《电力自动化设备》

引用本文:	朱梓荣,卫志农,赵静波,李群,王大江,孙国强,臧海祥.基于内点半定规划法的含UPFC的最优潮流[J].电力自动化设备,2018,(11):
	ZHU Zirong,WEI Zhinong,ZHAO Jingbo,LI Qun,WANG Dajiang,SUN Guoqiang,ZANG Haixiang.Optimal power flow with UPFC based on semi-definite programming method[J].Electric Power Automation Equipment,2018,(11):

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基于内点半定规划法的含UPFC的最优潮流
朱梓荣¹, 卫志农¹, 赵静波², 李群², 王大江², 孙国强¹, 臧海祥¹
1.河海大学能源与电气学院，江苏南京211100;2.国网江苏省电力公司电力科学研究院，江苏南京211103

摘要:

传统最优潮流(OPF)问题是一个非凸优化问题，统一潮流控制器(UPFC)的引入进一步增加了OPF问题的非凸程度，因此传统内点法无法有效保证所得解的全局最优性。基于此，将对初值选取不敏感、具有全局收敛能力的内点半定规划(SDP)算法推广至计及UPFC的电力系统OPF问题中，将UPFC变量添加至系统状态变量中，并对增广变量进行优化重组，利用直角坐标的二次形态将含UPFC的OPF问题映射到SDP空间。对IEEE 30、57、118、300节点系统和一个实际系统进行算例测试，结果表明所提算法有效保证了所得解的全局最优性，对增广变量的优化重组有效提高了算法的计算效率和数值稳定性。

关键词: 最优潮流半定规划统一潮流控制器内点法全局最优解

DOI：10.16081/j.issn.1006-6047.2018.11.014

分类号:TM732

基金项目:国网江苏省电力有限公司科技项目(J2017047)

Optimal power flow with UPFC based on semi-definite programming method

ZHU Zirong¹, WEI Zhinong¹, ZHAO Jingbo², LI Qun², WANG Dajiang², SUN Guoqiang¹, ZANG Haixiang¹

1.College of Energy and Electrical Engineering, Hohai University, Nanjing 211100, China;2.State Grid Jiangsu Electric Power Research Institute, Nanjing 211103, China

Abstract:

The traditional OPF(Optimal Power Flow) problem is a non-convex optimization problem, and the introduction of UPFC(Unified Power Flow Controller) further increases the non-convexity degree of the OPF problem, so the traditional interior point method is unable to guarantee the global optimality of the solutions effectively. On this basis, the interior point SDP(Semi-Definite Programming) algorithm, which is insensitive to the initial value and has the ability to find the global optima, is extended to the OPF problem of power system with UPFC. The UPFC variables are added to the system state variables to form the augmented variables for optimal reorganization, and the OPF problem with UPFC is mapped into SDP space based on the quadratic form in rectangular coordinates. IEEE 30-,57-,118-,300-bus systems and a practical system are tested, and the results show that the proposed algorithm effectively guarantee the global optimality of the obtained solutions, and the optimal reorganization of the augmented variables effectively improves the computational efficiency and numerical stability of the algorithm.

Key words: optimal power flow semi-definite programming unified power flow controller interior point method global optimal solution

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