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A comparative study on the spectral characteristics of nanosecond pulsed discharges in atmospheric He and a He+2.3%H_(2)O mixture
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作者 陈传杰 彭东宇 +4 位作者 刘博通 张婷琳 钱沐杨 周锋 王如刚 《Plasma Science and Technology》 SCIE EI CAS CSCD 2024年第6期22-30,共9页
Nanosecond pulsed discharges at atmospheric pressure in a pin-to-pin electrode configuration are well reproducible in time and space, which is beneficial to the fundamentals and applications of low-temperature plasmas... Nanosecond pulsed discharges at atmospheric pressure in a pin-to-pin electrode configuration are well reproducible in time and space, which is beneficial to the fundamentals and applications of low-temperature plasmas. In this experiment, the discharges in helium(He) and He with 2.3%water vapor(H_(2)O) are driven by a series of 10 ns overvoltage pulses(~13 k V). Special attention is paid to the spectral characteristics obtained in the center of discharges by time-resolved optical emission spectroscopy. It is found that in helium, the emission of atomic and molecular helium during the afterglow is more intense than that in the active discharge, while in the He+2.3%H_(2)O mixture, helium emission is only observed during the discharge pulse and the molecular helium emission disappears. In addition, the emissions of OH(A-X) and Hα present similar behavior that increases sharply during the falling edge of the voltage pulse as the electrons cool down rapidly. The gas temperature is set to remain low at 540 K by fitting the OH(A-X) band. A comparative study on the emission of radiative species(He, He_(2), OH and H)is performed between these two discharge cases to derive their main production mechanisms. In both cases, the dominant primary ion is He^(+) at the onset of discharges, but their He^(+) charge transfer processes are quite different. Based on these experimental data and a qualitative discussion on the discharge kinetics, with regard to the present discharge conditions, it is shown that the electron-assisted three-body recombination processes appear to be the significant sources of radiative OH and H species in high-density plasmas. 展开更多
关键词 nanosecond repetitively pulsed discharge helium and water vapor optical emission spectroscopy atmospheric pressure micro-discharge kinetics
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Spatiotemporal characteristics of nanosecond pulsed discharge in an extremely asymmetric electric field at atmospheric pressure
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作者 Li ZHANG Dezheng YANG +1 位作者 Sen WANG Wenchun WANG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2017年第6期38-44,共7页
In this paper,high resolution temporal-spatial diagnostics are employed to research the optical characteristics of nanosecond pulsed dielectric barrier discharge in needle-plate electrode configuration.Temporal-spatia... In this paper,high resolution temporal-spatial diagnostics are employed to research the optical characteristics of nanosecond pulsed dielectric barrier discharge in needle-plate electrode configuration.Temporal-spatial distributions of discharge images,the emission intensities of optical emission spectra,and plasma vibrational and rotational temperatures are investigated.By analyzing the evolution of vibrational and rotational temperatures in space and time dimensions,the energy distribution and energy transfer process in plasma are also discussed.It is found that a diffuse structure with high density plasma concentrated in the region near the needle tip can be presented in nanosecond pulsed discharge,and an obvious energy transfer from electronic energy to vibration energy can be observed in each discharge pulse. 展开更多
关键词 nanosecond pulsed discharge spatiotemporal emission spectrum reduced electric field breakdown mechanism
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The Effect of the Quartz Tube on the Appearance of Nanosecond Pulsed Discharge in Air
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作者 吕晓桂 任春生 +2 位作者 马腾才 朱海龙 王德真 《Plasma Science and Technology》 SCIE EI CAS CSCD 2010年第2期177-180,共4页
An experimental investigation of a nanosecond pulsed dielectric barrier discharge in atmospheric air is presented. In the setup a quartz tube was inserted between the cone and plane electrodes in the direction paralle... An experimental investigation of a nanosecond pulsed dielectric barrier discharge in atmospheric air is presented. In the setup a quartz tube was inserted between the cone and plane electrodes in the direction parallel to the electric field. It was shown that the appearance and property of the discharge were sensitive to the size and the position of the quartz tube. When the tube was placed on the grounded plane electrode, the discharge intensity was found to improve gradually with the increase in the diameter of the quartz tube. Furthermore, with an appropriate distance between the bottom edge of the quartz tube and the plane electrode, the discharge tended to exhibit better performance in generating homogeneous diffusive plasma. The possible mechanism is discussed. 展开更多
