大气压针板介质阻挡放电中微流注、电晕和辉光放电相互转换研究（英文）

To discuss the modes of dielectric barrier discharge(DBD) between needle-to-plane electrodes in air,DBD is generated and observed on a needle-to-plane device at atmospheric pressure air.Fast images of the DBD are taken by using a charge couple device(CCD) cinema with a macro lens,while the electrical and photo-electricity waveforms of the DBD are recorded.The current waveforms show that under an applied voltage of 3 kV,there are numerous short current pulses in both positive and negative half-periods of discharges.However,under 6 kV,there are still the numerous short current pulses in the positive half-periods,but only one wide current pulse in each negative half-period.This difference is also found in the photoelectric signals.The streamer,corona and glow discharges are observed from the images of the discharges at different applied voltages.The structure of glow discharge in the negative period is exactly the same as that of the low pressure glow discharge.However,in the positive period of discharge there is always a streamer.In the negative period of discharge,while the applied voltage increases,the transition from corona to glow discharge is observed.The progress of a transition between streamer and glow discharge at 6 kV during one period is analyzed.The glow discharge appearance is determined by two factors: the discharge current is limited to a certain extent by the dielectric layer; the charges deposited on the dielectric layer during the last half period enhance the intensity of the electric field.At an insufficient applied voltage,the cathode drop leads to no glow discharge,but Trichel pulses.     

基于UV检测的UHV输电线路起晕电压的试验研究(英文)

Corona discharge is being detected by UV imaging detection technology at home and abroad in recent years.This technology is used in the corona tests of conductor bundles in this paper.In order to further research the corona characteristic,optimize geometry parameters and diameter of sub-conductor,and increase corona onset voltage of transmission lines,corona tests of three model conductors which are placed inside the outdoor corona cage are conducted.Corona cage could be used to simulate the corona activities on transmission lines under a low voltage and different conditions in an effective and economical way.Photon which was created by UV light as a result of corona discharge on conductors is detected by the UV detection apparatus.The photon number within unit interval,namely photon counting rate is adopted as the parameter of quantifying the intensity of corona discharge.According to the apparent change of photon number,corona onset voltage can be judged.All tests are conducted under almost same atmosphere condition.Using the method,corona onset voltage is acquired.The results indicate that the tests have a good repeatability,in other words,repeating same test twice same result can be aquired.The corona onset voltage can be acquired exactly from the curve of applied voltage vs.photon counting rate.Therefore UV detection apparatus can not only used to find discharge point exactly,but also applied on corona discharge research and live detection for power equipments.The method using in this paper is proved that is a new available method.     

针水电极电晕放电中的离子风风压分布(英文)

The negative DC corona discharge in air at atmospheric pressure was investigated in a needle-to-water system to obtain the pressure distribution of corona ionic wind.The deformation of water surface was measured and the distribution of wind pressure over the water surface was calculated.The effects of varying discharge parameters,such as applied voltage,gap spacing,tip radius of needle,and the shape of grounded electrode,on the wind pressure were studied.The measured wind pressure ranges from several Pa to several tens of Pa and up to 33 Pa over a small area;the pressure is comparatively large in the center and decreases quickly outwards.In the experiment system,a higher voltage on a 3 mm gap resulted in a stronger pressure of the ionic wind;around the onset voltage,using a needle with tip radius of 50μm obtained a larger wind pressure than using a needle with 100μm tip radius,but the latter one can produce larger pressure at higher voltages.Plus,the shape of the grounded electrode only influences the wind pressure a little.     

