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1.
在广州野外雷电试验基地,对2008年和2011年夏季人工触发闪电回击之后的14个连续电流过程和43个M分量的通道底部电流、电场变化和通道亮度进行了同步测量和分析。结果表明:M分量的电流、快慢电场变化和亮度变化波形均近似对称;触发闪电连续电流过程的持续时间、转移电荷量、电流平均值的几何平均值分别为22 ms,6.0 C和273 A;M分量的幅度、转移电荷量、半峰值宽度、上升时间、持续时间的几何平均值分别为409 A,205 mC,520 μs,305 μs和1.6 ms;连续电流持续时间与M分量的个数、相邻M分量之间的时间间隔均存在显著的正相关关系。 相似文献
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广州高建筑物雷电观测站光电同步观测系统于2017年6月16日记录到一次峰值电流达+141 kA的单回击正地闪触发两个并发上行闪电过程。利用高速摄像、普通摄像和电场变化数据分析了触发型上行闪电的始发特征和机理。结果表明:正地闪回击后约0.8 ms内,在距正地闪接地点约3.9 km的广州塔(高600 m)和4.1 km的东塔(高530 m)分别有上行闪电始发。正地闪回击过程中和大量正电荷以及之后可能有云内负先导朝高塔方向快速伸展造成塔顶局部区域的电场发生突变是两个上行闪电激发的原因。两个上行闪电在353 ms内发生7次回击,其中6次在广州塔上,仅1次在东塔上,且广州塔回击峰值电流平均值(-21.4 kA)约为东塔回击峰值电流(-7.3 kA)的3倍,表明广州塔上行闪电通道可能比东塔上行闪电通道伸展至分布范围更广、电荷量(或电荷密度)更大的负电荷区。两个上行闪电先导的二维速率变化范围为9.4×104~1.8×106 m·s-1,平均值为6.9×105 m·s-1。 相似文献
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2006年8月1日在广东省从化市利用成像率为5000幅/s的高速摄像系统观测得到了一次包含有13个回击过程的自然负地闪, 其梯级先导的传播速度为106 m/s的量级; 一次企图先导的传播速度随高度的降低而减小; 一次直窜先导的传播速度随高度的降低而增加。有3次继后回击相对积分亮度的峰值大于首次回击相对积分亮度的峰值。研究发现:此次自然闪电的继后回击及紧跟其后的连续电流过程的发光总量与该次继后回击之前闪电通道的截止时间有关, 较大的发光总量对应于较长的截止时间, 较小的发光总量对应于较短的截止时间, 但两者没有固定的比例关系。 相似文献
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利用2007—2018年浙江省ADTD闪电定位资料,分析了该地区多回击地闪分布及相关参数特征。结果表明:浙江省多回击地闪占总地闪的26.74%,其中正闪以单回击地闪为主;正、负闪平均回击数分别为1.04次和1.65次,最大回击数分别为5次和21次。回击数和地闪数存在较为一致的年际变化,正、负多回击地闪日变化分别呈多峰和单峰分布。正、负多回击地闪电流强度算术平均值分别为72.06kA和-36.89kA,回击平均强度随回击数的增加而下降,约40%的地闪过程中至少有1次继后回击强度比首次回击强;首次回击和继后回击的强度分布呈对数正态分布,集中在15~45kA之间。正、负地闪回击间隔时间算术平均值分别为125.47ms和138.14ms,几何平均值分别为56.73ms和98.95ms,回击间隔时间呈对数正态分布,平均回击间隔时间随回击数的增大而减小。多回击地闪继后回击与首次回击之间距离与回击数呈准正态分布,集中在距离为1km范围内。 相似文献
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基于自主研发的闪电连续干涉仪,对2019年6月11日在中国气象局雷电野外科学试验基地广州从化人工引雷试验场成功触发的一次多回击闪电放电全过程进行观测,结合通道底部电流数据和电场变化数据,共同揭示触发闪电全放电过程:连续干涉仪能够定位到最小为8 A的不连续的先驱电流脉冲辐射信号,初始先驱电流脉冲(IPCP)的平均转移电荷量约为先驱电流脉冲(PCP)的2倍;上行正先导连续发展后为初始连续电流(ICC)过程,最初正流光通道以105 m·s-1量级的速度继续发展延伸,之后出现反冲先导放电;在ICC阶段出现的经典M分量,可由向前的106 m·s-1量级速度的正流光(先导)产生,也可由已有通道头部产生的反冲先导产生,且整个M分量过程中,多个反冲先导维持了放电过程的持续;之后的回击间过程以反冲先导为主要放电形式,回击电流脉冲之前存在多次反冲先导过程,但多数未发展到接地通道,只处于企图先导阶段,直至成功的先导回击产生;而前两次回击具有超短的时间间隔,约为4.5 ms,这是由于两次回击前的先导来源于云内不同分支的反冲先导过程。 相似文献
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In the summer of 2005, one negative lightning flash was artificially triggered in Shandong Province (117°48′ E, 37°42′N), middle latitude region of eastern China. The flash included 10 return strokes, and the geometric mean value of the current peak was 11.9 kA (the average value was 12.6 kA) with a maximum of 21.0 kA and a minimum of 6.6 kA, similar to the subsequent return strokes in natural lightning. The geometric mean value of half peak width was 39 μs (the average value was 40 μs), which was much larger than the usual result. Based on the Diendorfer and Uman (DU) model, the return-stroke current waveforms and charge distribution along the lightning channel are discussed. The simulated current waveforms, being divided into breakdown and corona current components, are in agreement with the optical measurements when the two different discharge time constants are properly chosen. 相似文献
