摘要
互联变流器是交直流混合微电网的重要组成部分,需要承担交流微电网与直流微电网间的功率分配任务,需要具有良好的动态性能。针对孤岛模式下传统下垂控制的互联变流器存在惯性小、系统瞬态性能差的问题,提出了基于自适应下垂控制的互联变流器控制策略。在下垂系数中引入交流微电网频率的倍数与直流微电网电压差值的微分量,动态增加系统惯性,提高系统瞬态性能。在此基础上,为了避免互联变流器整流与逆变模式的频繁切换,提出滞回控制方法,提高了系统的稳定性。最后,Matlab/Simulink仿真结果表明,孤岛模式下自适应下垂控制方法能够有效增加系统的惯性,提高系统动态过程的稳定性。滞回控制方法可以有效减小死区加入导致的交直流两侧功率分配偏差。
As an important part of a hybrid AC/DC microgrid,the interlinking converter not only needs to allocate the power between the AC microgrid and the DC microgrid,but also needs good dynamic performance.In order to solve the problem that the interlinking converter based on the traditional droop control has small inertia and poor transient performance in the islanded mode,the interlinking converter control strategy based on adaptive droop control is proposed.By introducing the difference between the frequency of the AC microgrid and the voltage of the DC microgrid in the droop coefficient,the system inertia is dynamically increased and the system transient performance is improved.In order to avoid frequent switching of the interlinking converter rectification and the inverter mode,a hysteretic control method is proposed to improve system stability.Finally,the simulation results of Matlab/Simulink show that the adaptive droop control method in the islanded mode can effectively increase the inertia of the system and improve the stability of the dynamic process.The hysteresis control method can effectively reduce the power difference between the AC and DC sides caused by the dead zone addition.
作者
张国荣
丁晓通
彭勃
解润生
毕康军
ZHANG Guorong;DING Xiaotong;PENG Bo;XIE Runsheng;BI Kangjun(School of Electrical Engineering and Automation,Hefei University of Technology,Hefei 230009,China)
出处
《电力系统保护与控制》
EI
CSCD
北大核心
2020年第14期50-58,共9页
Power System Protection and Control
基金
国家重点研发计划项目资助(2017YFB0903100)
国家电网公司科技项目资助(521104170043)。
关键词
混合微网
孤岛模式
互联变流器
自适应下垂控制
滞回控制
hybrid microgrid
islanded mode
interlinking converter
adaptive droop control
hysteretic control