关键词 nanosecond pulsed dielectric barrier discharge atmospheric air homogeneous diffuse plasma
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Effects of the transverse electric field on nanosecond pulsed dielectric barrier discharge in atmospheric airflow 被引量:1
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作者 Yongfeng XU Hongfei GUO +2 位作者 Yuying WANG Zhihui FAN Chunsheng REN 《Plasma Science and Technology》 SCIE EI CAS CSCD 2020年第5期52-62,共11页
In this paper,an asymmetric electrode geometry(the misalignment between the ends of highvoltage and grounded electrodes)is proposed in order to investigate the effects of the transverse electric field on nanosecond pu... In this paper,an asymmetric electrode geometry(the misalignment between the ends of highvoltage and grounded electrodes)is proposed in order to investigate the effects of the transverse electric field on nanosecond pulsed dielectric barrier discharge(DBD).The results show that diffuse discharge manifests in the misaligned region and the micro-discharge channel in the aligned region moves directionally.Moreover,the diffuse discharge area increases with the decrease of the discharge gap and pulse repetition frequency,which is consistent with the variation of the moving velocity of the micro-discharge channel.When airflow is introduced into the discharge gap in the same direction as the transverse electric field,the dense filamentary discharge region at the airflow inlet of asymmetric electrode geometry is larger than that of symmetric electrode geometry.However,when the direction of the airflow is opposite to that of the transverse electric field,the dense filamentary discharge region of asymmetric electrode geometry is reduced.The above phenomena are mainly attributed to the redistribution of the space charges induced by the transverse electric field. 展开更多
关键词 dielectric barrier discharge HIGH-VOLTAGE atmospheric pressure air AIRFLOW lowtemperature plasma nanosecond pulsed discharge
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Simulation of the spatio-temporal evolution of the electron energy distribution function in a pulsed hollow-cathode discharge
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作者 N A ASHURBEKOV K O IMINOV +3 位作者 K M RABADANOV G S SHAKHSINOV M Z ZAKARYAEVA M B KURBANGADZHIEVA 《Plasma Science and Technology》 SCIE EI CAS CSCD 2023年第3期87-94,共8页
This article presents the 2D simulation results of a nanosecond pulsed hollow cathode discharge obtained through a combination of fluid and kinetic models.The spatio-temporal evolution of the electron energy distribut... This article presents the 2D simulation results of a nanosecond pulsed hollow cathode discharge obtained through a combination of fluid and kinetic models.The spatio-temporal evolution of the electron energy distribution function(EEDF)of the plasma column and electrical characteristics of the nanosecond pulsed hollow cathode discharge at a gas pressure of 5 Torr are studied.The results show that the discharge development starts with the formation of an ionization front at the anode surface.The ionization front splits into two parts in the cathode cavity while propagating along its lateral surfaces.The ionization front formation leads to an increase in the fast isotropic EEDF component at its front,as well as in the anisotropic EEDF component.The accelerated electrons enter the cathode cavity,which significantly contributes to the formation of the highenergy EEDF component and EEDF anisotropy. 展开更多
关键词 pulsed nanosecond discharge electron energy distribution fuinction hollow cathode electron kinetics gas discharge
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Discharge characteristics and reactive species production of unipolar and bipolar nanosecond pulsed gas–liquid discharge generated in atmospheric N2
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作者 Jianping LIANG Xiongfeng ZHOU +4 位作者 Zilu ZHAO Hao YUAN Hongli WANG Wenchun WANG Dezheng YANG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2021年第9期123-134,共12页