空气中电晕放电与绝缘液体中流注放电的测量和分析(英文)

Insulation is one of the most important parts in a high voltage equipment.There are gaseous,liquid and solid insulations which are commonly used.In a high voltage transformer for example the insulating materials are all used.During operation of a high voltage equipment high electric stress may occur.Under extreme condition failure of the insulation may take place.Excessive electric field in air may cause corona discharges while in liquid insulation discharges may take place in the form of streamer.This paper reports experimental results on the corona and streamer discharges in air and silicone oil.The discharges were artificially generated around a needle tip in a needle-plane electrode system with gap length of 4 mm under sinusoidal and triangular voltages.The needle was made of steel with tip radius of 3 μm and curvature angle of 30°.The needle was made by Ogura Jewelry.The discharge pulses were measured using personal-computer based partial discharge(PD)measurement system with sensitivity of better than 0.5 pC.The system is able to measure discharge in time sequential.Phase-resolved analysis of the discharges was done to interpret the physical processes behind the discharges.The experimental results showed that corona discharges took place at negative half cycles.The discharges were concentrated around 270° of phase angle of applied voltage.The discharge magnitude and discharge number of corona clearly dependent on the instantaneous of applied voltage.These were strongly supported by the application of triangular voltage.Streamer discharges occurred at both positive and negative half cycles.The discharges pulses concentrated around the peak of applied voltage at phase angle of 90° and 270°.Experimental results under sinusoidal and triangular voltages revealed that streamer discharge magnitude as well as probability of occurrence was strongly dependent on the instantaneous applied voltage.     

振荡冲击电压下典型绝缘模型局部放电解析(英文)

The aim of this paper was to give an overview on partial discharges under oscillating impulse voltage.Three models(void in solid,needle-plate in air and oil) were presented,which describe the stochastic discharge process and represent internal discharges in solids and corona in air or silicon oil.Moreover,an air cored Rogowski coil and a sampling resistor for partial discharge(PD) measurement were developed and introduced in this paper.PD inception and extinction voltages(PDIV,PDEV) under single oscillating impulse voltage and AC voltage were investigated with different test samples.Experimental results firstly revealed that the PD inception voltage(PDIV) decreased with increasing applied voltage;secondly the PD inception voltage for three different insulating materials,showed an escalating trend with increasing frequency of the applied voltage.It was proven that the characteristics of PD under oscillating impulse voltage were identical to the features under AC voltage,which could be measured with the phase resolved partial discharge analysis(PRPDA) technique.Based on the reorganization and analysis of PDs under oscillating impulse voltage,the information about insulation defects was extracted from the measured data and used for estimating the risk of insulation failure of the equipment.     

大气压氦气与氩气等离子体射流形成机理的对比研究(英文)

To compare the formation mechanisms of He and Ar atmospheric pressure plasma jets(APPJs),an intensified charge-coupled device(ICCD)are utilized to observe the dynamic process of APPJ.The experimental results show that,He APPJ is first ignited,which is independent of the dielectric barrier discharge(DBD)between the two wrapped electrodes when the high voltage placed at the downstream.The intensity and APPJ length under positive discharge pulses are bigger than that under negative discharge pulses due to the space charge effect.The He APPJ is formed by the DBD development when the high-voltage electrode placed at the upstream side of tube.However,the plasma plume in Ar APPJ is formed by the propagation of DBD whatever the high-voltage electrode is arranged on upstream or downstream side of ground electrode.The difference in formation mechanism between He and Ar APPJs is mainly caused by the gas properties.Moreover,during the discharges,Ar tends to lead to thermal instability and electron Maxwellian instability.     

±1000kV特高压直流输电系统设备电晕特性(英文)

Corona performance is an important factor should be taken into consideration in power transmission project designs.Power equipments operate in various environments which will affect their corona inception voltages and thus influence the operation safety of transmission systems.In this paper,corona characteristic tests of bus bars,shielding rings,simulated eight-bundled conductors,and insulators were carried out in areas with different altitudes up to 4 300 m.Simulation tests of environmental factors were carried out in a HVDC corona cage.Based on site tests,it is concluded that corona inception voltages of both bus bar and shielding ball increase with their height to the ground or their dimensions.The influences of water droplet,wind,icing and surface contamination on corona inception voltage were also obtained from the simulation tests.The corona inception voltage of mist is higher than that in saturated water droplets.Conductivity of precipitation has little impact on corona discharges.Corona inception voltage decrease with increasing wind speed.The influence on corona current of glaze is the biggest,and that of hard rime is more than that of soft rime.The impact of pollution material on corona discharge depends on the size of pollution particle.Test results obtained in this paper are solid reference for design of UHV DC transmission projects.     

