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1.
由于受闪电监测系统限制,已有研究多局限于强对流天气的地闪(cloud-to-ground lightning,CG)活动特征。本文利用VLF/LF三维闪电监测定位资料,结合雷达观测等资料对北京地区一次典型大雹天气过程的全闪活动特征进行了分析。结果表明:降雹发生前,闪电活动主要分布在对流系统的后部,闪电数较少,且以负地闪活动为主;降雹期间,闪电频数显著增加,云闪(intracloud lightning,IC)及正地闪活动明显加强,该阶段闪电活动主要集中在对流系统强回波中心及其前部雷达反射率因子梯度较大的区域;降雹结束之后,强回波中心基本移出北京,北京范围内的闪电频数明显减少。正闪比例在降雹发生前逐渐增大,在降雹期间稳定维持在较大值,降雹结束后迅速减小;云闪比(云闪频数/总闪频数)表现为降雹发生前和降雹结束后逐渐增大趋势,在降雹期间基本维持稳定少变。闪电的电流强度主要集中在5—50 kA之间,20 kA以下的低雷电流强度的云闪和地闪多发生在降雹期间及降雹结束后,而20 kA以上的高雷电流强度的云闪和地闪在降雹发生前占有很大比例,小于5 kA的云闪在大雹发生期间所占比例明显高于地闪。降雹发生前及降雹结束后云闪发生高度在2-6 km,降雹期间有所抬升,约为2-8km。闪电频数峰值超前于降水峰值5-20 min。 相似文献
2.
Electrical characteristics of an isolated supercell storm observed on 13 June 2014 over Beijing were investigated using lightning data obtained from the Beijing Lightning Network, radar reflectivity, and hydrometeor retrievals during the 6-h lifetime. Positive cloud-to-ground(+CG) lightning took a high percentage of CG lightning. Before and during a hail event,+CG lightning was more frequent than negative cloud-to-ground(-CG) lightning, except that +CG lightning took a high percentage at the beginning and in the dissipating stage. After the hail event ended,-CG lightning dominated and reached its maximum value. An analysis of hydrometeors retrieved by X-band polarimetric radar revealed that the discharge concentrated in the convective region with graupel particles and hailstones, whereas graupel, snow and ice crystals in the stratiform region. Lightning radiation sources were located mainly in the convective region, some of which were distributed along a gradient of radar reflectivity from the convective region to the stratiform region. The indication is that the supercell demonstrated an inverted tripole charge structure before the hail event, which converted to a normal tripole structure after the hail event. 相似文献
3.
OBSERVATION AND MODEL ANALYSES OF POSITIVE CLOUD-TO-GROUND LIGHTNING IN MESOSCALE CONVECTIVE SYSTEMS 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Yan Muhong Guo Changming Qie Xiushu Ge Zhengmo Zhang Guangshu Lanzhou Institute of Plateau Atmospheric Physics Academia Sinica Lanzhou 《Acta Meteorologica Sinica》1992,(4)
The analyses of spatial and temporal characteristics of positive cloud-to-ground(CG)lightning for four mesoscaleconvective systems and two severe local convective systems in 1989 and 1990 show that positive CG flash rate usuallyhas two peak values.The major peak occurs during the developing stage of the storm and most of the positive CGflashes originate at the lower part of the storm.The minor occurs during the dissipative stage of the storm and most ofthe positive CG flashes originate at the upper part of the storm,especially in the region of the wind divergence in thestorm anvil.The positive CG flash rate is almost an order of magnitude larger in the developing stage than in thedissipative stage.The appearing time of the peak of negative CG flash rate is in accordance with that of the valley of pos-itive CG flash rate.The higher the intensity of the radar echo,the higher the positive CG flash rate.Most of the positive CG flashes oc-cur when the weak echo area is larger,and mostly originate in the region where the radar echo intensity is about 10dBzand in the back region of the moving storms.The spatial distribution of the positive CG flashes is much more dispersivethan that of the negative.The mesoscale analysis reveals a bipolar lightning pattern.The mean bipole--length reaches itsminimum during the mature stage of the storm and reaches the maximum during the developing stage of the storm.The vertical distribution of the charge density is calculated by a one-dimensional charging model.Then,we discussthe producing condition of the positive CG lightning and forming cause of charge structure mentioned above. 相似文献
4.
