通道感应电荷对放电活动特征的影响

为探究闪电放电后电荷重置方案中异极性电荷植入法对雷暴云放电效应的影响,利用已有的三维雷暴云起放电模式,结合2011年8月12日发生在南京地区一次典型的雷暴个例,通过控制倍数改变闪电通道感应电荷量进行大量敏感性试验。模拟结果表明:闪电通道感应电荷量对空间电荷结构分布和云闪通道长度有明显影响。通道感应电荷量增加,即空间异极性电荷堆增多,加大空间电荷结构复杂程度;云闪通道在发展过程中难以穿越与自身极性相同的电荷堆,导致短通道云闪频次增加。通道感应电荷累积总量相同,不同闪电通道感应电荷量下云闪频次与通道电荷平均累积量呈负相关,即通道感应电荷平均累积量增大,云闪频次减少。而地闪频次、类型与通道感应电荷量相关性不明显。     

Fine-resolution simulation of cloud-to-ground lightning and thundercloud charge transfer

2-D 12.5 m-resolution simulations of cloud-to-ground (CG) lightning discharge processes have been performed using an improved stochastic lightning model for different types of cloud charge distributions, such as dipole, tripole, bi-dipole and multi-layer charge structures produced from the numerical simulation of thundercloud electrification. The modelling produced the fine branched channel structure of CG lightning and the results illustrate the relations between CG lightning channel propagation and cloud charge distribution. The simulated features of CG lightning are associated with the observed results. The simulation studies are essential in our understanding of complex charge transfer processes caused by CG lightning discharges in thunderclouds. The induced charges of opposite polarity are deposited or embedded in the local volumes where the bidirectional leaders passed during a CG lightning discharge. Although the embedding affects charge structure only in a pair of significant positive and negative charge regions closest to the ground, the electric field strength acutely weakens and electrostatic energy in thunderclouds is significantly consumed when the discharge terminates. In addition to simulating the upward and downward breakdown of the initial leader to ground and the ensuing return stroke (RS), the simulation assumes that current continues to flow in the channel to ground and determines the upward breakdown until the end of the discharge. For the subsequent discharge sub-process, the upward leader channel tends to transfer the charges with the same polarity as the RS, while the downward leader channel favors transfer of opposite charge to ground. In the sub-processes of a few CG flash simulations, the magnitude of the opposite charges from the downward leader exceeds that of charges with the same polarity from the upward leader so that the net charges transferred to the ground have a reversed polarity to the RS. The simulation presents similar features of CG lightning as those observed in realistic bipolar CG lightning.     

Interaction between adjacent lightning discharges in clouds

Using a 3D lightning radiation source locating system (LLS), three pairs of associated lightning discharges (two or more adjacent lightning discharges following an arbitrary rule that their space-gap was less than 10 km and their time-gap was less than 800 ms) were observed, and the interaction between associated lightning discharges was analyzed. All these three pairs of associated lightning discharges were found to involve three or more charge regions (the ground was considered as a special charge region). Moreover, at least one charge region involved two lightning discharges per pair of associated lightning discharges. Identified from electric field changes, the subsequent lightning discharges were suppressed by the prior lightning discharges. However, it is possible that the prior lightning discharge provided a remaining discharge channel to facilitate the subsequent lightning discharge. The third case provided evidence of this possibility. Together, the results suggested that, if the charges in the main negative charge region can be consumed using artificial lightning above the main negative charge regions, lightning accidents on the ground could be greatly reduced, on the condition that the height of the main negative charge region and the charge intensity of the lower positive charge region are suitable.     

