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.
为了研究大气压空气等离子体对绝缘材料表面改性的影响,采用介质阻挡放电对聚苯乙烯进行了表面改性。
In order to study the effect of atmospheric pressure air plasma on insulating material surface modification, using dielectric barrier discharge to modify polystyrene surface.
利用二维粒子图像测速系统研究了低速风洞实验中介质阻挡放电等离子体对圆柱绕流尾迹区流场的影响。
Two dimensional particle image velocimetry system is used to investigate effects of the dielectric barrier discharge plasma on the flow field in the wake of circular cylinder cross flow.
利用同轴介质阻挡辉光放电装置在大气压流动氩中产生了均匀的等离子体射流。
A uniform plasma plume is generated by using dielectric barrier discharge in a coaxial geommetry in flowing argon at one atmospheric pressure.
利用介质阻挡放电等离子体研究了水中2,4 -二氯苯酚的降解反应,并对其降解动力学进行了初步探讨。
The degradation behavior of 2, 4-dichlorophenol in water was studied by using dielectric barrier discharge plasma (DBD) and preliminary results of degradation kinetics were obtained.
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.
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.
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.
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.
在介质阻挡气体放电等离子体条件下,研究阻挡介质特性对NO脱除的影响规律。
The impact of dielectric characteristics on NO removal is studied under the presence of dielectric barrier discharge plasma.
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.
采用三种实验装置(介质阻挡放电装置、空心阴极放电装置和彭宁放电装置)分别测量了不同压强范围内氦等离子体的发射光谱。
The emission spectra of he plasma were measured by using three types of experiment devices: dielectric barrier discharge device, hollow-cathode discharge device and Penning discharge device.
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.
本文首先对比研究了两种以氧气作为放电气体的等离子体:电感式射频辉光等离子体(RF)和介质阻挡放电等离子体(DBD)氧化纳米炭黑的工艺。
Firstly, it was contrastively studied that the nanometer carbon black was oxidized by two kind of oxygen plasma: radio frequency discharge (RF) and dielectric barrier discharge (DBD).
研制了用于尾气净化的低温等离子体催化反应器,该反应器由介质阻挡放电型低温等离子发生器和金属蜂窝载体催化剂组成。
Cold plasma-catalytic reactor for exhaust purification was developed, where the reactor was consisted by two parts including dielectric barrier discharge system and metal honeycomb substrate catalyst.
进而,在自由基反应机理的基础上,分别建立了射频冷等离子体及介质阻挡放电冷等离子体下的甲烷转化动力学模型。
The kinetic models of methane converted in RFD plasma and DBD plasma were founded on the base of radical reaction mechanism.
文中分析了电晕放电、介质阻挡放电和电弧放电并叙述了大气压均匀辉光放电等离子体研究的最新进展。
This article provides the corona discharge, the dielectric barrier discharge, and the arc discharge. The recent efforts to obtain the homogenous atmospheric pressure glow discharge are also discussed.
介质阻挡放电(DBD)等离子体技术是一种能够在常压下产生低温等离子体的新兴等离子体技术,具有很好的工业应用前景。
Dielectric barrier discharge (DBD) plasma is a novel type of plasma that can be generated under atmospheric pressure, which can easily be scaled up to industrial dimensions.
在氧气浓度低于30%时,使用自冷却双介质阻挡等离子体反应器,氧气浓度、冷却水温度及放电频率等对H2O2合成有显著影响。
When the concentration of O2 is below 30%, the concentration of O2, cooling water temperature and discharge frequency all have significant effects on H2O2 synthesis.
本文利用介质阻挡放电等离子体技术,对以煤和生物质为代表的固态可燃物液化反应机理进行研究,以期探索能源利用新途径。
By DBD plasma technique, the liquefaction mechanism of solid burnable including coal and biomass was studied in the paper to explore a new way to utilize energy.
本文利用介质阻挡放电等离子体技术,对以煤和生物质为代表的固态可燃物液化反应机理进行研究,以期探索能源利用新途径。
By DBD plasma technique, the liquefaction mechanism of solid burnable including coal and biomass was studied in the paper to explore a new way to utilize energy.
应用推荐