma treatment have been improved to accomplish industrial application and obtain preferable result of plasma surface modification.
研制了一套高压脉冲电源和介质阻挡放电反应器,通过在常压下放电产生低温等离子体。
A high pulsed power supply and a dielectric barrier discharge reactor are designed, which produce non thermal plasma under normal atmospheric pressure.
实验的结果表明:接地电极静止或转动介质阻挡放电将呈现不同的放电形式和电流波形。
The experimental results indicate that the dielectric barrier discharge will show different forms and discharge current waveforms by fixing or rotating the grounding electrode.
本文利用介质阻挡放电(DBD)制式,在流动的氩气中实现了大气压低温等离子体射流。
In this paper, a plasma jet of argon has been achieved using dielectric barrier discharge (DBD) in flowing argon at atmospheric pressure.
对影响介质阻挡放电的因素加以研究,可以在实际应用中优化反应器设计,提高放电效率。
The laboratory study on the factors that influence DBD has made it possible to optimize the design of discharge reactors in practical use and to improve the efficiency of electric discharge.
采用双水电极实验装置,对大气压氩气介质阻挡放电中的靶波与螺旋波斑图进行了观察测量。
The spiral and target patterns have been observed in dielectric barrier streamer discharge by using water electrodes.
介质阻挡放电(DBD)由于具有分解效率高、能耗低、占地少等特点而逐渐成为研究的热点。
Dielectric barrier discharge (DBD) process has become a highlight in research due to its advantages such as higher removal efficiency, lower energy consumption and less ground demand.
大气压下介质阻挡放电是一种非局部热力学平衡的气体放电,它在工业中有着广泛的应用前景。
Atmospheric pressure dielectric barrier discharge is a kind of non-local thermodynamic equilibrium plasmas. It has a number of important industrial applications.
采用双水电极装置,在介质阻挡放电系统中,首次对水电极电导率对放电系统的影响进行了研究。
The influence of the electrode conductivity on the dielectric barrier discharge is investigated by using two water electrodes for the first time.
从统计结果中总结了DBD介质阻挡放电的电气特性,并从特性出发确定了该负载的最佳工作点。
According to simulation result, electrical characteristic of DBD load has been induced and optimized working point has been determined.
从统计结果中总结了DBD介质阻挡放电的电气特性,并从特性出发确定了该负载的最佳工作点。
According to simulation result, electrical characteristic of DBD load has been induced and optimized working point has been determined.
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