闪电宽带电场三维定位及其回波特征

利用自制闪电宽带电场三维定位系统, 分析了山东地区一次雷暴过程闪电三维时空结构。结果表明, 在云内击穿放电整个时间序列中, 辐射源空间分布（对应强电场区分布）呈现明显的三极性分层电荷结构, 并分布在3个高度层次： 6~8 km为上部正电荷区, 4~6 km为中部负电荷, 2.5~4 km为下部次正电荷区。云内放电首先出现在中部负电荷区, 然后产生向上发展的负流光进入上部正电荷区传输, 形成向上发展的云闪; 随着雷暴发展, 产生向下发展的负流光进入下部次正电荷区, 形成向下发展的云闪, 且能维持到雷暴发展后期。结合雷达回波分析表明, 雷达回波的强度影响着闪电活动, 强回波区的增加会使得强电场区域增加, 但是强电场区域并不与最强回波区域对应, 除下部正电荷区的底部会有部分辐射源出现在回波强度为40~50 dBz的区域中以外, 大多数的辐射源出现在25~35 dBz的中等回波区范围内, 强回波区域中通常较少出现击穿放电。     

湖北地区一次雷暴云电荷结构和放电特征的数值模拟研究

在三维强风暴动力—电耦合数值模式中引入非感应起电参数化方案、感应起电参数化方案以及放电参数化方案,对湖北宜昌2014年6月19日一次闪电过程中雷暴云电荷结构和放电特征进行了模拟分析。模拟结果表明,当云内粒子增多、增大,大部分霰粒子逐渐降落到中低层,上部正电荷区减小,底部正电荷堆范围开始扩大,中部负电荷区和底部正电荷区成为主要的起电区域,这种底部正电荷区较厚的三极性电荷结构不利于地闪的产生。在粒子带电分析中,霰与冰晶粒子携带的电荷量均大于云滴,说明霰与冰晶之间非感应碰撞是云中主要的起电过程。虽然云滴的电荷量较小,但霰与云滴之间感应碰撞的作用不可忽视。结合电荷结构的分布,发现底部正电荷堆的垂直分布高度与霰粒子、云滴的电荷浓度的分布有关,且霰与云滴电荷浓度的累积区与底部正电荷堆相一致。     

中国内陆高原地区典型雷暴过程的地闪特征及电荷结构反演

利用2002年夏季在青海省大通县进行的雷暴及闪电综合观测实验中所获取的6站GPS同步闪电电场变化资料,对8月4日一次下部具有大范围正电荷区的典型性雷暴过程的雷电特征进行详细研究。利用点电荷模式对16次负地闪和2次正地闪所包含的共65次回击所中和电荷源进行的非线性最小二乘法拟合研究发现,负地闪所中和的负电荷距离地面的相对高度在3~5 km,而两次正地闪所中和的雷暴云电荷在5~6 km的高度,表明该雷暴云呈三极性电荷结构。负地闪单次回击所中和电荷量平均为1.48 C,而两次正地闪都为单次回击且中和的电荷量分别为1.37 C和2.68 C。     

云下部正电荷区与负地闪预击穿过程

三维雷电观测系统LMA(Lightning Mapping Array)是最近发展起来的基于GPS时钟同步的闪电VHF辐射源到达时间差(TOA)定位技术,能以很高的时间分辨率(50 ns)和空间定位精度(50-100 m)展现闪电放电发展过程的三维时空分布,揭示雷暴中电荷结构及其与放电过程的关系.文中利用三维雷电VHF辐射源观测资料分析了负地闪预击穿过程的时空分布特征,讨论了云下部正电荷区对负地闪发生的影响,其结果表明在首次回击之前存在长时间预击穿过程的负地闪中,预击穿过程是云中部负电荷区与下部正电荷区之间的一种云内放电过程,闪电起始于云中部负电荷区,然后向下发展传输,进入正电荷区后闪电通道在云下部正电荷区水平发展,其放电特征与反极性云闪放电一致,云内放电过程最后阶段的K型击穿激发了地闪的梯级先导,梯级先导穿过云下部正电荷区向下发展传输.云下部正电荷的存在是导致负地闪首次回击之前存在长时间云内预击穿过程的主要原因.     

