共查询到19条相似文献,搜索用时 218 毫秒
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设计了用于脉冲功率装置的4 MV水介质同轴 三平板型输出开关。该脉冲功率装置将由24路相同的独立模块组成,每路模块由Marx发生器、中间储能器、激光触发气体开关、脉冲形成线、水介质脉冲输出开关、脉冲传输线等组成。水介质脉冲输出开关是同轴 三平板结构水介质多通道自击穿开关,由输入输出电极、预脉冲屏蔽板和连接部件组成。进行了有预脉冲屏蔽板结构和无预脉冲屏蔽板结构的自击穿水开关实验研究。有预脉冲屏蔽板结构开关的输入、输出电极都是半球电极,直径分别是8 cm和5 cm;无预脉冲屏蔽板结构开关为针 板结构,输入电极为平板电极,输出电极为直径3 cm的电极棒。Marx发生器充电70 kV,开关的击穿电压为3 MV,放电电流为450 kA。在3 MV等级的击穿电压下,有预脉冲屏蔽板结构开关的抖动约6 ns,没有预脉冲屏蔽板结构开关的抖动减小至3 ns。 相似文献
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设计了用于脉冲功率装置的4 MV水介质同轴 三平板型输出开关。该脉冲功率装置将由24路相同的独立模块组成,每路模块由Marx发生器、中间储能器、激光触发气体开关、脉冲形成线、水介质脉冲输出开关、脉冲传输线等组成。水介质脉冲输出开关是同轴 三平板结构水介质多通道自击穿开关,由输入输出电极、预脉冲屏蔽板和连接部件组成。进行了有预脉冲屏蔽板结构和无预脉冲屏蔽板结构的自击穿水开关实验研究。有预脉冲屏蔽板结构开关的输入、输出电极都是半球电极,直径分别是8 cm和5 cm;无预脉冲屏蔽板结构开关为针 板结构,输入电极为平板电极,输出电极为直径3 cm的电极棒。Marx发生器充电70 kV,开关的击穿电压为3 MV,放电电流为450 kA。在3 MV等级的击穿电压下,有预脉冲屏蔽板结构开关的抖动约6 ns,没有预脉冲屏蔽板结构开关的抖动减小至3 ns。 相似文献
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在PTS单路样机上进行了4 MV水介质同轴-三平板型水介质自击穿开关实验研究,开关由3个线性排列的球-板结构的电极间隙构成。根据PTS单路样机部件组成及其结构,建立了单路样机Pspice全电路模型及开关等效电路。给出了开关在自击穿电压3.3 MV和2.9 MV状态下的电路模拟与实验对比,模拟结果与实验结果一致。实验及模拟结果表明,装置和开关模型与参数选取及设置合理,水介质自击穿开关的参数与实际值相近。 相似文献
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在1 MV水介质自击穿开关降压实验的基础上,设计了用于脉冲功率装置的水介质输出开关,设计的最高运行电压为4 MV,放电电流600 kA。4 MW水介质自击穿开关为同轴-三平板结构,由输入输出电极、预脉冲屏蔽板和连接部件组成。在结构设计中拟使用电流线圈测量每个通道的放电电流,用开关前后传输线上靠近开关端的D-dot测量开关的输入输出电压。对开关间隙进行了2维和3维静电场分析,结果发现二者差别较大,3维静电场分析应该更接近实际电场分布。 相似文献
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在超宽谱脉冲产生辐射系统或脉冲功率源中,常用高压气体开关来产生快脉冲沿的高功率电磁脉冲。为了研究高压氢气亚纳秒开关的击穿特性,通过实验研究了氢气开关在高气压和短间隙距离条件下的击穿特性。开关输入脉冲的峰值幅度约220 kV,脉宽3~4 ns。氢气气压4~13 MPa,间隙距离0.4~1.2 mm。结果表明:开关击穿电压随气压升高而增加,且开关气压达到11 MPa后击穿电压随气压增加的趋势变缓;开关击穿电压随间距增加而增加,平均击穿场强随间距增加而减小,氢气开关平均击穿场强分布在3~7 MV/cm之间;开关导通时间随气压增加略有减小,随间隙距离增加有小幅增加。 相似文献
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在“闪光Ⅱ”上进行了水介质多针自击穿开关实验研究。开关由2个或4个开关间隙、预脉冲屏蔽板及其支撑结构组成。介绍了开关结构及其集中参数等效电路模型,并给出了部分参数计算方法。开关间隙在约60 ns时间内被近似线性地充电至约1 MV,开关的放电电流、输入和输出电压分别用罗果夫斯基线圈和硫酸铜水电阻分压器测试。进行了2个间隙结构和4个间隙结构开关实验,开关的放电电流200~550 kA,平均击穿场强600~900 kV/cm。开关间隙抖动小于4 ns,开关间隙的击穿迟滞时间约为60 ns,2个间隙结构开关的间隙之间的击穿同步性能可以优于3 ns,4个间隙结构开关的间隙之间的击穿同步性能可以优于5 ns。预脉冲被有效地压缩,输出电压的预脉冲幅值约为输入电压预脉冲幅值的50%,从180 kV压缩至约90 kV,作用时间由600 ns压缩至60 ns。 相似文献
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介绍了西北核技术研究院研制的4 MV脉冲X射线闪光照相装置("剑光二号")系统组成和实验结果。装置基于感应电压叠加器(IVA)驱动阳极杆箍缩二极管(RPD)技术,主要由前级脉冲功率源、感应电压叠加器和RPD等组成。前级脉冲功率源由两台3.2 MV低电感Marx发生器和四路同轴水介质线组成。每台Marx同时给两路脉冲形成线(特征阻抗6Ω、电气长度30 ns)充电,充电峰值时间约370 ns。每路水介质线采用两级脉冲压缩,为感应腔馈入约1 MV/160 kA/60 ns电脉冲。电触发SF6气体开关、自击穿水开关分别用作主同步开关和脉冲陡化开关。感应电压叠加器采用四级1.5 MV感应腔串联,每级感应腔采用单点馈入结构。次级采用真空绝缘传输线实现电压叠加和功率传输,特征阻抗由30Ω线性增大至120Ω。采用4 MV电压下综合性能较优的RPD来产生强脉冲X射线。装置目前达到技术指标:输出电压4.3 MV、脉冲前沿(10%~90%)21 ns、半高宽约70 ns、二极管电流85 kA,X射线半高宽约55 ns,整机延时(从Marx触发器输出到X射线产生)约749 ns,标准偏差约7 ns。当RPD阳极采用直径2 mm钨针时,正前方1 m处剂量约15.5 rad(LiF),正向焦斑约1.4 mm。 相似文献