OBSERVATION AND MODEL ANALYSES OF POSITIVE CLOUD-TO-GROUND LIGHTNING IN MESOSCALE CONVECTIVE SYSTEMS* 下载免费PDF全文
下载免费PDF全文 Yan Muhong Guo Changming Qie Xiushu Ge Zhengmo Zhang Guangshu 《Acta Meteorologica Sinica》1992,6(4):501-510
The analyses of spatial and temporal characteristics of positive cloud-to-ground(CG) lightning for four mesoscale convective systems and two severe local convective systems in 1989 and 1990 show that positive CG flash rate usually has two peak values.The major peak occurs during the developing stage of the storm and most of the positive CG flashes originate at the lower part of the storm.The minor occurs during the dissipative stage of the storm and most of the positive CG flashes originate at the upper part of the storm,especially in the region of the wind divergence in the storm anvil.The positive CG flash rate is almost an order of magnitude larger in the developing stage than in the dissipative stage.The appearing time of the peak of negative CG flash rate is in accordance with that of the valley of positive CG flash rate.The higher the intensity of the radar echo,the higher the positive CG flash rate.Most of the positive CG flashes occur when the weak echo area is larger,and mostly originate in the region where the radar echo intensity is about 10dBz and in the back region of the moving storms.The spatial distribution of the positive CG flashes is much more dispersive than that of the negative.The mesoscale analysis reveals a bipolar lightning pattern.The mean bipole-length reaches its minimum during the mature stage of the storm and reaches the maximum during the developing stage of the storm.The vertical distribution of the charge density is calculated by a one-dimensional charging model.Then,we discuss the producing condition of the positive CG lightning and forming cause of charge structure mentioned above. 相似文献
5.
北京夏季强雷暴降水回波结构与闪电特征个例分析 总被引:3,自引:1,他引:2
利用北京市气象局短时临近交互预报系统(VIPS)资料,对2008年奥运会期间两次强降水天气过程雷达回波结构及闪电时空特征进行了细致分析。结果表明,局地性强雷暴降雨天气中,降雨率峰值与闪电活动峰值关系有超前也有略滞后的情况;关于云闪和地闪出现时间,云闪一般要超前地闪5~15min;强降水回波单体中,总闪电次数的70%以上出现在大于40dBZ的强回波区,当最大回波强度大于60dBZ时,云闪出现在强回波区的概率接近90%,说明回波强度越强,云闪出现在强回波区的概率越大;对云闪与雷达回波垂直结构分析发现,强降水单体中云闪发生的高度主要在6km以上,且云闪发生频数峰值出现在8~11km高度。 相似文献
6.
北京城区相继多次降雹的一次强雷暴的闪电特征 总被引:2,自引:1,他引:1
受东北冷涡和低层暖湿气流影响,2016年6月10日北京午后爆发了相继5次降冰雹的一次强雷暴天气过程。利用国家“973”项目“雷电重大灾害天气系统的动力—微物理—电过程和成灾机理(雷暴973)”2016年夏季协同观测期间获得的闪电全闪三维定位和多普勒天气雷达等资料,详细分析了此次雹暴的闪电活动和雷达回波特征。此次雹暴过程包括三个孤立的单体相继发展、并合,所分析的4次降雹过程中,总闪电频数在降雹期间都有明显增多,最高可达179 flashes min?1。云闪占全部闪电的80%以上,其中3次降雹前出现正地闪突增,其比例升高,占全部地闪的比例最高达58%。降雹时雷达回波>45 dBZ的面积增大,顶高超过13 km。整个雹暴过程,闪电辐射源主要分布在6~10 km的高度区域,与强回波具有一致性。所分析的4次降雹过程均出现明显的总闪频数跃增,并通过2σ阈值检验,其中3次提前时间为8~18 min,说明总闪频数对于降雹过程有一定的预警能力。 相似文献
7.
