| 闪电先导三维自持发展模式的建立 |
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| 引用本文: | 李丹,张义军,吕伟涛,陈绿文,张阳,郑栋.闪电先导三维自持发展模式的建立[J].应用气象学报,2015,26(2):203-210. |
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| 作者姓名: | 李丹 张义军 吕伟涛 陈绿文 张阳 郑栋 |
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| 作者单位: | 1.中国气象科学研究院灾害天气国家重点实验室/雷电物理与防护工程实验室, 北京 100081 |
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| 基金项目: | 国家自然科学基金项目(41075003,41205002),中国气象科学研究院基本科研业务费专项(2014R015) |
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| 摘 要: | 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。
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| 关 键 词: | 自持发展 先导速度 线电荷密度 电流强度 |
| 收稿时间: | 4/3/2014 12:00:00 AM |
A 3D Self consistent Propagation Model of the Lightning Leader |
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| Li Dan;Zhang Yijun;Lü Weitao;Chen Lü wen;Zhang Yang;Zheng Dong.A 3D Self consistent Propagation Model of the Lightning Leader[J].Quarterly Journal of Applied Meteorology,2015,26(2):203-210. |
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| Authors: | Li Dan;Zhang Yijun;Lü Weitao;Chen Lü wen;Zhang Yang;Zheng Dong |
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| Affiliation: | 1.Laboratory of Lightning Physics and Protection Engineering, State Key Laboratory of Severe Weather, Chinese Academy of Meteorological Sciences, Beijing 1000812.Fujian Provincial Meteorological Bureau, Fuzhou 3500013.Lightning Protection Center of Guangdong Province, Guangzhou 510080 |
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| Abstract: | The research on simulation of lightning discharge and propagation is one of key issues nowadays in the knowledge of lightning physics. To study propagation characteristics of the lightning leader and the interaction between the lightning leader and structures, a 3D self-consistent propagation model of lightning leader is proposed considering the limitation of the 2D random model that cannot describe physical features of lightning discharge three-dimension well. This model proposed can properly simulate the downward stepped leader in 3D space based on the initial conditions, such as the background electric field and the geometry of ground installations. Also, the upward continuous progression of positive connecting leaders from its inception to the final jump as the downward negative stepped leader approaches the ground can be simulated. Meanwhile, this model can self-consistently calculate physical parameters of the leader while it develops in three dimensional space based on the transient electric field under the influence of the downward stepped leader and the geometry of ground structures, such as tip location every step, leader velocity, current density, charge per unit length and the length every step moved. Compared with the optical and electrical data of the natural and artificially triggered lightning detected in Guangzhou experiment base, as well as research results available in literature, simulation results of the self-consistent propagation model show that the initiation of the positive upward leader mainly depends on the electric field intensity and the geometry of the structure in the simulated domain. As the upward leader initiates and propagates towards the downward stepped leader, its velocity increases from 104 m·s-1 to 105 m·s-1 order of magnitude gradually along with time during the first 0-600 μs, and then its velocity obviously increases to 106 m·s-1 order of magnitude when the upward positive leader connects to the downward stepped leader, during which the average velocity reaches about 5×105 m·s-1. Furthermore, the current intensity in the channel also increases with the upward positive leader moving forward, and the trend has a good coherence with the variation of the relative brightness of the leader, which is consistent with the optical data and existing research. Through simulation results of lightning flashes striking on high structure, it is also derived that the charge per unit length in the propagation channel of upward positive leader initiated from high structure reaches about 50.0-108.0 μC·m-1, with an average value of 64.3 μC·m-1. In addition, the average length of upward positive leader is approximately 417 m. The research of 3D self-consistent propagation model of lightning leader can provide reference for further study of characteristics of lightning flashes striking on structures. |
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| Keywords: | self consistent propagation leader velocity charge per unit length leader current |
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