雷暴云内电荷水平分布形式对闪电放电的影响

为了定量探究雷暴云内电荷水平分布形式对闪电类型和先导传播行为的影响,建立了典型雷暴云电荷结构模型,引入控制电荷水平分布的参数,利用改进的随机放电参数化方案,开展二维高分辨率模拟试验。结果表明:主正电荷区电荷水平分布不均匀且向中心聚集时,产生的闪电类型多为正地闪和正极性云闪,随着电荷水平分布趋于均匀,闪电类型转变为负地闪;主负电荷区电荷水平分布趋于均匀时,闪电类型由负地闪向正极性云闪再向正地闪转变;闪电先导传播特征有较大差异,电荷分布密集不均匀时,先导被束缚在电荷高密度中心,主要在电荷区内发展,当电荷分布单一均匀时,先导能穿出电荷区并水平延伸十几至二十多千米。分析两个电荷区之间的电位分布发现,电荷区电荷水平分布趋于均匀时,位势线向电荷密度中心集中,整个位势阱水平延展,闪电触发点的初始电位值有较大差异,有利于闪电类型和先导传播行为的改变。     

闪电先导三维自持发展模式的建立

为研究上行先导发生发展的特征及其与地面构筑物间的相互作用,该文建立了闪电先导三维自持发展模式。该模式能够在给定雷暴云下空间电场初始分布情况、下行梯级先导始发位置及地面构筑物几何形状等参量时,进行自持发展模拟,计算出上行正先导随时间在三维空间内的头部位置、速度、电流强度、线电荷密度等物理特征量的变化。模拟发现上行正先导始发及发展过程中,其速度呈逐渐增加趋势,临近最后一跳发生前,上行正先导速度增加明显,整个过程中先导速度的变化范围为104~106 m·s-1量级,电流强度随时间也具有逐渐增加趋势,该变化趋势与光学观测得到的先导头部亮度的变化趋势相一致。该闪电先导三维自持模拟模型能够为进一步研究雷击地面构筑物特点提供参考。     

Characteristics of storm cells from observations in Yakutia

Considered are the methods of thunderstorm cells clustering using the data of one-point and multipoint lightning detectors and their characteristic features based on the observations in Yakutia. As the thunderstorm activity intensifies, i.e., the lightning discharge density in the region increases, the number of storm centers and the number of cells in the center grow up. The sizes and the lifetime of thunderstorm cells in Yakutia correspond to the similar data for North America and the European part of Russia. The maximum area and intensity of both center and thunderstorm cell are observed at the stage of development, in the middle of their lifetime. As the cell area increases, the intensity of lightning discharges decreases inversely to the area. It is revealed that as the cell oblongness increases, the intensity of lightning discharges in these cells becomes higher as well.     

中国南北方雷暴及人工触发闪电电特性对比分析

通过对我国南北方雷暴及人工触发闪电电特性的对比分析，发现南北方雷暴及人工触发闪是电特性有很大差异。北方雷暴电荷结构呈三极性，人工触发闪电是在地面电场为正的情况下成功的。主要由连续电流和双极性电流脉冲组成，最大放电电流为１ｋＡ，中和电葆量只有几库仑；南方雷暴则为偶极性，触发闪电由连续电流和我次回击组成，电流峰值在于１０ｋＡ。触发闪电时地面电场均为负极性，其中在４ｋＶ／ｍ以上；触发高度在北方最低为２６     

Charge structure of a summer thunderstorm in North China: Simulation using a Regional Atmospheric Model System

Electrification and simple discharge schemes are coupled into a 3D Regional Atmospheric Model System （RAMS） as microphysical parameterizations, in accordance with electrical experiment results. The dynamics, microphysics, and electrifi- cation components are fully integrated into the RAMS model, and the inductive and non-inductive electrification mechanisms are considered in the charging process. The results indicate that the thunderstorm mainly had a normal tripole charge structure. The simulated charge structure and lightning frequency are basically consistent with observations of the lightning radiation source distribution. The non-inductive charging mechanism contributed to the electrification during the whole lifetime of the thunderstorm, while the inductive electrification mechanism played a significant role in the development period and the mature stage when the electric field reached a large value. The charge structure in the convective region and the rearward region are analyzed, showing that the charge density in the convective region was double that in the rearward region.     