北京一次强飑线过程的闪电辐射源演变特征及其与对流区域和地面热力条件的关系 总被引:1,自引:1,他引:0
利用2015年夏季北京闪电综合探测(BLNET)总闪辐射源定位、多普勒天气雷达、地面自动气象站和探空资料等多种协同观测资料,详细分析了2015年8月7日北京一次强飑线过程不同阶段的闪电特征,并探讨了闪电与对流区域和地面热力条件之间的关系。飑线过程整体上以云闪为主,根据雷达回波和闪电频数可以将飑线过程分为发展、增强及减弱三个阶段。发展阶段表现为多个孤立的γ中尺度对流降水单体,随着北京城区降水单体的迅速发展,强回波顶高延伸到-20℃温度层高度,闪电辐射源高度也逐步增加,闪电明显增多,但总闪电频数整体低于80次/min。增强阶段单体合并,闪电频数快速增长,0℃层以上及以下的强回波(>40 dBZ)体积明显增大,飑线形成后,总闪和地闪均达到峰值,分别约248次/min和18次/min,负地闪占总地闪比例为90%,辐射源主要分布在线状对流降水区内,辐射源数量峰值出现在5~9 km高度层。减弱阶段飑线主体下降到0℃以下并迅速衰减,辐射源分布明显向后部层云降水区倾斜。95%的闪电发生在对流线附近10 km范围内,即对流云区和过渡区。在系统发展和增强阶段,对流云区与层云区辐射源的活跃时段基本一致;系统减弱阶段,对流降水云区辐射源数量迅速减少。在系统的不同发展阶段,闪电活跃区域对应于冷池出流同平原暖湿气流在近地面形成的相当位温强梯度带内。 相似文献
8.
利用江苏省闪电监测定位系统探测2007—2013年地闪观测资料和2013年云闪观测资料,研究了苏南地区高速公路沿线地闪和云闪的时空分布特征。研究表明:1)苏南地区高速公路的年、月地闪频次具有西部多于东部的分布特征,其中扬溧高速最多;6—8月是地闪出现的高峰期,且西部地区出现峰值时间(7月)早于东部地区(8月);但日地闪频次的峰值出现时间东部(13~16 h)要略早于西部地区(14~18 h)。2)地闪强度(峰值电流)主要集中在20~50 kA,总体趋势是东部大于西部;高速公路地闪强度高值区主要集中在宁镇丘陵以及太湖、长江沿线附近,其中南京绕城高速、扬溧高速镇江段、宁杭高速南京段、沿江高速无锡段、沪宁高速等都是地闪密度较高路段。3)云闪集中发生在5—9月,西部地区云闪频次波动明显,总体呈双峰型月变化分布特征;东部地区云闪频次相对集中,呈单峰型月变化分布特征;西部地区出现云闪日高频次的时间(13~18 h)要早于东部地区(17~18 h)。 相似文献
9.