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《Current Applied Physics》2015,15(9):977-986
This paper presents a simulation model for the generation of strong pressure wave by means of pulsed spark discharge in water and its application to well cleaning. In the simulation model, one-dimensional time-dependent magnetohydrodynamic equations are coupled to a capacitive discharge circuit equation. A cylindrical conducting spark channel formed by electrical breakdown of water gap between a pair of electrodes is treated as a load of which resistance and inductance are allowed to change with time. For describing the spark channel properties accurately, precise calculations on thermodynamic properties and electrical conductivity are included in the simulation model. The simulation results show an excellent agreement with the experimentally measured shock pressure as well as the current and voltage waveforms. The simulation reveals that Joule heating of the spark channel during the very early phase of electrical discharge plays a key role in the formation of shock wave in water. The voltage on a capacitor at breakdown, the circuit inductance, and the resistance of the spark channel are found to be the most important parameters for the shock wave formation. With this technique, a pilot test for the cleaning of a clogged well has been performed in a water well which was constructed as a test-bed for riverbank filtration near the Anseong-cheon (river) in Korea. Well treatments have been carried out with an electrical energy of 510 J stored on a pulsed power system, at which the maximum shock pressure is measured to be around 7 MPa at the position of the well screen, i.e. 0.1 m away from the spark gap. A slug test shows 2.9 times improvement in the hydraulic conductivity of the well, which, combined with a visual inspection inside the well using an underwater camera, clearly demonstrates that the strong pressure wave generated by underwater spark discharge can effectively remove almost all incrustations formed in the well screen and thus improve well performance. Operating parameters for controlling the strength of shock pressure are discussed using the simulation model for extensive applications of the present technique to various types of water wells. 相似文献
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用于直线感应加速器的3.5 MeV注入器脉冲功率系统采用了感应叠加原理。整个系统包含了脉冲形成系统、触发系统以及感应腔负载。脉冲形成系统主要由Marx发生器和Blumlein脉冲形成线组成,产生12个脉宽约90 ns,幅度约200 kV的高压脉冲,通过12个感应腔和变阻抗阴阳极杆,在阴阳极间隙处产生3.5 MV的二极管电压,由天鹅绒阴极发射强流电子束。触发系统主要由两级触发开关构成,严格控制12个高压脉冲的输出时间,时间分散性统计值小于1 ns(动作时间抖动)。采用该脉冲功率系统注入器能产生能量约3.5 MeV,电流2~3 kA的强流电子束。 相似文献
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利用自行研制的纳秒脉冲实验平台(输出脉冲前沿30 ns,半宽百纳秒)和标准介电强度测试仪,对变压器油、甘油、去离子水、Galden HT200四种液体绝缘介质在直流与纳秒脉冲下的击穿特性进行了实验研究与结果比对,结果表明:在直流与纳秒脉冲下,Galden HT200均具有最高的击穿场强,且两种情况下均比变压器油高出40%以上;纳秒脉冲下,Galden HT200与变压器油的击穿场强均提高6.5~7倍,Galden HT200击穿过程耗时最短(ns量级),其次是变压器油(20 ns),然后依次为甘油(45 ns)和去离子水(70 ns);多次放电后,粘度系数最大的甘油更易在电极间隙处聚集碳化放电产物,粘度系数较小的Galden HT200和去离子水则无明显痕迹,但二者放电过程会产生明显的冲击波,多次放电后易造成间隙电极松动。 相似文献