雷暴闪电放电活动对电离层影响的研究进展

雷暴中的闪电放电能够产生强静电场以及电磁辐射场,从而对空间电离层产生重要影响,引起电离层电子密度分布的扰动。研究表明:闪电放电引起电离层扰动的方式有两种:直接耦合和间接耦合。其中,直接耦合主要来自于闪电产生的准静电场及电磁场的作用,在甚低频 (VLF) 反射信号上表现出快VLF事件, 而间接耦合主要是闪电低频电磁波在传播过程中与磁层相互作用,在辐射带产生闪电诱导电子沉降 (LEP) 现象。雷暴闪电活动能够改变电离层从D层到F层的电子密度分布,影响对流层大气和电离层之间的场,导致中高层瞬态放电淘气精灵 (elves) 及红闪 (sprite) 等现象的激发。闪电VLF传输反射信号可用于反演电离层密度的变化,目前已成为一种探测电离层扰动的常用方法,而引起电离层扰动的强度不但和闪电放电参量密切相关,也和闪电放电过程、类型有关。该文重点阐述了闪电放电与电离层直接耦合和间接耦合作用以及导致的相关现象。     

重庆地区一次雷暴云电过程及其对初始云滴数浓度响应的数值模拟

采用耦合了Saunders和Takahashi两种非感应起电参数化方案的RAMS(Regional Atmospheric Modeling System)模式,对重庆地区一次雷暴过程进行模拟,对比分析了两种起电参数化方案下,电荷开始分离时和雷暴云发展到成熟阶段时的水成物粒子的分布、所带电荷密度以及雷暴云的电荷结构分布。模拟结果表明,在Saunders起电参数化方案下,雷暴云的电荷结构从起电到放电都呈现偶极性特征,而在Takahashi参数化方案下,雷暴云的电荷结构则由反偶极性发展成正偶极性。为研究CCN(cloud condensation nuclei)对雷暴云的影响,本文进行了两组敏感性试验,随着云滴初始数浓度增加,雷暴云的电荷结构没有发生极性翻转,但雷暴云中电荷量增加,电荷分布区域变大,有利于闪电发生。在Saunders起电参数化方案下,当云滴初始数浓度大于2 000 cm-3时,电荷量变小。通过分析微物理量场和微物理过程发现,随着云滴初始数浓度增加,冰相粒子质量混合比增加,在Saunders起电参数化方案下,当云滴初始数浓度大于2 000 cm-3时,霰粒子质量混合比减小。验证了CCN的变化能影响云的微物理过程,从而影响雷暴云的电荷分布以及闪电的发生,尤其是冰相物质的变化显著影响了雷暴云的起电过程。     

雷暴云电结构与闪电关系初探

利用雷暴云偶极性电结构理论,结合卫星和雷达资料分析了不同荷电结构下地面电场。结果表明:当正电荷中心高度越高、负电荷中心高度越低,形成的地面负电场越大,越有利于地闪的形成;负地闪发生后或云砧下方,地面电场成正极性,易引发正地闪;地闪分布与雷达回波、卫星云图中雷暴云位置基本一致,结合雷达和卫星资料可初步判断正/负地闪发生位置。     

Intracloud discharge and the correlated basic charge structure of a thunderstorm in Zhongchuan, a Chinese Inland Plateau region

The intracloud (IC) discharge is closely related to the charge structure of thunderstorms. The location, charge moment and polarity of intracloud discharges have been analyzed by using the electric field changes from a 7-site network of slow antennas synchronized by GPS with 1 μs time resolution in the area of Zhongchuan in the Chinese Inland Plateau. Ten IC flashes, from a storm on August 20, 2004, have been fitted by using the non-linear least-square solution. The results show that five IC flashes occurred between the main negative charge region and the lower positive charge region and other five between the main negative charge region and the upper positive charge region during the mature stage of the thunderstorm. The centers of discharge were 3.2–5.6 km and 6.8–7.7 km above sea level. The neutralized moments were about 4.56–61.0 C km and 1.06–15.9 C km. It suggests that the charge structure related to the lightning discharge can be represented by a tripole but with a strong positive charge region in the lower part of the thunderstorm, with the lower positive charge region taking an active role in the discharge.     

