地铁与电网的电磁耦合关系研究

Gang Liu, Jian Wang, Shangmao Hu, H. Cai, L. Jia, Ruifang Li
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引用次数: 1

摘要

目前,中国轨道交通的发展非常迅速,地铁极大地便利了人们的交通。由于地铁采用直流供电系统,因此地铁会引起周围交流电网变压器的直流偏磁故障,影响交流电网的正常运行。目前的研究文献认为地铁杂散电流导致两个变电站不同位置接地网之间的电位差,从而引起变压器直流偏磁故障。本文研究了牵引供电接触网为地铁供电时,通过空间电磁场与附近输电线路的电磁耦合产生直流偏磁电流的可行性。首先,建立了地铁架空接触网与附近输电线路的电磁耦合模型,推导了两者之间的耦合关系,分析了地铁深度、电网面积等不同因素对电网感应电压的影响规律;然后,在成都市某地铁路段进行现场实测,搭建模拟电网环路,采集地铁车辆通过时模拟线路的感应电压信号。研究发现,地铁牵引供电系统对交流电网具有很强的耦合效应。还发现,电网上牵引网络的感应电压不仅与地铁与电网的相对位置有关,还与列车的运行状态有关。当地铁车辆在耦合区间运行时,车辆运动产生的运动磁场对直流偏磁的影响大于接触网电流产生的磁场。
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Study on the electromagnetic coupling relationship between subway and power grid
At present, the development of rail transit in China is very rapid, and the subway greatly facilitates people's transportation. Since the metro adopts THE DC power supply system, the dc magnetic bias fault of the transformer in the surrounding AC power network will be caused by the metro, which will affect the operation of the AC power network. The current research literature considers that the stray current of subway leads to the potential difference between the grounding grids of two substations at different positions, thus causing the dc magnetic bias fault of the transformer. This paper studies the feasibility of generating DC magnetic bias current through electromagnetic coupling between space electromagnetic field and nearby transmission lines while traction power supply catenary provides energy for subway. Firstly, the electromagnetic coupling model between subway overhead contact network and nearby transmission lines is established, the coupling relationship between them is deduced, and the influence law of different factors such as subway depth and grid area on grid induced voltage is analyzed. Then, a field measurement was carried out in a subway section of Chengdu city, a simulated grid loop was built, and the induced voltage signal of the simulated line was collected when the subway vehicles passed. It is found that subway traction power supply system has strong coupling effect on AC power network. It is also found that the induced voltage of the traction network on the grid is not only related to the relative position of the subway and the grid, but also related to the running state of the train. When the subway vehicle runs in the coupling interval, the moving magnetic field generated by the vehicle movement has a greater influence on the DC magnetic bias than the magnetic field generated by the catenary current.
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