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山东人工引发雷电综合观测实验及回击电流特征 总被引:3,自引:2,他引:1
山东人工引发雷电实验 (SHATLE) 自2005年开始, 六年来共成功引发负极性雷电22次, 包含大电流回击过程88次, 实验获取了包括雷电放电通道底部电流、近距离电磁场、 高速摄像等在内的高质量同步观测资料。对36次实测回击电流的统计分析表明, 回击峰值电流的几何平均值为12.1 kA, 最大值为41.6 kA, 最小值为4.4 kA。回击电流波形的半峰值宽度范围在1~68 μs之间, 电流10%~90%峰值的上升时间几何平均值为1.9 μs, 中和电荷量为0.86 C, 作用积分(action integral, 或称比能量) 为2.6 ×103A2?s。人工触发闪电峰值电流约16.5 kA的回击在30 m处产生的电场变化可达56.0 kV/m, 60 m处的磁场几何平均值为52 μT。一些强烈的M分量可以具有与回击相当的电流峰值和中和电荷量。人工引雷初始阶段上行正先导的发展速度约为0.96×105 m/s。 相似文献
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云地闪电回击通道分叉或者曲折引起的电流传播方向改变可以在回击辐射波形上面引入一系列次峰结构乃至影响其VHF辐射特征。本文用回击传输线模式探讨了回击通道几何结构对回击VLF/VHF辐射场的影响,结果显示:(1)VLF信号波形次峰幅度与通道片断的尺度以及取向有关,尺度为100m量级且具有较大的垂直分量的电流变化过程可以在回击波形下降沿上面引入与回击幅度相当的次峰结构,而小尺度(1m量级或者更小)的通道曲折在回击波形上面引入的次峰幅度只有回击主峰幅度的10%以下。水平方向的电流传播过程几乎不在回击波形上面产生可以辨别的次峰结构。曲折通道的所有曲折片段的平均长度是描述曲折通道的一个重要参数,次峰时间间隔与幅度均与平均曲折尺度成正相关。(2)曲折通道能够明显增加回击高频辐射分量的能量,出现最大辐射能量增加的频率相当.于波长等于曲折尺度的电磁波频率的1/8。小尺度的曲折或者分叉结构能够使得回击高频分量的强度提升一个数量级,但是这一强度的增加仍比我们实际测量的VHF辐射强度小一个数量级,说明通道曲折和分叉很可能不是回击过程VHF辐射产生的主要原因。 相似文献
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Stacy A. Fleenor Christopher J. Biagi Kenneth L. Cummins E. Philip Krider Xuan-Min Shao 《Atmospheric Research》2009,91(2-4):333-352
In July 2005, a field campaign was conducted in the Central Great Plains to obtain 60-field/s video imagery of lightning in correlation with reports from the U.S. National Lightning Detection Network (NLDN) and broadband electric field waveforms from the Los Alamos Sferic Array (LASA). A total of 342 GPS time-stamped cloud-to-ground (CG) flashes were recorded in 17 different sessions, and 311 (91%) of these were correlated with reports from the NLDN. Only 6 of the 17 recording sessions were dominated by flashes that lowered negative charge to ground, and 11 were dominated by positive CG flashes. A total of 103 flashes recorded on video were correlated with at least one NLDN report of negative CG strokes, 204 video flashes were correlated with one or two positive stroke reports, and 4 had bipolar reports. In this paper, we will give distributions of the estimated peak current, Ip, as reported by the NLDN, of negative and positive first strokes that were recorded on video, the multiplicity of strokes that were recorded on video, and the number of ground contacts per flash that were resolved on video. 41 (40%) of the negative flashes produced just a single-stroke on video, and 62 (60%) showed two or more strokes. The observed multiplicity of negative flashes averaged 2.83, which becomes about 3.14 after correcting for the finite time-resolution of the video camera. 195 (96%) of the positive flashes produced just a single-stroke on video, and 9 (4%) showed two strokes; therefore, the observed multiplicity of positive flashes averaged 1.04. Five out of 9 (56%) of the positive subsequent strokes re-illuminated a previous channel, and 4 out of 9 (44%) created a new ground contact. Simultaneous video, LASA, and NLDN measurements also allowed us to examine the classification of NLDN reports during 3 single-cell storms (one negative and two positive). Based on the LASA waveforms, a total of 204 out