四川省复杂地貌区域雷电活动中大气电场特征研究

利用四川省2009~2019年大气电场仪监测资料,分析了省内平原和高原地区雷电活动中地面电场的变化特征。结果表明:平原地区雷电过程持续时间为30~350min,平均持续时间约为158min;根据地面电场变化趋势,分为两类:地面电场值主要为负的偶极性的电荷结构,地面电场值由正到负的三极性电荷结构。高原地区雷暴云电荷累积速度快,击穿空气发生早,雷电过程发展到旺盛阶段的用时短,雷电过程持续时间为30~360min,平均持续时间约为93min,其分类与平原地区一致。      

Positive Charge Region in Lower Part of Thunderstorm and Preliminary Breakdown Process of Negative Cloud-to-Ground Lightning

A new lightning locating technology, called Lightning Mapping Array （LMA）, has been developed. The system takes advantage of GPS technology to measure the times of arrival （TOA） of lightning impulsive very high frequency （VHF） radiation events at each remote location. The spatiotemporal development processes of lightning are described in three-dimension by measurement of the system with high time resolution （50 ns） and space precision （50-100 m）. The charge structures in thunderstorm and their relationship with lightning discharge processes are revealed. The temporal and spatial characteristics of preliminary breakdown process involved in negative cloud-to-ground （CG） lightning discharges are analyzed based on the data of lightning VHF radiation events. The effect of positive charge region in lower part of thunderstorm on the occurrence of negative CG lightning discharge is discussed. The results indicate that the preliminary breakdown process with longer duration in negative CG lightning discharges is an intracloud discharge process. It occurs between negative and positive charge regions located in middle and lower parts of thunderstorm respectively. It initiates from the negative charge region and propagates downward. After propagating into the positive charge region, the lightning channel develops horizontally. The characteristics of the preliminary breakdown process are consistent with that of intracloud lightning discharges. The stepped leaders are initiated by the K type breakdown which occurs in the last stage of the preliminary breakdown process and develops downward through the positive charge region. The existence of positive charge region in lower part of thunderstorm results in the occurrence of preliminary breakdown process with longer duration before the return stroke of negative CG lightning discharges.     

建筑物高度对上行闪电触发以及传播影响的数值模拟

为了探讨建筑物高度对单个上行闪电触发以及传播的影响,设定了一个固定的背景电场,并结合自行触发的上行闪电随机放电参数化方案,进行了二维高分辨率上行闪电放电的模拟试验。结果表明:(1)上行闪电在初始阶段分支比较少;发展到离地面2 km左右后,闪电开始出现大量的分支,闪电通道开始出现明显的分叉:一部分通道继续向高电荷密度中心垂直传播,另一部分通道绕过高电荷密度中心,向外水平传播;模拟的上行闪电只能垂直传播到4 km处的负电荷中心,不能穿过0电势线向上方的正电荷区传播。(2)建筑物高度对上行闪电的触发起了关键作用,建筑物越高,越容易触发上行闪电。(3)建筑物高度对上行闪电传播具有一定的反作用,随着建筑物高度增高,模拟出的上行闪电的水平和垂直传播距离都有所减小,通道的分形维数变小,通道传播的总长度也逐渐减小。     

雷暴云宏观特性对其电过程影响的数值模拟研究

利用一维雷暴云起电放电模式,初步模拟了STEPS(夏季雷暴降水与闪电研究计划)一次雷暴个例的一些基本电学特性。模拟的电荷结构为:雷暴云上部为正电荷,下部为负电荷,即符合典型雷暴云的偶极性电场分布特征,放电层电场随时间变化规律呈锯齿状分布。在此基础上,对云底高度和温度垂直递减率进行了敏感性试验,研究这两种因子对雷暴电过程的影响。结果表明:当云底高度降低时,放电高度升高,闪电频数增加,首次放电时间随之提前,即放电过程变强。温度垂直递减率增大,闪电频数降低,首次放电时间随之延后,正负电荷的分布范围减小。