An improvement of voltage unbalance in a low voltage 11/0.4 kV electric power distribution network under 3-phase unbalance load condition using dynamic voltage restorer
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引用次数: 11
Abstract
The compensation of voltage unbalance disturbance in low voltage electric power distribution system using improved d-q-o and PI controller techniques is the focus of this paper. There are several methods to mitigate voltage unbalance. A very effective method of voltage unbalance compensation is the use of dynamic voltage restorer. Dynamic voltage restorer is a series-connected advanced power electronic custom-based tool. It is employed to mitigate voltage disturbances in low voltage electric power distribution network. Dynamic voltage restorer is installed in the network between the source voltage and the loads to correct voltage disturbances affecting the load voltage. This report presents the modelling of dynamic voltage restorer for voltage unbalance correction in a low voltage 11/0.4 kV electric power distribution network using MATLAB/Simulink Sim Power System tool box. Results obtained from simulation with distribution length 0.5 km to 5 km for 3-phase unbalanced loads are within the permissible nominal voltage tolerance of ±5% at the customer's terminal when dynamic voltage restorer is connected to the network. This is not the case when a dynamic voltage restorer is not plugged in. The results obtained demonstrate the effectiveness of this device's performance in improving voltage unbalance in a low voltage electrical power distribution from lengths 0.5 km to 5 km. The balance of the paper discusses some recommendations for an efficient, reliable and cost-effective method for improving voltage profile and reducing the voltage unbalance in 3-phase unbalance load to acceptable standards.
采用改进的d-q-o和PI控制器技术补偿低压配电系统中的电压不平衡扰动是本文的研究重点。有几种方法可以减轻电压不平衡。动态电压恢复器是一种非常有效的电压不平衡补偿方法。动态电压恢复器是一种串联的先进电力电子定制工具。它被用来缓解低压配电网中的电压干扰。在源电压和负载之间的网络中安装动态电压恢复器,以纠正影响负载电压的电压扰动。本文利用MATLAB/Simulink Sim power System工具箱对低压11/0.4 kV配电网的电压不平衡校正动态电压恢复器进行建模。仿真结果表明,三相不平衡负载分布长度为0.5 km ~ 5 km时,动态电压恢复器接入电网时,客户端标称电压容差在±5%以内。当动态电压恢复器未插入时,情况并非如此。实验结果表明,该装置能有效地改善0.5 km ~ 5 km范围内低压配电系统的电压不平衡。本文还就如何有效、可靠、经济地改善三相不平衡负载的电压分布,使其达到可接受的电压不平衡问题提出了一些建议。