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高速铁路全并联AT牵引网短路故障情况下磁场环境特性分析 被引量:5

Analysis of magnetic environment characteristics for high-speed railway all-parallel AT traction network with short circuit
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摘要 将供电臂划分为3个自耦变压器(AT)区段,建立了全并联AT供电系统的仿真模型,从而得到不同故障下的电流分布,再利用得到的电流计算相应故障下的磁感应强度。计算结果表明:故障点两侧的磁感应强度幅值受故障区段、过渡电阻、故障距离和机车位置的影响较大,有明显区别,而磁感应强度的相角几乎不受影响,差别不大;噪声强度对磁场环境的影响较复杂,当噪声强度大于45 dB时,在不同类型故障发生的情况下,故障点两侧的磁感应强度相角均发生了明显的偏转。 With the power supply section divided into three AT(AutoTransformer) parts,the simulation model of all-parallel AT power-supply system is built and its current distribution is simulated for different faults,based on which,the corresponding magnetic induction intensity is calculated.Calculated results demonstrate that,the amplitude of magnetic induction intensity at both sides of fault point is obviously affected by the faulty section,transition resistance,fault location and train position,while its angle is hardly affected by these factors;the influence of noise intensity on the magnetic environment is quite complicated,when noise intensity is larger than 45 dB,the angle of magnetic induction intensity at both sides of fault point deflects obviously during different faults.
作者 钱澄浩 何正友 高朝晖 王斌
机构地区 西南交通大学电气工程学院
出处 《电力自动化设备》 EI CSCD 北大核心 2014年第3期155-161,共7页 Electric Power Automation Equipment
基金 国家自然科学基金资助项目(51177139 U1134104)~~
关键词 铁路 全并联AT牵引网 短路 磁场 磁场测量 信噪比 railroads all-parallel AT traction network short circuit magnetic fields magnetic field measurement signal to noise ratio
分类号 TM922.3 [电气工程—电力电子与电力传动]
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参考文献17

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2014年 第3期

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