Study of the total lightning activity in a hailstorm 总被引:1,自引:0,他引:1
Joan Montany Serge Soula Nicolau Pineda Oscar van der Velde Pere Clapers Glria Sol Joan Bech D. Romero 《Atmospheric Research》2009,91(2-4):430-437
A thunderstorm that developed over northeastern Spain on 16 June 2006 is analyzed. This severe thunderstorm produced hailstones as large as 40 mm and had a lifetime of 3 h and 30 min. Radar cross-sections show strong vertical development with cloud echo tops reaching an altitude of 13 km. The specific characteristics of the lightning activity of this storm were: (i) a large amount (81%) of negative cloud-to-ground (−CG) flashes with very low peak currents (< 10 kA in absolute value), (ii) a very large proportion of intra-cloud (IC) flashes with an IC/CG ratio reaching about 400, (iii) a large number of “short” IC flashes (with only 1-VHF source according to SAFIR detection), (iv) a large increase of the −CG flash rate and of the CG proportion near the end of the storm. The rate of −CG flashes with a low peak current were observed to evolve similarly to the rates of IC flashes. Most of them have been assumed to be IC flashes misclassified by the Spanish Lightning Detection Network (SLDN). They have been filtered as it is usually done for misclassified +CG flashes. After this filtering, CG flash rates remained very low (< 1 min− 1) with +CG flashes sometimes dominant. All the particular lightning activity characteristics similar to those observed in the Severe Thunderstorm Electrification and Precipitation Study (STEPS) campaigns support the hypothesis that this thunderstorm could have had an inverted-polarity or complex charge structure. The maximum IC flash rate (67 min− 1) peaked 24 min before the presence of reflectivity higher than 60 dBZ. The IC activity abruptly decreased during the period when reflectivity was dramatically increasing. The time of maximum reflectivity observed by radar was consistent with the times of reported hail at the ground. 相似文献
10.
该文选取北京地区2006年夏季的18次雷暴过程,利用SAFIR3000三维闪电定位系统观测到的总闪数据,分析了闪电与雷达反演的对流活动区降水量和对流活动区面积的相关关系,结果表明:北京地区的雷暴活动中,单个闪电所表征的降水量的范围在0.86×10~7~6.57×10~7kg/fl之间,平均值为2.65×10~7kg/fl;闪电活动与对流活动区降水量的线性相关关系显著,相关系数达到0.826;闪电活动与对流活动区面积也具有显著的线性关系,相关性系数达到0.846。文中给出了基于6 min闪电频次估算6 min对流降水量以及对流活动区面积的拟合方程。分析还发现,总闪活动与降水的关系要明显好于地闪,总闪信息的应用极大提高了分析结果的质量和可信性,分析结果对于利用闪电信息估测降水具有参考意义。 相似文献
11.
一次具有对流合并现象的强飑线系统的闪电活动特征及其与动力场的关系 总被引:7,自引:5,他引:2
受东北冷涡与副热带高压西北部暖湿气流影响,2015年7月27日北京地区爆发了一次具有明显对流单体合并特征的强飑线灾害性强对流天气过程。利用北京闪电定位网(BLNet)总闪定位、多普勒雷达和探空资料等,详细分析了此次飑线过程整个生命史期间不同对流区的总闪活动特征。结果表明,整个飑线过程以云闪为主,地闪活动以负地闪为主;对流单体合并时云闪数量激增,飑线过程后期正地闪比例跃增。93%的闪电主要分布在距对流线10 km范围内,层云区闪电较少;层云区的闪电电荷来源主要是由对流区的电荷经过过渡区输送而来,正地闪更易发生在过渡区和层云区。对流合并过程中有大量的水汽集中,垂直积分液态含水量(VIL)峰值超前闪电峰值24 min。利用变分多普勒雷达分析系统(VDRAS)对这次过程的三维风场进了反演,据此对单体合并期间闪电增强的动力原因进行了研究。根据VDRAS反演的动力场来看,对流云单体合并主要发生在低层辐合区内,合并后上升运动加强,上升气流范围变大,闪电活动显著增强,并主要发生在具有较强垂直风切变的区域,少部分闪电发生在对流区后部开始出现下沉气流的区域。 相似文献
12.