In this paper,unipolar pulse(including positive pulse and negative pulse)and bipolar pulse voltage are employed to generate diffuse gas–liquid discharge in atmospheric N2with a rumpetshaped quartz tube.The current–v... In this paper,unipolar pulse(including positive pulse and negative pulse)and bipolar pulse voltage are employed to generate diffuse gas–liquid discharge in atmospheric N2with a rumpetshaped quartz tube.The current–voltage waveforms,optical emission spectra of excited state active species,FTIR spectra of exhaust gas components,plasma gas temperature,and aqueous H2O2,NO2-,andNO3-production are compared in three pulse modes,meanwhile,the effects of pulse peak voltage and gas flow rate on the production of reactive species are studied.The results show that two obvious discharges occur in each voltage pulse in unipolar pulse driven discharge,differently,in bipolar pulse driven discharge,only one main discharge appears in a single voltage pulse time.The intensities of active species(OH(A),and O(3p))in all three pulsed discharge increase with the rise of pulse peak voltage and have the highest value at 200 ml min-1of gas flow rate.The absorbance intensities of NO2and N2O increase with the increase of pulse peak voltage and decrease with the increase of gas flow rate.Under the same discharge conditions,the bipolar pulse driven discharge shows lower breakdown voltage,and higher intensities of excited species(N2(C),OH(A),and O(3p)),nitrogen oxides(NO2,NO,and N2O),and higher production of aqueous H2O2,NO2-,andNO3-compared with both unipolar positive and negative discharges. 展开更多
关键词 nanosecond pulse discharge gas-liquid discharge optical emission spectra reactive species FTIR spectra
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Spatial characteristics of nanosecond pulsed micro-discharges in atmospheric pressure He/H2O mixture by optical emission spectroscopy
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作者 Chuanjie Chen Zhongqing Fang +3 位作者 Xiaofang Yang Yongsheng Fan Feng Zhou Rugang Wang 《Chinese Physics B》 SCIE EI CAS CSCD 2022年第2期480-488,共9页
Atmospheric pressure micro-discharges in helium gas with a mixture of 0.5%water vapor between two pin electrodes are generated with nanosecond overvoltage pulses.The temporal and spatial characteristics of the dischar... Atmospheric pressure micro-discharges in helium gas with a mixture of 0.5%water vapor between two pin electrodes are generated with nanosecond overvoltage pulses.The temporal and spatial characteristics of the discharges are investigated by means of time-resolved imaging and optical emission spectroscopy with respect to the discharge morphology,gas temperature,electron density,and excited species.The evolution of micro-discharges is captured by intensified CCD camera and electrical properties.The gas temperature is diagnosed by a two-temperature fit to the ro-vibrational OH(A^(2)Σ^(+)–X^П(2),0–0)emission band and is found to remain low at 425 K during the discharge pulses.The profile of electron density performed by the Stark broadening of Ha 656.1-nm and He I 667.8-nm lines is uniform across the discharge gap at the initial of discharge and reaches as high as 10^(23)m^(-3).The excited species of He,OH,and H show different spatio-temporal behaviors from each other by the measurement of their emission intensities,which are discussed qualitatively in regard of their plasma kinetics. 展开更多
关键词 atmospheric pressure micro-discharges nanosecond repetitively pulsed discharge HELIUM optical emission spectroscopy
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Experimental investigation of nanosecond discharge plasma aerodynamic actuation 被引量:2
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作者 吴云 李应红 +2 位作者 贾敏 梁华 宋慧敏 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第4期401-405,共5页
In this paper we report on an experimental study of the characteristics of nanosecond pulsed discharge plasma aerodynamic actuation. The N2 (C3IIu) rotational and vibrational temperatures are around 430 K and 0.24 e... In this paper we report on an experimental study of the characteristics of nanosecond pulsed discharge plasma aerodynamic actuation. The N2 (C3IIu) rotational and vibrational temperatures are around 430 K and 0.24 eV, respectively. The emission intensity ratio between tile first negative system and the second positive system of N2, as a rough indicator of the temporally and spatially averaged electron energy, has a minor dependence on applied voltage amplitude. The induced flow direction is not parallel, but vertical to the dielectric layer surface, as shown by measurements of body force, velocity, and vorticity. Nanosecond discharge plasma aerodynamic actuation is effective in airfoil flow separation control at freestream speeds up to 100 m/s. 展开更多
