《电力自动化设备》

引用本文:	肖宏飞,黄锦锋,陈鑫,林艳艳,吴晨曦.基于动态负荷分配的直流微电网电压控制策略[J].电力自动化设备,2021,41(8):
	XIAO Hongfei,HUANG Jinfeng,CHEN Xin,LIN Yanyan,WU Chenxi.Voltage control strategy of DC microgrid based on dynamic load allocation[J].Electric Power Automation Equipment,2021,41(8):

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基于动态负荷分配的直流微电网电压控制策略
肖宏飞¹, 黄锦锋², 陈鑫², 林艳艳¹, 吴晨曦²
1.杭州电子科技大学信息工程学院，浙江杭州 311305;2.杭州电子科技大学自动化学院，浙江杭州 310018

摘要:

U-I下垂控制具有良好的自适应性及扩展性，可用于直流微电网的电压控制及负荷分配。传统下垂控制存在难以兼顾稳态电压控制精度与负荷分配精度、下垂系数整定受限等问题。为此，提出了一种适用于下垂控制的二次电压控制策略，通过电压灵敏度整定下垂控制的电压参考值，实现直流母线电压的快速调节，提高系统的暂态响应速度；根据运行需求整定负荷分配系数，并更新下垂控制的电流参考值，在功率单元间实现所需比例的负荷分配。仿真结果验证了所提控制策略在负荷突变、下垂系数改变、分布式发电发生故障、通信中断等情形下的有效性及适应性。

关键词: 直流微电网下垂控制电压调节系数动态负荷分配二次电压控制电压灵敏度

DOI：10.16081/j.epae.202105015

分类号:TM761

基金项目:国家自然科学基金资助项目(U1766201)；浙江省教育厅科研项目(Y201738136)

Voltage control strategy of DC microgrid based on dynamic load allocation

XIAO Hongfei¹, HUANG Jinfeng², CHEN Xin², LIN Yanyan¹, WU Chenxi²

1.School of Information Engineering, Hangzhou Dianzi University, Hangzhou 311305, China;2.School of Automation, Hangzhou Dianzi University, Hangzhou 310018, China

Abstract:

U-I droop control has good adaptability and expansibility, and can be used in voltage control and load distribution of DC microgrid. Traditional droop control is difficult to balance the accuracy of steady-state voltage control with the accuracy of load distribution and its droop coefficient setting is limited. Therefore, a secondary voltage control strategy suitable for droop control is proposed. By setting the voltage reference value of droop control through voltage sensitivity, the DC bus voltage can be regulated quickly and the transient response speed of the system is improved. The load distribution coefficient is set according to the operation requirements, and the current reference value of droop control is updated to realize the required proportional load distribution among power units. Simulative results verify the effectiveness and adaptability of the proposed control strategy in the case of load mutation, droop coefficient change, distributed generation failure, communication interruption, and so on.

Key words: DC microgrid droop control voltage regulation coefficient dynamic load distribution secondary voltage control voltage sensitivity

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