渝西一次强对流风暴过程的中尺度特征分析 总被引:1,自引:0,他引:1
利用常规观测资料、地面加密自动站资料、ADTD地闪资料和天气雷达资料,分析了2011年7月23日重庆西部一次强对流风暴过程的中尺度特征。结果显示:(1)此次强对流天气是在“两高一低”环流背景下发生的,强的层结不稳定、低层水汽充足、大的下沉不稳定能量及0-6 km中等强度垂直风切变为其提供了有利的环境条件。(2)地面灾害性大风主要集中在地面强降水及地闪密度中心附近,地面观测到与地面大风相联系的辐合线、辐散区、冷池及雷暴高压等中尺度特征,地闪以负地闪为主,负、正地闪之比约为101:1。(3)造成极端大风和短时强降水的强对流风暴在雷达回波图上具有明显的阵风锋、回波悬垂、弱回波区和有界弱回波区等特征;在径向速度图上,具有明显的中气旋、辐散区、大风区、前侧入流、高层辐散和低层辐合等特征,这些特征对地面灾害性大风具有一定的监测预警意义。 相似文献
13.
Three summer thunderstorms in the eastern region of China were analyzed in detail using multiple data, including Doppler radar, lightning location network, TRMM (Tropical Rainfall Measuring Mission), MT- SAT (Multi-Function Transport Satellite) images, NCEP (National Centers for Environmental Prediction) Reanalysis, and radiosonde. Two of the three storms were sprite-producing and the other was non-sprite- producing. The two sprite-producing storms occurred on 1 2 August and 2~28 July 2007, producing 16 and one sprite, respectively. The non-sprite-producing storm occurred on 29-30 July 2007. The major ob- jective of the study was to try to find possible differences between sprite-producing and non-sprite producing storms using the multiple datasets. The results showed that the convection in the 1-2 August storm was the strongest compared with the other storms, and it produced the largest number of sprites. Precipitation ice, cloud ice and cloud water content in the convective regions in the 1-2 August storm were larger than in the other two storms, but the opposite was true in the weak convective regions. The storm microphysical prop- erties along lines through parent CG (cloud-to-ground lightning) locations showed no special characteristics related to sprites. The flash rate evolution in the 1-2 August storm provided additional confirmation that major sprite activity coincides with a rapid decrease in the negative CG flash rate. However, the evolution curve of the CG flash rate was erratic in the sprite-producing storm on 27-28 July, which was significantly different from that in the 1 2 August storm. The average positive CG peak current in sprite-producing storms was larger than that in the non-sprite-producing one. 相似文献
14.
暴雨与雹暴过程中对应的闪电活动特征显著不同,为了对比这两类对流过程中的闪电活动特征差异,该文选取了两种比较有代表性的雷暴个例——暴雨过程和雹暴过程,利用全闪(包括云闪与地闪)定位数据,分析了两者闪电活动特征以及闪电活动与对流降水之间的关系。研究发现:暴雨过程中地闪频次和正地闪比例均低于雹暴过程;相对于暴雨过程,雹暴过程的主正电荷区放电高度更高,主正电荷区所处的温度偏低;暴雨过程中,总闪频次与对流降水量、总闪频次与对流降水强度的相关性均优于雹暴过程。总体而言,雹暴过程中闪电活动特征及其与降水的关系更为复杂,这可能与雹暴过程具有更为复杂的动力和冰相过程有关。 相似文献
15.
