机译:通过使用改进的三相阻尼控制策略来缓解可再生能源高渗透率地区的过电压和电压不平衡
Univ Ghent, Dept Elect Energy Met Mech Construct & Syst EEMMe, Elect Energy Lab EELAB, Technol Pk Zwijnaarde 131, Ghent, Belgium;
Univ Ghent, Dept Elect Energy Met Mech Construct & Syst EEMMe, Elect Energy Lab EELAB, Technol Pk Zwijnaarde 131, Ghent, Belgium;
Univ Ghent, Dept Elect Energy Met Mech Construct & Syst EEMMe, Elect Energy Lab EELAB, LEMCKO, Campus Kortrijk,Graaf Karel Goedelaan 34, B-8500 Kortrijk, Belgium;
Univ Ghent, Dept Elect Energy Met Mech Construct & Syst EEMMe, Elect Energy Lab EELAB, Technol Pk Zwijnaarde 131, Ghent, Belgium|Flanders Make, Lommel, Belgium;
Voltage unbalance; Overvoltages; Power quality; Distributed generation; Renewable energy;
机译:基于阻尼的下垂控制策略可提高低压电网中可再生能源的渗透率
机译:微电网中基于三相阻尼电压的下垂控制器的相不平衡缓解
机译:三相三线系统中STATCOM控制缓解电压不平衡的策略和工作点优化
机译:电池存储应用中使用三相阻尼控制策略的电压不平衡和过压缓解
机译:高渗透率的可再生能源配电系统的准备第一部分。用于调压的动态电压恢复器Pat II。配电电路建模和验证。
机译:电网电压不平衡下三相光伏逆变器最优可调系数的改进功率控制
机译:使用三相APF / Statcom Technologies的电网系统中可再生能源的高渗透率减轻了电力质量问题:综述