| 城市轨道交通高架站雷击时磁场空间分布模拟 |
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| 引用本文: | 李如箭,李京校,逯曦,钱慕晖,宋平健,王少勃.城市轨道交通高架站雷击时磁场空间分布模拟[J].气象科技,2015,43(6):1170-1175. |
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| 作者姓名: | 李如箭 李京校 逯曦 钱慕晖 宋平健 王少勃 |
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| 作者单位: | 北京市避雷装置安全检测中心,北京 100089,北京市避雷装置安全检测中心,北京 100089,北京市避雷装置安全检测中心,北京 100089,北京市避雷装置安全检测中心,北京 100089,北京市避雷装置安全检测中心,北京 100089,北京天源博通科技有限公司,北京 100036 |
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| 基金项目: | 北京市地标项目“公共场所防雷安全分级评价”(BMBKJ201404008)和北京市气象局气象科技研发专项(2012BMBKYZX02)共同资助 |
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| 摘 要: | 雷击建筑物引起的电磁干扰问题是建筑物雷电防护的重要研究课题。利用有限元法(FEM)模拟得到轨道交通高架站遭雷击时磁场空间分布并分析了其特征。给出了在IES电磁仿真软件中利用有限元法进行磁场数值模拟的方法,以北京市房山地铁线长阳高架站为例,通过建立模型、设定材料、施加激励源、网格剖分、后期处理等步骤,定量得到雷击时该高架站内的磁场分布数值,作出了磁场空间分布图,分析了所得磁场特征,确定了雷击磁场干扰的强度和范围,提出了对应的防护方法和措施。计算了采取屏蔽措施后的高架站磁场衰减及设备到引下线的安全距离。
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| 关 键 词: | 轨道交通高架站 雷击磁场 空间分布 有限元法(FEM) |
| 收稿时间: | 2014/11/28 0:00:00 |
| 修稿时间: | 2015/7/23 0:00:00 |
Spatial Distribution Simulation of Magnetic Field around Urban Elevated Subway Station When Struck by Lightning |
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| Li Rujian,Li Jingxiao,Lu Xi,Qian Muhui,Song Pingjian and Wang Shaobo.Spatial Distribution Simulation of Magnetic Field around Urban Elevated Subway Station When Struck by Lightning[J].Meteorological Science and Technology,2015,43(6):1170-1175. |
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| Authors: | Li Rujian Li Jingxiao Lu Xi Qian Muhui Song Pingjian and Wang Shaobo |
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| Institution: | Beijing Lightning Devices Security Test Center, Beijing 100089,Beijing Lightning Devices Security Test Center, Beijing 100089,Beijing Lightning Devices Security Test Center, Beijing 100089,Beijing Lightning Devices Security Test Center, Beijing 100089,Beijing Lightning Devices Security Test Center, Beijing 100089 and Beijing Tianyuan Technology Co. Ltd, Beijing 100036 |
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| Abstract: | The problems of electromagnetic interference caused by lightning strikes are important research topics in the building lightning protection area. The spatial distribution of the magnetic field around elevated subway station is simulated using the finite element method (FEM) when struck by lightning. The method of magnetic field numerical simulation by use of FEM in the IES electromagnetic simulation software is introduced, and taking the Changyang elevated subway station in Fangshan as an example, the distribution of the magnetic field is obtained through the following process: model building, material setting, excitation source applying, mesh generation, post processing, etc. Then the spatial distribution of the magnetic field is presented in figures, and the features of the magnetic field are analyzed. The intensity and scope of lightning magnetic interference are determined, and the corresponding protection methods and measures are proposed. Finally, the attenuation of the magnetic field and the safe distance from the equipment to the down conductor are calculated after the shielding measures being taken in the elevated station. |
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