摘要
为了更精确地分析多逆变器并网系统中存在的串联和并联谐振现象,提出在单台逆变器小信号模型的基础上考虑输电电缆及风机输出功率影响的模型。首先,风电场常通过电缆与大电网相连,而电缆存在较大的对地电容,其对系统谐振的影响不容忽略,提出基于电缆等值模型的谐振分析方法。其次,不同的风机输出功率会在电网中产生不同的阻尼效果,则可根据风机输出功率和公共连接点(Point of Common Coupling,PCC)处负荷水平的大小确定负荷等效阻抗,进而分析风机输出功率对谐振点阻抗幅值的影响;最后,通过仿真验证理论分析的准确性。
In order to analyze the series and parallel harmonic resonances in multi-inverters grid-connected system more accurately,the factors of transmission cable and wind output power were considered based on the small-signal model of an inverter. Firstly,the wind farm is usually connected to the power grid through a system of cables,which of the influence on harmonic resonances can't be ignored because of the much large capacitance of cables to earth. A resonance analysis method based on the cable equivalent model was proposed. Secondly,due to different wind output power would generate different damping effects,an equivalent impedance computing method was proposed according to the magnitude of wind output power and the load level at point of common coupling( PCC). And then the change of impedance amplitude at resonance points was received. Finally,simulation results were presented to verify the correctness of the theoretical analysis on harmonic resonance method.
出处
《电测与仪表》
北大核心
2016年第7期33-38,50,共7页
Electrical Measurement & Instrumentation
关键词
多逆变器并联
电缆对地电容
输出功率
谐振分析
multi-inverters in parallel
capacitance of cables to earth
output power
harmonic resonance analysis
