考虑最大需求响应的新能源电网多目标优化方法

F. Gao, Ziqi Zhu
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引用次数: 1

摘要

新能源进入配电网后,当新能源输出较大时,电网潮流很可能发生反转,引起过电压问题。鉴于此,本文在配电网无功补偿装置优化配置的基础上,进一步引入民用负荷和工业负荷等需求响应负荷参与优化。提出了一种考虑需求响应的电网多目标优化运行方法。在传统的功率损耗最小化和电压偏差最小化的基础上,新的目标函数是在电压和无功优化过程中提高需求响应的最大利用率。并以电容器组(CB)、电抗器组(RB)、静态无功发电机(SVG)和DR作为控制变量,对电网电压和无功功率进行优化,调节效果最佳。最后,在IEEE 33总线配电系统上对所提出的控制方法进行了测试。
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Multi Objective Optimal Method for New Energy Power Grid Considering Maximum Demand Response
After the new energy access to distribution power grid, when new energy output is high, the power flow of the grid could be reversed probably and the overvoltage problem may be caused. In view of this, on the basis of the optimal allocation of reactive power compensation device of distribution network, this paper further introduces the demand response(DR) load, such as civil load and industrial load, to participate in the optimization. A multi-objective optimization operation method of power grid considering demand response is proposed. Based on the traditional power loss minimization and voltage deviation minimization, the new objective function is to increase the maximum utilization ratio of demand response in voltage and reactive power optimization process. And capacitors banks (CB), reactor banks (RB) and static var generator (SVG) and DR are used as control variables to optimize the voltage and reactive power of power grid, and the regulation effect is the best. Finally, IEEE 33 bus distribution system is used to test the proposed control method.
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