电晕放电脉冲电流波形和相位分布的测量、分析与仿真(英文)

Partial discharge(PD) is one of the most important phenomenon in high voltage insulations.In most cases, the appearance of partial discharges is related to insulation defects.Understanding partial discharges is important for diagnosis on insulation condition.Corona discharges appear when extremely high electric field appears on the conductor surface exceeding the electric field strength of the gas.The high electric field may occur at around protrusion with very sharp tip.This paper reported a holistic approach of corona discharge investigation.The needle-plane electrode system was used.The medium between the electrodes was air.The needle was made from steel with radius of curvature of 3μm(Ogura needle).Sinusoidal as well as triangular applied voltages were used.The waveform of the corona discharges was measured using a digital oscilloscope.The corona discharge pulses were measured using a phase-resolved PD measurement system.The system was able to measure the magnitude(q) and phase angle position(φ) of each PD pulses,as well as the number of discharge pulses(n).The role of applied voltage was investigated using phase-resolved analysis of corona discharge pulses through pulse sequence,pulse magnitude and pulse number analysis. Experimental results indicated that corona discharge current waveform was an impulse with rise time of about several ns and the impulse width of about 100 ns.The Fast Fourier Transform analysis indicated that the corona discharge current waveform had several spectrum peaks at frequency of 7.8 MHz,85.9 MHz,109.4 MHz and 195.3 MHz.The experimental results also showed that discharge pulses were concentrated around the peak of applied voltage for both sinusoidal and triangular voltages.The discharge magnitude,as well as its probability of occurrence,was strongly dependent on the instantaneous applied voltage.The shape ofφ-n,as well asφ-q-n PD patterns,were strongly reflected by the shape of applied voltage.In order to get deep understanding of the corona discharge,by utilizing results of the phase-resolved analysis,electrical equivalent circuits of corona discharges were proposed.The electrical equivalent circuit contained capacitances and a spark gap.For deeply understanding of PD phenomenon,computer simulation was done by using the proposed electrical equivalent circuits.The similarity of the measured and simulated PD patterns was assessed by comparing measured and simulated theφ-q-n andφ-n PD patterns.The results indicated that simulated PD patterns similar to those obtained from experiment.     

30～200kV、上升沿1.5ns电压脉冲作用下常压空气中逃逸电子的产生(英文)

A pulse generator with a voltage rise time of～1.5 ns and voltage amplitude variable from 30 kV to 200 kV was designed for generating runaway electron beams in atmospheric pressure air with different interelectrode gaps.The influence of the voltage amplitude and gap length on the generation was studied.In the gas diode geometry under study,the gap voltage at which the generation of a runaway electron beam begins was determined.Decreasing the voltage pulse amplitude does not increase the beam current pulse width measured with a time resolution of～0.1 ns.It is shown that the escape of beam electrons to the downstream of the foil is sync in time with the voltage drop across the gap,and that the delay of beam current generation increases gradually from 1.1 ns to 2.6 ns as the voltage pulse amplitude across the gap decreases from～100 kV to 40 kV.     

风沙条件下的平板模型直流沿面放电特性(英文)

The influence of sand dust on discharge of external insulation has caused widespread concern.At present,the research results show wind-sand electricity has a remarkable effect on the discharge characteristics of insulator and has little influence on the discharge characteristics of air gap.The flashover of insulator strings occurs along the insulator surface and air gaps,and the sand dust deposited on the insulator surface may affect the flashover characteristics of insulator strings.This paper studies the flashover characteristics of flat plate model under DC voltage in wind-sand condition.The experimental results show that under positive polarity voltage,the flashover voltage of the flat plate model has a maximum value,while under negative polarity voltage,the flashover voltage of the flat plate model has a minimum value with a certain degree of sand dust deposition.The wind or sand in sand-dust weather has an important effect on the flashover characteristics of the flat plate model.In certain variation range of electric charge,electric charge of sand dust has little effect on the flashover voltage of flat plate model under DC voltage.The deposition of sand has significant influence on the flashover process of flat plate model,which is related to the deposition density and moisture content of sand particle.     

