Simulation study of 6–10 kV overhead transmission lines to research single phase to earth fault location algorithms

Y. Kutumov, N. Kuzmina, V. Lebedev
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Abstract

As part of evolution of single phase to earth faults protection methods and tools in 6–10 kV networks the development of simulation study methods of these networks and their components becomes relevant. A significant direction in this area is upgrading of sensors installed directly on the wires and electrical transmission towers. These sensors are installed in the conditions of an electromagnetic field acting on them and dynamically changes both in time and space, especially during emergency modes including single phase to earth faults. Application of modern software offers a challenge for complex simulation study of electromagnetic fields distribution at the location of the measuring transducers in continuously variable electromagnetic environment. The above-noted statement determines the relevance of the research goal, which is the development of a simulation study method of 6–10 kV overhead power lines, the model of which is designed to study existing and create new single phase to earth fault location algorithms and devices. To solve the tasks set the methods of simulation study of overhead transmission lines and corresponding medium voltage networks in PSCAD and COMSOL Multiphysics software have been used. The general concept of design of a 6–10 kV network and an overhead transmission line simulation model is formulated. The geometrical parameters of the section of the model of an overhead power transmission line to simulate electromagnetic transients are selected, considering the frequency dependence of the line parameters (inductance and active resistance). The proposed model of the overhead transmission line is verified, and recommendations for its application are given. The developed “inductive” component of the proposed overhead transmission line model allows to provide high accuracy of calculation of transient components of currents and voltages during single phase to earth faults. It makes possible to use this model for the development and research of single phase to earth fault location algorithms. The developed approach to simulation study of an overhead transmission line is the field of interest for further research, as it makes it possible to calculate the components of the electric field which are observed during single phase to earth faults.
对6 - 10kv架空输电线路进行仿真研究,研究单相对地故障定位算法
随着6-10千伏电网单相接地故障保护方法和工具的发展,对6-10千伏电网及其组成部分的仿真研究方法的发展具有重要意义。该领域的一个重要方向是升级直接安装在电线和输电塔上的传感器。这些传感器安装在电磁场作用下,在时间和空间上都是动态变化的,特别是在包括单相对地故障在内的应急模式下。现代软件的应用为连续变电磁环境下测量传感器位置电磁场分布的复杂仿真研究提出了挑战。上述陈述决定了研究目标的相关性,即开发6-10 kV架空电力线路的仿真研究方法,其模型旨在研究现有的单相对地故障定位算法和设备,并创建新的算法和设备。采用PSCAD和COMSOL Multiphysics软件对架空输电线路及相应的中压电网进行仿真研究的方法,完成了任务设置。阐述了6 - 10kv电网设计的总体思路和架空输电线路仿真模型。考虑到线路参数(电感和有源电阻)的频率依赖性,选择了用于模拟电磁瞬变的架空输电线路模型截面的几何参数。对所提出的架空输电线路模型进行了验证,并对其应用提出了建议。所提出的架空输电线路模型中所开发的“感应”分量可以提供单相接地故障时电流和电压瞬态分量的高精度计算。该模型为单相对地故障定位算法的开发和研究提供了可能。发展起来的架空输电线路仿真研究方法是值得进一步研究的领域,因为它使计算单相接地故障时观测到的电场分量成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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