介质阻挡放电

介质阻挡放电和介质阻挡电晕放电灭菌效果的试验研究

Experimental Research on Inactivation Bacteria Effect of DBD and DBCD

介质阻挡放电系统中谐振问题的研究

Study on resonance problem of DBD device

Air（初三适用）大气压介质阻挡放电中微放电特性研究

Study on the Filamentary Characteristic of Dielectric Barrier Discharge in Air

甲烷参与下催化剂填充型介质阻挡放电等离子体脱除NOx

NO_x Removal in Catalyst-Pellet-Filled Dielectric Barrier Discharge Plasma with Methane Additive

基于介质阻挡放电NOx去除的仿真和实验研究

Simulation and Experiment of NO_x Removal Based on Discharge Barrier Discharge

介质阻挡放电产生低温等离子体除去NOx的实验研究

Experimental Research on NOx Removal by Non-thermal Plasma Using Dielectric Barrier Discharge

N2介质阻挡放电中有效电场的光谱测定

Determination of Net Electric Field in Dielectric Barrier Discharge in N_2 by Relative Spectrum Line Intensity

介质阻挡放电与直流辉光放电中OH自由基的光谱诊断

The Optical Diagnosis of OH Radical Produced in Dielectric Barrier Discharge and DC Glow Discharge

结果表明：在介质阻挡放电等离子体作用下CO主要转化为CO2；

Experimental results showed that CO was mostly converted to CO 2 under dielectric barrier discharge plasma .

介质阻挡放电净化汽车尾气NOX和HC的应用研究

Application Dielectric Barrier Discharge to the Removal of NO_X and HC from Automobile Engine

介质阻挡放电（dielectricbarrierdischarge，DBD）方法能够在大气压条件下产生非平衡等离子体。

Non-equilibrium plasma can be generated by dielectric barrier discharge ( DBD ) at atmospheric pressure .

介质阻挡放电（dielectricbarrierdischarge）目前已广泛应用于许多领域，并具有十分广阔的发展前景。

Dielectric Barrier Discharge ( DBD ) is now widely used in many areas , with very broad development prospects .

介质阻挡放电治理内燃机尾气NOx的实验研究

Studies on the Reduction of NOx from Exhaust Gas with Dielectric Barrier Discharge Plasma

设计了一种管-环式电极结构的大气压沿面介质阻挡放电Ar冷等离子射流装置。

An atmospheric-pressure Ar cold plasma jet is developed with tube-ring electrodes in surface dielectric barrier discharge .

介质阻挡放电降解环境污染物CF2ClBr的等离子体系电子密度

Density of the plasma electron in the decomposition of pollutant cf_2clbr by DBD method

介质阻挡放电技术去除柴油机NOx、HC和PM排放物

Simultaneous Removals of NOx , HC and PM From Diesel Exhaust Emissions by Dielectric Barrier Discharges

介质阻挡放电常压低温等离子体转化甲烷制C2及高碳烃的研究

Methane Conversion to C2 and Higher Hydrocarbons via Dielectric-Barrier Discharge Plasma at Atmospheric Pressure

其中，介质阻挡放电电压和NH3进料气速的影响最大。

Among them , the voltage and flow rate of NH3 are the most important factor .

介质阻挡放电将成为治理内燃机尾气NOx的有效新方法。

Treating NOx exhaust gas with dielectric barrier discharge will become one of the most effective method in the future .

实验研究了在He、Ne、Ar中低气压低频介质阻挡放电的击穿特性。

Breakdown characteristics of the low-frequency dielectric barrier discharge ( DBD ) at low pressure are investigated experimentally in He , Ne and Ar.

结合CCD摄像技术和介质阻挡放电照相原理的一种人体指纹提取方法，讨论了基本原理，介绍了指纹传感器的基本结构，给出了用动态法和静态法获得的指纹图像。

The fingerprint photos photographed by dynamic and static state methods are given based on the principle of dielectric barrier discharge and CCD images in this paper .

已有许多技术被开发用于控制VOCs，其中之一为介质阻挡放电（DBD）技术降解VOCs。

Many technologies including dielectric barrier discharge plasma ( DBD ) have been developed for removal of VOCs .

因为DBD（dielectricbarrierdischarge）介质阻挡放电所产生的等离子体具有面积大且稳定的优点尤其适合于工程化应用。

Because DBD ( Dielectric Barrier Discharge ) has great advantage such as large area and stable plasma production , it has been widely used in industry application .

介质阻挡放电电路参数测量的改进型Lissajous图形法

New Type Lissajous Figure Measurement Method for Dielectric Barrier Discharge Circuit

选择介质阻挡放电等离子体表面改性为手段，研究了聚四氟乙烯（PTFE）经改性后与丙烯酸脂橡胶的粘合。

According to industrial demand , adhesion between PTFE and acrylic rubber was studied with the method of DBD discharge processing in this paper .

本研究首先用交流高压电驱动的介质阻挡放电（DBD，dielectricbarrierdischarge）来产生等离子体放电分解模拟空气中苯。

The experiment was carried out using a dielectric barrier discharge ( DBD ) reactor driven by alternative current ( AC ) voltage power to remove benzene in air .

实验结果表明，介质阻挡放电可以比较高效地去除NO，产物是N2和O2。

The experiment results indicate that NO can be highly efficiently removed by dielectric barrier discharges and the products are N2 and O2 .

本次实验研究了强电离介质阻挡放电方法脱除烟气中的SO2，将其直接氧化成雾状H2SO4微粒，认为强电离介质阻挡放电脱硫方法是一种很有前景的方法。

The removal of SO_2 from flue is experimentally investigated by the strong ionization discharge of barrier discharge .

利用Lissajous图形计算介质阻挡放电参数

Calculation of dielectric barrier discharge parameters using lissajous diagram

物理描述以实验中所观察到的现象为依据，以介质阻挡放电的相关理论为线索，从感性的角度展现了DBD介质阻挡放电的物理特征。

Physics description illustrates vivid image of discharge characteristic based on observation of experiment phenomenon and dielectric barrier discharge theory .