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采用紧凑Tesla变压器型脉冲功率驱动源及球电极击穿试件,通过改变初级充电电压,开展了微秒级充电条件下碳酸丙烯酯及其与碳酸乙烯酯的混合液的击穿实验研究。由结果和分析可知:碳酸丙烯酯理论工作温度可低至-55℃,这意味着它可以成为一种低温下的良好液体电介质;碳酸丙烯酯耐压性能与去离子水相当,且实测电阻率达到了10 MΩ·cm以上;向碳酸丙烯酯中添加碳酸乙烯酯后,介电常数可提高至80以上,耐压强度也有所提升;将碳酸丙烯酯、碳酸乙烯酯/碳酸丙烯酯混合液用于脉冲形成线作为储能介质无需附加去离子处理系统,有利于装置的紧凑化和小型化。 相似文献
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利用飞秒脉冲激光对单晶硅进行辐照,研究了在不同环境(纯水和空气)和能量密度条件下激光刻蚀过后硅片的光致荧光特性.对于辐照后的硅片,利用了场发射扫描电子显微镜(FESEM)、能谱仪(EDS)、傅里叶红外光谱仪(FT-IR)、光致荧光光谱仪(PL)进行表征.结果显示:在空气中样品表面形成了条纹状微结构,纯水中硅片表面生成了尺寸更小的珊瑚状微结构;激光刻蚀后在硅片表面的生成物主要是SiOx(x2),在纯水中处理后硅片氧元素的含量接近是空气中的4倍;傅里叶变换红外透射谱中主要为Si—Si键(610 cm-1)和Si—O—Si键(1105 cm-1)的振动;在空气和纯水中激发出的荧光均为蓝光(420—470 nm),在各自最佳激发波长下,纯水中荧光强度比空气中强2到3倍,但是在可见光范围内荧光峰的位置和形状都基本没有发生变化.研究表明:氧元素在光致发光增强上起着重要作用,光致发光最主要是由形成的氧缺陷SiOx(x2)导致的,生成低值氧化物SiOx的多少决定了发光的强弱. 相似文献
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This paper introduces a new approach for streamer advance mechanism in dielectric liquid. The existing of bush-like streamer shape early and then a tree structure shape after that has been given an over view and definition by devising a breakdown index for dielectric liquid which reach a value of 25. The deviation of streamer velocity from low values of tens of meter per second, until several kilometer per second from bush-like shape, until complete breakdown has been discussed too. These different stages have been studied on an energy balance concepts. In this paper using energy balance analysis, different critical applied fields have been obtained. These values reach 2.18 MV/cm for one branch channel in bush-like streamer shape and 21.5 MV/cm, for tree streamer. After that, the initial streamer velocities concerning these stages have been introduced. From these analysis the dissociation of dielectric liquids starts when the streamer velocity reach the sound speed in air, 331 m/s. In addition, the dissociation field depends mainly on the physical values of the dielectric medium, such as density, and permittivity have been introduced. In this paper the dissociation starts at an electric field value of 21.5 MV/cm for nearly all dielectric liquids, This result is equal to tree streamer inception value, which can be considered as a new introduced finding. A new energy equation relating injected energy electric field, velocity and new deduced breakdown index in dielectric liquid has been devised. The streamer may stop or continue its advance until complete breakdown. According to many published data for streamer, there is no clear explanation for streamer stopping and continuing it advance. In this paper, the streamer must advance ahead of the bush zone in the gap toward the opposite electrode when the prospective electric field at 66% of the gap achieves a breakdown index of 25. This result can be considered as a new criterion for streamer growth until crossing the gap. These new equations and findings have been applied to several experimental works and achieve good results. 相似文献