基于2014—2015年5—9月西藏那曲地区多普勒天气雷达数据,结合地闪观测数据,识别雷暴单体样本,统计分析了地闪位置附近的雷达回波分布特征,并研究了高原雷暴的雷达参量与地闪频次的相关关系。结果表明:那曲地区地闪发生位置附近的雷达最大反射率因子呈正态分布,峰值分布区间集中于34~41 dBZ。发生地闪位置附近的20 dBZ回波顶主要集中于11~15 km高度,30 dBZ回波顶高分布的峰值区间则为8.5~12 km。分析表明:表征局地雷暴对流发展强度的雷达参量与地闪频次之间一对一的相关关系较差,但相关性随地闪频次增加而增强。基于雷达参量分段统计得到的对应分段平均地闪频次与雷达参量之间表现出较强相关关系,体现了宏观上闪电活动强度与雷暴发展强度之间的正向关系。其中,基于原始数值进行区间划分的强回波(组合反射率因子不小于30 dBZ)面积与平均地闪频次的线性相关系数达0.75,基于对数数值区间划分的7~11 km累积可降冰含量的对数值和地闪频次的线性相关系数达0.95。文中对比了多个雷达参量和地闪频次线性拟合与幂函数拟合结果,整体上幂函数拟合略好于线性拟合。 相似文献
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A Case Study of Cloud-to-Ground Lightning Activities in Hailstorms under Cold Eddy Synoptic Situation 总被引:1,自引:1,他引:0 下载免费PDF全文
下载免费PDF全文 There were three hailstorms in Shandong Province,caused by a same northeast cold eddy situation on 1 June 2002.Cloud-to-ground (CG) flashes occurring in the weather event were observed by Shandong Lightning Detection Network (SLDN),which consists of 10 sensors covering all over Shandong Province.The temporal and spatial distributions of CG lightning are investigated for the three hailstorms by using the data from SLDN,Doppler radar and satellite.The results show that different thunderstorms present different lightning features even if under the same synoptic situation.The percentage of positive CG lightning is very high during the period of hail falling.CG flashes mainly occurred in the region with a cloud top brightness temperature lower than -50°C.Negative CG flashes usually clustered in the lower temperature region and tended to occur in the region with maximum temperature gradient,while the positive ones usually spread discretely.Negative CG flashes usually occurred in intense echo regions with reflectivity greater than 50 dBz,while the positive CG flashes often occurred in weak and stable echo regions (10-30 dBz) or cloud anvils,although they can be observed in strong convective regions sometimes.Almost all hail falling took place in the stage with active positive flashes,and the peak positive flash rate is a little prior to the hail events.The thunderstorm could lead to disastrous weather when positive CG lightning activities occur in cluster.Severe thunderstorms sometimes present a low flash rate at its vigorous stage,which is probably caused by the"mechanism of chargeregion lift"through investigating the reflectivity evolution.Combined with the total lightning (intracloud and CG) data obtained by LIS onboard TRMM,the phenomenon of high ratio of intracloud flash to CG flash in severe hailstorm has been discussed.The competition of the same charge sources between different lightning types can also be helpful for explaining the cause of low CG lightning activities in severe storms. 相似文献
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华北一次中尺度对流系统中的闪电活动特征及其与雷暴动力过程的关系研究 总被引:8,自引:2,他引:6
利用地面地闪定位资料、多普勒天气雷达和常规气象资料, 分析了一次具有前部对流线和后部大范围层状云降水(LLTS)的典型中尺度对流系统(MCS)的闪电活动演变特征。整个MCS生命史中负地闪占主导地位, 正地闪则表现不活跃。观测得到MCS消散阶段云闪与地闪的比例为2∶1, 地闪主要分布在地面相对位温和对流不稳定能量均达到高值的区域; 负地闪主要密集地分布在大于40 dBZ的回波范围内; 正地闪则稀疏地分布在30~40 dBZ的回波范围内。在低于-40℃的温度区域内地闪分布较多, 而密集的地闪分布在温度梯度大的区域内。结合单多普勒雷达的水平风场反演, 发现地闪集中出现在气流表现为气旋性切变或水平风呈现切变的区域。该区域与MCS的强回波区相对应, 并且地闪易发生在上升气流达到最大并开始出现下沉气流的阶段。 相似文献
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两个中尺度对流系统的降水结构和闪电特征 总被引:10,自引:3,他引:7
对两个处于不同发展阶段的中尺度对流系统(MCS)降水结构的分析结果表明,处于初生至发展阶段的MCS,对流降水和层云降水的面积比相对较大,处于成熟至消亡阶段的MCS的相对较小。本文进一步分析了这两个MCS个例在6km高度处的雷达回波特征及其和闪电的关系,结果表明处于初生至发展阶段的MCS的绝大部分事件(闪电资料的一种)集中发生在MCS中的强对流单体回波区,而对处于成熟至消亡阶段的MCS,事件集中发生在对流区和对流云向层云转化的回波区。 相似文献