ZHOU Luyao;SHAO Xianjun;GUO Feng;XU Hua;QIU Peng;WANG Shaohua;

• 1:State Grid Zhejiang Electric Power Research Institute
• 2:State Grid Zhejiang Electric Power Co.
• 3: Ltd.

Abstract：

Distributed power flow controller(DPFC) can improve power flow distribution of the power grid,overcome power flow section excess, and enhance the bearing capacity of the power system. This paper expounds the concept, technical principle, and application status of DPFC based on its engineering application and sorts out the implementation mode of switching mode, control and protection strategy, and engineering application of DPFC; besides, it indicates that the future technical development of DPFC should be oriented to the distributed device and centralized control, and key technical essentials such as small size, lightweight and flexible module combinations must be focused to technical progress of DPFC under multi-convergence and the highly resilient power grid.

Key Words： high resilient power grid;flexible AC transmission system;power flow regulation;distributed power flow controller;engineering application

Abstract:

Keywords:

Foundation:

Authors: ZHOU Luyao;SHAO Xianjun;GUO Feng;XU Hua;QIU Peng;WANG Shaohua;

DOI: 10.19585/j.zjdl.202009002

References：

• [1]汤广福,庞辉,贺之渊,等.先进交直流输电技术在中国的发展与应用[J].中国电机工程学报,2016,36(7):1760-1771.
• [2]别朝红,林雁翎,邱爱慈.弹性电网及其恢复力的基本概念与研究展望[J].电力系统自动化,2015,39(22):1-
• [3]鞠平,王冲,辛焕海,等.电力系统的柔性.、弹性与韧性研究[J].电力自动化设备,2019,39(11):1-7.
• [4]戴朝波,王宇红,彭俱,等.分布式灵活交流输电技术[J].智能电网,2014,2(11):1-8.
• [5]DEEPAK D,HARJEET J.Distributed FACTS:A new concept for realizing grid power flow control[J].IEEE Transactions on Power Electronics,2007,22(6):2253-2260.
• [6]周剑桥,张建文,施刚,等.应用于配电网柔性互联的变换器拓扑[J].中国电机工程学报,2019,39(1):277-288.
• [7]DIVAN D,BRUMSICKLE W,SCHNEIDER R,et al.A distributed static series compensator system for realizing active power flow control on existing power lines[J].IEEE Transactions on Power Delivery,2007,22(1):642-649.
• [8]HARJEET J,DEEPAK D.Design considerations for seriesconnected distributed FACTS converters[J].IEEE Transactions on Industry Applications,2007,43(6):1609-1618.
• [9]钟亮民,陈汹,赵静波,等.基于集中控制的分布式潮流控制器策略研究[J].电力工程技术,2020,39(1):38-43.
• [10]唐爱红,卢俊,宣俭,等.分布式潮流控制器对系统功率控制的研究[J].电力系统保护与控制,2012,40(16):15-20.
• [11]汤奕,刘煜谦,宁佳,等.基于两阶段优化的分布式潮流控制器配置方法[J].电力系统自动化,2018,42(16):141-147.
• [12]武文,吴学智,荆龙,等.适用于多端直流输电系统的模块化多端口直流潮流控制器[J].电工技术学报,2019,34(3):539-551.
• [13]YUAN Z,HAAN S,FERREIRA B,et al.A FACTS device:Distributed power-flow controller(DPFC)[J].IEEE Transactions on Power Electronics,2010,25(10):2564-2572.
• [14]上官海洋,向铁元,张巍,等.基于智能优化算法的FACTS设备多目标优化配置[J].电网技术,2014,38(8):2193-2199.
• [15]李顺,唐飞,刘涤尘,等.分布式潮流控制器提升最大输电能力期望和供电可靠性的效能研究[J].电网技术,2018,42(5):1573-1579.
• [16]黄兵,赵晋泉.基于连续潮流的配电网供电能力评估[J].电力工程技术,2019,38(1):14-18.
• [17]刘盛松,周挺,张宁宇,等.考虑静态电压稳定裕度的含UPFC最优潮流计算方法研究[J].电力工程技术,2019,38(1):62-66.
• [18]傅旭,李想,张鹏宇.一种快速恢复潮流解的联动切负荷算法[J].广东电力,2018,31(10):44-49.
• [19]林青,赵晋泉.输配电网一体化分布式潮流计算方法[J].广东电力,2018,31(6):114-119.
• [2 0]朱晓彤,赵青春,谢华,等.含统一潮流控制器输电线路断路器保护研究[J].电力工程技术,2018,37(5):121-125.
• [21]程杉,苏高参.基于CAPSO的含分布式电源的配电网动态重构[J].电网与清洁能源,2018,34(12):27-33.
• [22]鲍玉川,张巧霞,张萌,等.基于综合能源系统的最优潮流解耦算法[J].电网与清洁能源,2018,34(6):80-86.
• [23]方绍凤,何国锋,彭院院,等.考虑风电场扰动影响的配电网潮流计算分析[J].电器与能效管理技术,2018(6):36-41.
• [24]卫鹏,刘建坤,周前,等.基于随机潮流的新能源发电预测误差对电网影响研究[J].电器与能效管理技术,2017(2):60-65.