引用本文: | 林顺富,李 寅,戴烨敏,等.考虑谐波耦合的多变流器并网系统建模及交直流谐波交互特性分析[J].电力系统保护与控制,2023,51(10):65-77.[点击复制] |
LIN Shunfu,LI Yin,DAI Yemin,et al.Modeling of a multiple grid-connected-converter system considering harmonic coupling and analysis of AC/DC harmonic interaction characteristics[J].Power System Protection and Control,2023,51(10):65-77[点击复制] |
|
|
|
本文已被:浏览 6170次 下载 1445次 |
 码上扫一扫! |
考虑谐波耦合的多变流器并网系统建模及交直流谐波交互特性分析 |
林顺富1,李寅1,戴烨敏2,杨帆1,边晓燕1,李东东1 |
|
(1.上海电力大学电气工程学院,上海 200090;2.国网上海市电力公司青浦供电公司,上海 201799) |
|
摘要: |
新型电力系统中高比例可再生能源和高比例电力电子设备接入的特征带来异于传统电网下的谐波交互问题,多变流器拓扑的谐波耦合交互特性亟待研究。首先,基于谐波状态空间(harmonic state space, HSS)对多变流器并网系统(multiple grid-connected-converter system, MGCCS)建立考虑谐波耦合的谐波传递函数矩阵模型,综合考虑了系统各控制环节对状态变量的影响以及变流器的级联、并联。其次,基于所建HSS模型明确定义谐波耦合系数,并用于揭示多变流器拓扑的谐波耦合机理,分析级联、并联变流器谐波交互特性。然后,应用谐波耦合系数量化分析MGCCS中滤波电感、电流环、锁相环等关键参数对系统谐波交互的影响。最后,将HSS模型和Matlab/Simulink模型、RT-LAB模型的结果进行对比,验证了所建HSS模型的精确性,以及谐波耦合系数理论应用于系统交直流谐波交互分析的有效性。 |
关键词: 多变流器并网系统 交直流谐波交互 谐波状态空间 谐波耦合系数 并网电流 |
DOI:10.19783/j.cnki.pspc.221314 |
投稿时间:2022-08-15修订日期:2022-11-09 |
基金项目:国家自然科学基金项目资助(51977127);上海市科学技术委员会项目资助(19020500800);上海市教育发展基金会和上海市教育委员会“曙光计划”项目资助(20SG52) |
|
Modeling of a multiple grid-connected-converter system considering harmonic coupling and analysis of AC/DC harmonic interaction characteristics |
LIN Shunfu1,LI Yin1,DAI Yemin2,YANG Fan1,BIAN Xiaoyan1,LI Dongdong1 |
(1. College of Electrical Engineering, Shanghai University of Electric Power, Shanghai 200090, China; 2. Qingpu Power
Supply Company of State Grid Shanghai Municipal Electric Power Company, Shanghai 201799, China) |
Abstract: |
The characteristics of high penetration of renewable energy and high proportion of power electronic equipment in new power systems bring a harmonic interaction problem. This is different from traditional power systems. The harmonic coupling interaction characteristics of the multi-converter topology need to be studied. First, based on the harmonic state space (HSS), the harmonic transfer function matrix model considering harmonic coupling is established for the multiple grid-connected-converter system (MGCCS). The model comprehensively considers the influence of each control link of the system on the state variables as well as the factors of cascade and parallel converters. Second, the harmonic coupling coefficient is defined based on the established HSS model. This is used to reveal the harmonic coupling mechanism of the multi-converter topology, and analyze the harmonic interaction characteristics of the cascade and parallel converters. Then, the harmonic coupling coefficient is used to quantify the influence of key parameters such as filter inductor, current loop and phase-locked loop on the harmonic interaction of MGCCS. Finally, the results of the HSS model, Matlab/Simulink model and RT-LAB model are compared to verify the accuracy of the proposed HSS model and the effectiveness of the harmonic coupling coefficient theory applied to the AC/DC harmonic interaction analysis of the system. |
Key words: multiple grid-connected-converter system AC/DC harmonic interaction harmonic state space harmonic coupling coefficient grid-connected current |
|
|