of 376 (54%) NLDN reports of CG strokes were determined to be for cloud pulses. The misclassified negative reports had |Ip| values ranging from 3.8 kA to 29.7 kA, but only 58 (24%) of these had |Ip| > 10 kA, and only one misclassified positive report had Ip > 20 kA. Radar analyses showed that most of the negative and positive CG strokes that were recorded on video were produced within or near the convective cores of storms. The radar imagery also showed that single-cell storms tended to produce one polarity of CG flashes at a time, and that such storms could switch rapidly from negative to positive CG flashes when the reflectivity was near maximum. Multiple-cell storms produced both negative and positive flashes over a broad region, but each polarity tended to cluster near regions of high-reflectivity. 相似文献
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人工触发闪电通道的发光特征 总被引:6,自引:13,他引:6
利用成像率为1000幅/秒的高速数字化摄像系统在380m的极近距离对人工触发闪电通道的发光特征进行了观测的研究。人工引发闪电除了采用的火箭地带接地导线的触发方式外还发展导线下端不接地的空中触发闪电的新技术。结果表明,闪电通道的发光截面基本上呈对称型。 相似文献
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作为中国气象局雷电野外科学试验基地(CMA_FEBLS)的重要组成部分,广州高建筑物雷电观测站(TOLOG)始建于2009年,迄今已积累数百次高建筑物雷电资料。对于雷电连接过程,高建筑物会起到“放大镜”的作用:TOLOG的观测在国际上首次发现了连接过程中负-正先导之间“头部-侧面”连接的现象,给出了先导连接行为的两种基本形态;揭示了负先导梯级发展过程的精细化结构,给出了下行先导和上行先导的二维/三维发展特征;估算了不同高度建筑物上雷电的闪击距离。高建筑物对雷电电磁场具有“放大器”的作用,且建筑物越高增强效应越显著。高建筑物是下行和上行闪电的“汇集点”:对下行闪电的吸引作用可保护高建筑物附近的其他物体免遭雷击;正地闪的回击、延续电流和云内放电过程均可在高建筑物上触发负极性上行闪电。另外,高建筑物区域可作为闪电监测系统的“标校场”,TOLOG的观测资料在地闪定位系统探测效率和定位精度的评估方面也得到了应用。 相似文献
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为研究不同高度的建筑物对雷电磁场的影响,对2011年7月—2012年8月广州高建筑物雷电观测试验中获取的雷电磁场波形数据进行统计分析,共选取击中14个高建筑物的40次雷电 (均为负极性雷电) 的磁场数据,结果表明:高建筑物对回击磁场峰值有增强作用,且建筑物越高对回击磁场峰值的增强作用越大,高度在200 m以上的建筑物上雷电首次回击磁场峰值的几何平均值是高度在200 m以下的建筑物上的2.4倍;高建筑物雷电回击的磁场波形呈多峰特征;观测到的20次击中200 m以下高建筑物的雷电中,有13次 (65%) 雷电首次回击的磁场波形出现后续峰值比初始峰值大的现象,击中200 m以上高建筑物的14次雷电中有8次 (57%) 出现该现象;40次高建筑物雷电中有22次 (55%) 为多回击雷电,135个回击间隔时间的几何平均值为69.1 ms, 多回击高建筑物雷电中有10次 (45%) 出现继后回击的磁场峰值大于首次回击磁场峰值的现象。 相似文献
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Abstract Lightning ground flash and stroke observations were made with a single‐station gated, wideband magnetic direction‐finding system with a nominal range of 180 km located in Southern Ontario during the May‐September lightning‐active seasons of 1982 and 1983. Information was recorded on the azimuth of arrival, time, amplitude, stroke multiplicity and order, and polarity. The local climatology and seasonal statistics of lightning are analysed and summarized, and compared with standard observations of thunderstorm days and hours. Regional daily flashing rates and extremes for periods of 5 to 60 min were found to have a good empirical relationship. About 15% of the flashes had multiple strokes, generally less than 10 but with as many as 14 strokes. About 8% of the flashes were positive discharges; 3% of these were multistroke with no more than 2 strokes. The lightning activity exhibits well defined diurnal peaks in the afternoon and at night 1–3 h before sunrise. The time interval between strokes was found to have a lognormal distribution with modal and median values of 60 and 75 