关键词 plasma aerodynamic actuation nanosecond pulsed discharge plasma flow control opti- cal emission spectra
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Volume added surface barrier discharge plasma excited by bipolar nanosecond pulse power in atmospheric air: optical emission spectra influenced by gap distance
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作者 Zilu ZHAO Dezheng YANG +3 位作者 Wenchun WANG Hao YUAN Li ZHANG Sen WANG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第11期84-89,共6页
In this paper, volume barrier discharge with different gap distances is added on the discharge border of high-voltage electrode of annular surface barrier discharge for generating volume added surface barrier dischar... In this paper, volume barrier discharge with different gap distances is added on the discharge border of high-voltage electrode of annular surface barrier discharge for generating volume added surface barrier discharge (V-SBD) excited by bipolar nanosecond high-voltage pulse power in atmospheric air. The excited V-SBDs consist of surface barrier discharge (d = 0 mm) and volume added surface barrier discharges (d = 2 mm and 3 mm). The optical emission spectra are recorded for calculating emission intensities of N2 (C3 ∏u → B3∏g) and N2+ (B2 ∑u+ → X2 ∑g+), and simulating rotational and vibrational temperatures. The influences of gap distance of V-SBD on emission intensity and plasma temperature are also investigated and analyzed. The results show that d = 0 mm structure can excite the largest emission intensity of N2 (C3 ∏u → B3 ∏g), while the existence of volume barrier discharge can delay the occurrence of the peak value of the emission intensity ratio of N2 + (B2 ∑u+ → X2 ∑+g)/N2 (C3 ∏u → B3 ∏g) during the rising period of the applied voltage pulse and weaken it during the end period. The increasing factor of emission intensity is effected by the pulse repetition rate. The d = 3 mm structure has the highest threshold voltage while it can maintain more emission intensity of N2 (C3 ∏u→ B3∏g) than that of d = 2 mm structure. The structure of d = 2 mm can maintain more increasing factor than that of the d = 3 mm structure with varying pulse repetition rate. Besides, the rotational temperatures of three V-SBD structures are slightly affected when the gap distance and pulse repetition rate vary. The vibrational temperatures have decaying tendencies of all three structures with the increasing pulse repetition rate. 展开更多
关键词 surface barrier discharge (SBD) volume barrier discharge (VBD) nanosecond pulsed discharge optical emission spectra atmospheric discharge
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Spectroscopic study of bipolar nanosecond pulse gas-liquid discharge in atmospheric argon
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作者 Sen WANG Dezheng YANG +2 位作者 Feng LIU Wenchun WANG Zhi FANG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2018年第7期121-126,共6页
Atmospheric gas-liquid discharge with argon as a working gas is presented by employed nanosecond pulse power. The discharge is presented in a glow-like mode. The discharge powers are determined to be less than 1 W, an... Atmospheric gas-liquid discharge with argon as a working gas is presented by employed nanosecond pulse power. The discharge is presented in a glow-like mode. The discharge powers are determined to be less than 1 W, and remains almost constant when the discharge duration time increases. Bountiful active species are determined by capturing optical emission spectra, and their main generation processes are also discussed. The plasma gas temperature is calculated as 350 K by comparing the experimental spectra and the simulated ones of N2(C3Ⅱg→B3Ⅱg, △v=-2). The time resolved vibrational and rotational temperature is researched to present the stability of discharge when pulse voltage and discharge duration vary. The electron density is determined to be 1016 cm-3 according to the Stark broadening effect of the Ha line. 展开更多
关键词 nanosecond pulse discharge gas-liquid discharge optical emission spectra electron density
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Effect of Airflows on Repetitive Nanosecond Volume Discharges
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作者 唐井峰 魏立秋 +3 位作者 霍玉鑫 宋健 于达仁 张潮海 《Plasma Science and Technology》 SCIE EI CAS CSCD 2016年第3期273-277,共5页