气压对直流正极性下冰柱-冰板间隙电晕放电的影响

为进一步了解低气压下覆冰对绝缘子的危害,该文选择冰柱-冰板间隙模型,借助数据采集卡、紫外线成像仪和自行设计的电流传感器等设备,在人工气候室内研究低气压下冰柱-冰板模型的电晕放电特性。文章分析了气压对冰柱-冰板间隙的起晕电压、平均放电量和冰柱尖端处的放电区域等方面的影响。结果表明：起晕电压随着气压的降低而降低,平均放电量和冰柱尖端处的放电区域均随着气压的降低而减小,同时,在较低气压下,起始放电更容易形成辉光放电,放电测量也更困难。     

冰凌针-板间隙直流正极性下起始电晕特性的研究

覆冰是电力系统的严重自然灾害之一。覆冰绝缘子伞裙间隙未桥接时,冰凌尖端的放电是影响绝缘子闪络电压的主要因素之一。选择冰柱-冰板间隙模型,借助于紫外线成像仪等设备,在人工气候室内研究了冰凌-冰板模型的电晕特性,提出了用紫外线成像仪确定冰凌-冰板起晕电压的方法, 分析了影响冰凌起晕电压的因素。结果表明:冰凌-冰板间隙起晕电压与冰凌状态有关,湿冰的起晕电压较低,干冰的起晕电压较高;间隙较长,起晕电压较高;气压较低,起晕电压较低;冰凌起晕电压与覆冰水电导率没有明显关系。     

冰棒—冰板间隙负极性电晕起始放电特性

国内外研究结果表明,绝缘子覆冰过程的一个显著现象是:在带电情况下,其表面冰凌并未完全桥接,而是在伞裙间形成一定的冰棱空气间隙。为研究这种空气间隙对放电发展的影响,利用冰棒-冰板空气间隙放电模型在人工气候室内进行了负极性直流电晕放电试验,并分析了不同间隙距离、不同大气压、不同覆冰类型(包括冰的表面状态以及覆冰水电导率)情况下的电晕起始放电特性。研究结果表明:随着空气间隙长度的减小和气压的降低,负极性电晕起始电压也明显下降;湿冰时的电晕起始电压高于干冰时的电晕起始电压。这些研究结果为进一步深入开展覆冰电极系统的电晕放电机理和覆冰绝缘子闪络研究打下了基础。     

负直流下绞线电晕起始电压分析

电晕放电是输电线路设计和运行中面临的突出问题,电晕放电产生的能量损耗和无线电干扰、可听噪声干扰是线路设计和运行中需要考虑的重要因素.为求解绞线负直流电晕起始电压,采用模拟电荷法计算绞线表面电场,并利用气体放电理论建立模型.绞线表面电场比同等半径的光滑导线要高,利用绞线模型计算电场更接近于实际导线.电晕起始电压计算模型将初始电子崩能否在阴极表面产生一个自由电子触发二次电子崩的发展作为电晕起始电压的判据.利用电晕起始电压计算模型研究了负直流电晕起始电压与气压的关系,电晕起始电压随气压下降减小,主要原因是有效电离系数增大导致的电离区域的扩大.并研究了电晕起始电压与线路导线结构参数--导线半径、线路对地高度、导线分裂数、分裂间距等的关系.     

大型汽轮发电机主绝缘耐压和电老化试验中定子线棒端部防晕技术的研究

大型汽轮发电机在主绝缘耐压和电老化试验中,可能出现定子线棒端部闪络和防晕层过热的情况,从而损伤主绝缘,影响试验顺利进行。本文通过建立真机线棒端部的Pspice仿真模型,模拟了线棒端部绝缘表面电场分布,分析了端部闪络的原因。通过进一步的仿真研究,提出了线棒端部防晕的技术方案,并试制了线棒端部防晕装置。试验结果表明,该防晕装置可有效防止线棒端部闪络和防晕层过热。     

Partial discharge, dissipation factor, and corona aspects for high voltage electric generator stator bars and windings