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《Journal of Electrostatics》2014,72(1):53-58
Pulsed arc electrohydraulic discharge (PAED) is a kind of thermal plasma arc discharge phenomenon which can generate strong pressure wave, ultraviolet ray and active groups. Therefore, PAED can act as a significant role applying on the technology of water treatment and it has broad application prospects. Compared with the existing water treatment mechanism, the technology of PAED possesses the most sterilization efficient and no secondary pollution. There are a huge number of plasma, active groups and gas liquid mixtures generated between the two arc electrodes in the water medium when the streamer discharge voltage is 3∼5 kV. In addition, water conductivity is also changed with the development of pulse arc electrohydraulic discharge which should be the prime importance in the process of PAED. In this article, firstly we analyzed the discharge mechanism on the process of pulsed arc electrohydraulic discharge. After that how the conductivity had played a major role in the process of pre-breakdown discharge and the main discharge processes will be discussed in detail. Experiments were conducted to research the relation among the conductivity, the pressure wave, active groups, ultraviolet light, discharge current and voltage generated from PAED. In finally the result can become a basis for using the water treatment tech of pulsed arc electrohydraulic discharge on different conductivity. 相似文献
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The problems of a pulsed strength of continuum media are considered in terms of the structural-time approach that is based
on the concept of the incubation fracture time. This approach makes it possible to describe phenomena that arise under high-velocity
external effects. A limiting condition that determines the instant of rupture or breakdown is proposed on the basis of the
structural-time approach. A way to interpret and to determine the incubation time is proposed. A phenomenological model of
an electric breakdown of solid dielectrics is formulated. Examples are considered where the structural-time approach is applied
to problems of spall fracture, crack initiation, and a pulsed breakdown of dielectrics. A procedure for describing the time
dependence of the electric strength (volt-second characteristic) is described in detail. The results of the calculations are
found to be in good agreement with experimental data. 相似文献