ms, respectively, and no significant dependence on the order of stroke. The stroke‐to‐stroke amplitude changes within the same flash show that subsequent stroke amplitudes are often greater than the first. Subsequent strokes follow many patterns of change, the most common being an amplitude oscillating with ascending stroke order. The multistroke flash duration median values rose from about 80 ms for 2‐stroke flashes to about 650 ms for 8‐stroke flashes. Under certain assumptions of system detection efficiency and range limits a regional ground flash density of 1.62 and 2.44 km?2 a?1 was estimated for the two years. 相似文献
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Behnam Salimi Kamyar Mehranzamir Zulkurnain Abdul-Malek 《Asia-Pacific Journal of Atmospheric Sciences》2014,50(2):133-137
Lightning is an electrical discharge during thunderstorms that can be either within clouds (Inter-Cloud), or between clouds and ground (Cloud-Ground). The Lightning characteristics and their statistical information are the foundation for the design of lightning protection system as well as for the calculation of lightning radiated fields. Nowadays, there are various techniques to detect lightning signals and to determine various parameters produced by a lightning flash. Each technique provides its own claimed performances. In this paper, the characteristics of captured broadband electric fields generated by cloud-to-ground lightning discharges in South of Malaysia are analyzed. A total of 130 cloud-to-ground lightning flashes from 3 separate thunderstorm events (each event lasts for about 4–5 hours) were examined. Statistical analyses of the following signal parameters were presented: preliminary breakdown pulse train time duration, time interval between preliminary breakdowns and return stroke, multiplicity of stroke, and percentages of single stroke only. The BIL model is also introduced to characterize the lightning signature patterns. Observations on the statistical analyses show that about 79% of lightning signals fit well with the BIL model. The maximum and minimum of preliminary breakdown time duration of the observed lightning signals are 84 ms and 560 us, respectively. The findings of the statistical results show that 7.6% of the flashes were single stroke flashes, and the maximum number of strokes recorded was 14 multiple strokes per flash. A preliminary breakdown signature in more than 95% of the flashes can be identified. 相似文献
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为了深入认识负地闪放电过程中光辐射信号的特性, 对广州高建筑物雷电观测站所获得的回击光脉冲波形进行了分析。对观测到的88例负地闪事件中的184次回击(包括60次下行闪电首次回击、58次下行闪电继后回击、66次上行闪电继后回击)的光脉冲特征进行了统计分析, 结果表明: 下行闪电首次回击光脉冲10%~90%上升时间T1的算术平均值/中值为32.5/31.4μs, 20%~80%上升时间T2的算术平均值/中值为22.6/22.4μs, 半峰宽度T3的算术平均值/中值为131.1/117.0μs。下行闪电继后回击光脉冲T1的算术平均值/中值为30.4/27.7μs, T2的算术平均值/中值为19.5/17.6μs, T3的算术平均值/中值为153.6/142.6μs。在21例下行多回击负地闪事件中, 光脉冲回击间隔时间在12.6~368.6 ms范围之间, 算术平均值为78.7 ms, 有14%闪电事件存在继后回击光脉冲峰值大于首次回击的情况。上行闪电继后回击光脉冲T1的算术平均值/中值为27.5/24.3μs, T2的算术平均值/中值为17.0/15.7μs, T3的算术平均值/中值为132.2/124.5μs。总体上, 下行闪电首次回击的光脉冲上升时间最长、下行闪电继后回击次之、上行闪电继后回击最小; 下行闪电继后回击脉冲半峰宽度比下行闪电首次回击及上行闪电继后回击的更大。 相似文献
18.