High voltage stator windings in modern electric generators are subject to high electrical, mechanical, and thermal stress. Operation of these machines in both air and high pressure hydrogen results in different considerations. Operation in the air environment does not offer the dielectric advantages of operating in high-pressure hydrogen. The two major design factors that are significant for the design of high voltage stator bars to be operated in air, are corona activity and PD activity. These of course are closely related. With the movement to increasing the power density of generators, which means operation at higher voltages and higher insulation stress levels, it has become more critical to be sure the design constraints are met in the stator bar design to minimize both partial discharge activity and corona activity involving the stator bars. The stator bar insulation system must be designed for minimum partial discharge activity and ideally is corona free at the stator winding operating stress levels, and at the operating conditions (temperature and pressure) the generator is subject to. This paper will present the findings associated with the development work in designing, testing and implementing a PD reduced and corona free design.     

基于支持向量机的棒-板空气间隙击穿电压预测方法及其应用

空气间隙的击穿电压与放电起始前的电场分布特征存在多维非线性关系。为了实现空气间隙的击穿电压预测,以电场特征集作为输入,以间隙在加载电压下是否击穿作为输出,采用支持向量分类机建立击穿电压预测模型。针对极不均匀电场空气间隙的击穿特性受电晕影响的问题,提出两种修正方法:通过增加受电晕影响的训练样本数据,提高预测模型的泛化性能;或基于"电晕云"的思想进行二次电场计算及特征量提取,对预测模型的输入特征进行修正。采用修正后的模型对极不均匀电场下棒-板间隙的工频击穿电压及棒-板长空气间隙的操作冲击放电电压进行预测,预测值与试验值吻合良好。该方法有利于减少试验次数,降低试验成本。     

气压湿度对负直流电晕特性影响的研究

为得到负直流电晕特性随着气压湿度的变化规律,建立了考虑气压湿度影响的负直流电晕起始电压的物理模型,利用模拟电荷法和计算表面光电子数目的方法求解了负直流电晕起始电压。在人工气候罐中,利用棒–板电极,测量了不同气压湿度下的负直流电晕起始电压和电晕电流。计算和试验结果表明:电晕起始电压随气压下降、湿度升高而减小,主要原因分别是有效电离系数增大导致的电离区域的扩大和高场强区域内碰撞电离能力的增强。当直流电压和电晕起始电压的比值一定时,电晕电流随气压下降、湿度升高而减小;当直流电压一定时,电晕电流随气压降低而增大,随湿度升高而减小。电晕电流和直流电压、电晕起始电压关系式中的系数C随湿度增大的不同变化趋势和正负离子与水分子结合状态的差异有关。     

高温气冷堆核电站主氦风机驱动电机绝缘系统评定技术研究

设计了一套在0.1 MPa氦气和空气环境下测试绝缘系统电气绝缘性能的试验装置,完成了0.1 MPa气压下氦气和空气中主氦风机驱动电机绝缘系统模型的局部放电起始电压(PDIV)、起晕电压、匝间冲击、绝缘电阻和工频击穿电压对比试验。试验结果表明:在0.1 MPa气压下,绝缘系统在氦气环境下的部分绝缘性能较空气中大幅下降,氦气环境下绝缘系统的PDIV值约为空气中的50%,起晕电压值约为空气中的20%~25%,闪络(击穿)电压约为空气中的50%。     

单相及单极多分裂导线起晕电压计算方法

为研究单相/单极分裂导线的起晕电压特性,采用手册法和模拟电荷法相结合,建立了分裂导线起晕电压的计算模型。考虑到分裂导线所在位置不同和子导线表面位置不同会引起导线上电晕放电的差异,采用手册法确定起晕时子导线表面的场强分布,然后用模拟电荷法得到了分裂导线起晕电压。理论计算结果与试验数据吻合较好,表明了该方法的有效性。最后,利用该方法讨论了分裂导线的几何尺寸,如分裂间距、子导线半径和子导线数目等对起晕电压的影响;仅从电晕特性的方面考虑,推荐了导线选型的最优方案。