Nanosecond Repetitively Pulsed Dielectric Barrier Discharge in Air at Atmospheric Pressure 被引量：3

Nanosecond Repetitively Pulsed Dielectric Barrier Discharge in Air at Atmospheric Pressure

下载PDF

导出

摘要 Dielectric barrier discharge （DBD） between two cylindrical glass containers with salt water generated by a nanosecond repetitively pulsed power generator is reported. The electrical parameters, luminous images and spectrum diagnosis are presented. It is shown that the DBD possesses a large discharge current and an intense optical emission from the nitrogen second positive system below 400 nm. The gas temperature remains very close to room temperature regardless of pulse polarity. Luminous photographs with a short exposure time down to 2 ns indicate that no filament is observed and the discharge is homogeneous. Dielectric barrier discharge （DBD） between two cylindrical glass containers with salt water generated by a nanosecond repetitively pulsed power generator is reported. The electrical parameters, luminous images and spectrum diagnosis are presented. It is shown that the DBD possesses a large discharge current and an intense optical emission from the nitrogen second positive system below 400 nm. The gas temperature remains very close to room temperature regardless of pulse polarity. Luminous photographs with a short exposure time down to 2 ns indicate that no filament is observed and the discharge is homogeneous.

作者邵涛章程牛铮于洋严萍周远翔

机构地区 Institute of Electrical Engineering Key Laboratory of Power Electronics and Electric Drive State Key Laboratory of Control and Simulation of Power Systems and Generating Equipment

出处《Plasma Science and Technology》 SCIE EI CAS CSCD 2011年第5期591-595,共5页 等离子体科学和技术（英文版）

基金 supported by National Natural Science Foundation of China (Nos. 50707032, 11076026) the Knowledge Innovation Program of the Chinese Academy of Sciences (No. KGCX2-YW-339) the National Basic Research Program of China (No. 2011CB209405) the State Key Laboratory of Control and Simulation of Power Systems and Generating Equipment in Tsinghua University (No. SKLD09KZ05)

关键词 dielectric barrier discharge nanosecond pulse homogeneous discharge atmospheric pressure air emission spectrum dielectric barrier discharge, nanosecond pulse, homogeneous discharge, atmospheric pressure air, emission spectrum

分类号 O437 [机械工程—光学工程] O461 [理学—电子物理学]

引文网络
相关文献

参考文献22

1Kogeleschatz U. 2003, Plasma Chem. Plasma Process., 23:1.
2Roth J R, Rahel J, Dai X, et al. 2005, J. Phys. D: Appl. Phys., 38:555.
3Zhang C, Shao T, Yu Y, et al. 2010, J. Electrostat., 68:445.
4Ren C, Wang D, Wang Y. 2008, Plasma Sci. Technol., 10:556.
5Akiyama H, Sakai S, Sakugawa T, et al. 2007, IEEE Trans. Dielectr. Electr. Insul., 14:I051.
6Shao T, Zhang C, Long K, et al. 2010, Chin. Phys. B, 19:040601.
7Mildren R P, Carman R J, Falconer I S. 2002, IEEE Trans. Plasma Sci., 30:192.
8Walsh J L, Kong M G. 2007, Appl. Phys. Lett., 91: 251504.
9Shao T, Long K, Zhang C, et al. 2009, J. Electrostat., 67:215.
10Shao T, Zhang C, Long K, et al. 2010, Appl. Surf. Sci., 256:3888.

同被引文献44

1杨驰,林烈,吴彬.滑动弧非平衡等离子体研究[J].核聚变与等离子体物理,2006,26(1):59-65. 被引量：4
2邵建设,严萍.高频高压交流电源应用于介质阻挡放电特性的研究[J].高电压技术,2006,32(3):78-80. 被引量：19
3Korolev Yury D, Frants Oleg B, Landl Nikolay V, et al. Glow- to-spark transitions in a plasma system for ignition and combus- tion control [J]. IEEE Transactions on Plasma Science, 2007, 35(6): 1651-1657.
4Starikovskaia S M. Plasma assisted ignition and eombustion[J]. Journal of Physics D: Applied Physics, 2006, 39(16) : 265-299.
5Dalaine V, Cormier J M, Lefaucheux P. A gliding discharge ap- plied to HaS destruction[J]. Journal of Applied Physics, 1998, 83(5) : 2435-2441.
6Czemichowski A. Gliding arc.. applications to engineering and environment control[J]. Pure and Applied Chemistry, 1994, 66 (6) : 1301-1310.
7Engel A Von,Seeliger R,Steenbeck M. On the glow discharge at high pressure[J]. Zeit Fuer Physic, 1933, 85: 144-160.
8Pai D Z, Stancu G D, Lacoste D A, et al. Nanosecond repeti- tively pulsed discharges in air at atmospheric pressure~ the glow regime[J]. Plasma Sources Science and Technology, 2009, 18(4): 1-7.
9Pai D Z, Lacoste D A, Laux C O. Transitions between corona, glow, and spark regimes of nanosecond repetitively pulsed dis- charges in air at atmospheric pressure[J]. Journal of Applied Physics, 2010, 107(9): 1-15.
10Shao Tao, Tarasenko Victor F, Zhang Cheng, et al. Spark discharge formation in an inhomogeneous electric field under conditions of runaway electron generation[J]. Journal of Ap- plied Physics, 2012, 111(2): 023304.