The spectra with wavelength range of 390 nm to 660 nm of triggered lightning were observed in Guangdong Area using a slitless spectrograph. The characteristics of the lightning spectra during the initial continuous current and return strokes were analyzed, and the differences between the metal section and air section of the lightning channel were compared. The results showed that the metal spectra were contained in the metal section during the initial continuous current. As for the lightning channel of the return strokes, the line spectra for both the metal section and the air section were identical; neither of the two sections contained the metal spectra, but the relative intensity of its emission spectrum was different. Owing to different radiation mechanisms, the spectral structures and luminance of the two sections were not the same. Combined with the current data, it was found that there was a good positive correlation between the total spectral strength and the transferred charge. The total intensity of the lightning channel spectrum increased with the height of the channel, indicating that the radiation sequence of the lightning channel was different. High temporal resolution observations showed that the spectral line duration could be divided into three categories, in which the lines with higher excitation energy appear first and decay rapidly, while those with lower excitation energy appear later but last longer. 相似文献
19.
广东野外雷电综合观测试验十年进展 总被引:12,自引:0,他引:12
雷电野外科学试验是认识雷电发生、发展物理过程及其致灾机理的重要途径,也是开展真实雷电电磁环境下雷电防护技术测试的重要方式。自2006年开始,中国气象科学研究院和广东省气象局在广州野外雷电试验基地,持续合作开展了雷电野外综合观测试验,在人工触发闪电和自然闪电物理过程及其雷电防护技术测试试验等方面取得了若干研究结果。十年期间共成功触发闪电94次,回击电流峰值最大值为42 kA,平均值为16 kA;分析给出了自然闪电预击穿过程电场变化脉冲特征类型和差异;观测发现高建筑物上行连接先导可达几百米甚至超过1 km,其发展速度可达106 m/s量级,下行先导与上行连接先导的连接呈多样性;雷电防护技术测试试验表明人工触发闪电近距离电磁场耦合在架空线路上的感应电压达到千伏量级,多回击、长连续电流和地电位抬升是造成浪涌保护器(SPD)损害的主要因素;闪电定位系统探测性能的评估结果显示粤港澳闪电定位系统的闪电和回击的探测效率分别为96%和89%,定位误差算术平均值为532 m,回击电流强度的估算值约为真实值的0.63倍。 相似文献
20.
LU Weitao ZHANG Yijun ZHOU Xiuji MENG Qing ZHENG Dong MA Ming WANG Fei CHEN Shaodong QIE Xiushu 《Acta Meteorologica Sinica》2008,22(3):362-374
A comparison is made of the high-speed (2000 fps) lightning between two techniques. The analysis shows (UPL) in altitude-triggered negative lightning (ATNL) photographic records in rocket-triggered negative that: the initial speed of upward positive leader is about one order of magnitude less than that in classically triggered negative lightning (CTNL), while the triggering height of ATNL is higher than that of CTNL; the afterglow time of metal-vaporized part of the lightning channel can endure for about 160-170 ms, thus the luminosity of the air-ionized part can reflect the characteristics of the current in the lightning channel better than that of the metal-vaporized part. According to the different characteristics of the luminosity change of the lightning channel, together with the observation of the electric field changes, three kinds of processes after return-stroke (RS) can be distinguished: the continuous decaying type without M component, the isolated type and the continuing type with M component, corresponding to different wave shapes of the continuous current. The geometric mean of the interval of RS with M component is 77 ms, longer than that (37 ms) of RS without M component. And the initial continuous current (ICC) with M component also has a longer duration compared to the ICC without M component. The distinction in the relative luminosity between the lightning channel before RS and that before M component is obvious: the former is very weak or even cannot be observed, while the latter is still considerably luminous. 相似文献