架空导线交流电阻的数值模拟研究

Dapeng Zhang, P. Dang
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引用次数: 2

摘要

由于能源分布的不平衡和经济的发展,高压、远距离输电已成为世界各国现代电力系统的主要发展趋势之一。架空导线是电力系统中重要的输电载体。降低线路损耗,提高架空导线的输电能力已成为研究的重点。影响架空导线性能的主要因素是交流电阻。但是,交流电阻还受到集肤效应、磁滞、涡流等多种复杂因素的影响。正确计算架空导线的交流电阻是节能的关键。本文通过数值计算建立了三种架空导线(钢增强铝导线、铝包钢增强铝导线和碳纤维复合芯铝导线)的交流电阻模型。利用该模型对交流电阻进行了仿真计算。同时,为了验证仿真结果的准确性,对架空导线的交流电阻进行了测试。结果表明,模拟值与实测值之间的差异较小。此外,通过交流电阻的仿真和测量结果,对三种架空导线的节能性能进行了比较。当通过大电流时,碳纤维复合芯线的交流电阻比其他架空导线小。计算结果可为输电线路交流损耗评估提供参考。
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Study on AC Resistance of Overhead Conductors by Numerical Simulation
Due to unbalanced energy distribution and economic development, high voltage, long distance power transmission have become one of the major development trends of modern power systems all over the world. The overhead conductors is an important transmission carrier in power system. Reduce line lose and increase transmission capacity of overhead conductors have become the research emphasis. The main affect factor of these overhead conductors performance is AC resistance. However, the AC resistance also affected by many complex factors like skin-effect, magnetic hysteresis and eddy current. The correctly calculated AC resistance of overhead conductors is the key to the energy-saving. In this paper, three kinds of the overhead conductors (Aluminum Conductors Steel Reinforced, Aluminum Conductors Aluminum-Clad Steel Reinforced and Aluminum Conductors Carbon fiber composite core) AC resistance model are built by numerical calculation. By using these model, the AC resistance is simulated calculate. Meanwhile, in order to verify the accuracy of simulation results, the AC resistance of overhead conductors are measured by test. The result show that the different between the simulated values and measured values are less. In addition, through the simulation and measurement results of AC resistance, the energy-saving performance of the three kinds of overhead conductors is also compared. When passing a large current, the AC resistance of Carbon fiber composite core wire is smaller than the other overhead conductors. The calculation can provide reference for the evaluation of AC loss in transmission lines.
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