Atmospheric pressure discharges excited by repetitive nanosecond pulses have at- tracted significant attention for various applications. In this paper, a plate-plate discharge with airflows is excited by a repetitive ... Atmospheric pressure discharges excited by repetitive nanosecond pulses have at- tracted significant attention for various applications. In this paper, a plate-plate discharge with airflows is excited by a repetitive nanosecond pulse generator. Under different experiment con- ditions, the applied voltages, discharge currents, and discharge images are recorded. The plasma images presented here indicate that the volume discharge modes vary with airflow speeds, anda diffuse and homogeneous volume discharge occurs at the speed of more than 35 m/s. The role of airflows provides different effects on the 2-stage pulse discharges. The 1st pulse currents nearly maintain consistency for different airflow speeds. However, the 2nd pulse current has a change trend of first decreasing and then rapidly increasing, and the value difference for 2nd pulse cur- rents is about 20 A under different airflows. In addition, the experimental results are discussed according to the electrical parameters and discharge images. 展开更多
关键词 volume discharge AIRFLOW repetitive nanosecond pulse discharge
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Simulations and Measurement of Electron Energy and Effective Electron Temperature of Nanosecond Pulsed Argon Plasma
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作者 WEN Xueqing XIN Yu +1 位作者 FENG Chunlei DING Hongbin 《Plasma Science and Technology》 SCIE EI CAS CSCD 2012年第1期40-47,共8页
The behavior of argon plasma driven by nanosecond pulsed plasma in a low-pressure plasma reactor is investigated using a global model, and the results are compared with the experimental measurements. The time evolutio... The behavior of argon plasma driven by nanosecond pulsed plasma in a low-pressure plasma reactor is investigated using a global model, and the results are compared with the experimental measurements. The time evolution of plasma density and the electron energy probability function are calculated by solving the energy balance and Boltzmann equations. During and shortly after the discharge pulse, the electron energy probability function can be represented by a bi-Maxwellian distribution, indicating two energy groups of electrons. According to the effective electron temperature calculation, we find that there are more high-energy electrons that play an important role in the excitation and ionization processes than low-energy electrons. The effective electron temperature is also measured via optical emission spectroscopy to evaluate the simulation model. In the comparison, the simulation results are found to be in agreement with the measure- ments. Furthermore, variations of the effective electron temperature are presented versus other discharge parameters, such as pulse width time, pulse rise time and gas pressure. 展开更多
关键词 effective electron temperature model optical emission spectrum nanosecond pulsed glow discharge GLOBAL
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A model for Nanosecond Pulsed Dielectric Barrier Discharge(NSDBD)actuator and its investigation on the mechanisms of separation control over an airfoil 被引量:10
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作者 CHEN ZhenLi HAO LinZhao ZHANG BinQian 《Science China(Technological Sciences)》 SCIE EI CAS 2013年第5期1055-1065,共11页
In order to simulate the flow control problem by using Nanosecond Pulsed Dielectric Barrier Discharge(NSDBD),a one-zone inhomogeneous phenomenological model is constructed based on the experimental and theoretical res... In order to simulate the flow control problem by using Nanosecond Pulsed Dielectric Barrier Discharge(NSDBD),a one-zone inhomogeneous phenomenological model is constructed based on the experimental and theoretical results.The model is coupled with the unsteady Navier-Stokes equations,which can well predict the compression-expansion wave structures and wave speed compared with experimental results and can be applied to the simulation of the flow control by using NSDBD.The model is adopted to investigate the separation control over NACA0015 airfoil using the NSDBD plasma actuator.The separation-control mechanisms are revealed that the spanwise vortices produced by the plasma actuation play the key role.Each plasma actuation can produce a spanwise vortex around the separation point near the leading edge.The spanwise vortices make the separated free-shear layer unstable and shed away,move downstream along the upper wall,control the flow near the wall,and bring outer flow with high kinetic energy into the near wall region to realize the effective separation control over the upper surface of the airfoil. 展开更多
关键词 PLASMA nanosecond pulsed Dielectric Barrier discharge (NSDBD) flow control flow separation numerical simulation
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