引证文献3

1邵涛,章程,于洋,方志,徐蓉,严萍.空气中纳秒脉冲均匀介质阻挡放电研究[J].高电压技术,2012,38(5):1045-1050. 被引量：31
2许家雨,章程,邵涛,段立伟,任成燕,严萍.大气压空气中尖-尖间隙60kHz高压放电实验研究[J].高电压技术,2012,38(7):1803-1808. 被引量：5
3阳鹏宇,唐坤,张鑫,赖庆仁.磁加速等离子体激励器激励特性[J].气体物理,2021,6(2):46-52.

二级引证文献36

1李军,吴韦韦,宋慧敏,贾敏,金迪.静止空气中重频脉冲火花放电等离子体的气动激励特性[J].高电压技术,2013,39(7):1563-1568. 被引量：2
2REN Chengyan RAN Huijuan WANG Jue WANG Tao YAN Ping.Investigation of Nanosecond Pulsed Discharge and Its Audio Characteristics in Atmospheric-pressure Air[J].高电压技术,2013,39(8):2038-2044. 被引量：1
3Sergey B. Alekseev,Mikhail I. Lomaev,Dmitry V. Rybka,V. F. Tarasenko,SHAO Tao,ZHANG Cheng,YAN Ping.Generation of Runaway Electrons in Atmospheric Pressure Air Under 30-200 kV Voltage Pulses of Rise Time 1.5 ns[J].高电压技术,2013,39(9):2112-2118. 被引量：2
4ZHANG Dongdong,ZHOU Yuan,WANG Jue,SHAO Tao,YAN Ping.Nanosecond Pulse Generators Based on Magnetic Pulse Compression System[J].高电压技术,2013,39(9):2216-2221. 被引量：1
5DAI Dong,WANG Qiming.Effect of Driving AC Voltage Frequency on Breakdown Voltage in Dielectric Barrier Discharge at Atmospheric Pressure in Helium[J].高电压技术,2013,39(9):2235-2240. 被引量：1
6LI Jie XIE Yutong DONG Pan MA Bing WANG Liming ZHANG Linwen.Experimental Investigation of Dielectric Barrier Discharge Using High Voltage Sub-microsecond Pulse Power in Atmospheric Air[J].高电压技术,2013,39(9):2280-2287. 被引量：1
7DONG Pan LI Jie LI Xi XIE Yutong LONG Jidong ZHANG Linwen.Spectroscopic Diagnostics of Rotational Temperature in the Pulsed Atmospheric Air Plasma[J].高电压技术,2013,39(10):2568-2572.
8倪章松,李国强,高超.介质阻挡面放电等离子体流动控制研究进展[J].真空与低温,2014,20(1):9-15. 被引量：3
9车学科,聂万胜,田希晖,侯志勇,程钰锋,周鹏辉.SDBD等离子体中正、负离子的动量传递效率[J].高电压技术,2014,40(4):1222-1228. 被引量：7
10顾信鹏,方志,钱晨.NaOH对苯胺气液两相介质阻挡放电特性的影响[J].强激光与粒子束,2014,26(7):274-280. 被引量：6

1王战,任春生,聂秋月,王德真.Effects of Airflows on Dielectric Barrier Discharge in Air at Atmospheric Pressure[J].Plasma Science and Technology,2009,11(2):177-180. 被引量：3
2吕晓桂,任春生,马腾才,朱海龙,王德真.The Effect of the Quartz Tube on the Appearance of Nanosecond Pulsed Discharge in Air[J].Plasma Science and Technology,2010,12(2):177-180.
3松贵年.浅谈电子管的诞生和工作原理[J].无线电,2015,0(3):67-70.
4大泼皮.残缺的密码条[J].智力（提高版）,2017,0(1):17-17.
5Sergey Efimov Kalman Gruzinski Svetlana Gleizer Yakov E. Krasik.Design and Performances of High-Current Modular Pulsed Power[J].Journal of Energy and Power Engineering,2013,7(7):1394-1397.
6沈小英.用替代法分析漂浮物的相对运动[J].数理天地（高中版）,2009(1):30-30.
7使用YAG和YSGG晶体的钬重复脉冲激光器[J].国外激光,1994(10):13-14.
8激光器[J].电子科技文摘,1999(12):28-29.
9刘松,葛小荣.理解功率MOSFET的UIS及雪崩能量[J].今日电子,2010(4):52-54. 被引量：6
10于建,黄超,倪文俊,张欣玫,赵玉强,李世忱,吴敢,陈学康.10J/0.4ms重复脉冲Nd:YAG激光器[J].光电子．激光,1999,10(4):298-300.

Plasma Science and Technology

2011年第5期

浏览历史

内容加载中请稍等...

Nanosecond Repetitively Pulsed Dielectric Barrier Discharge in Air at Atmospheric Pressure 被引量：3

参考文献22

同被引文献44

引证文献3

二级引证文献36

相关作者

相关机构

相关主题

浏览历史