转换器
网格
导纳
理论(学习稳定性)
瞬态(计算机编程)
电阻抗
控制理论(社会学)
极限(数学)
频域
稳态(化学)
电压
电子工程
计算机科学
工程类
数学
电气工程
化学
操作系统
控制(管理)
人工智能
几何学
计算机视觉
物理化学
机器学习
数学分析
作者
Sulaiman Almutairi,Zhixin Miao,Lingling Fan
标识
DOI:10.1002/2050-7038.13136
摘要
Grid-forming converters are designed to be capable of operating without a main grid. It is known that grid-following converters operating in weak grid conditions may experience dynamic voltage stability issues. Low-frequency oscillations have been observed in the real world. The objective of this paper is to examine grid-forming converters' weak grid operating characteristics. To this end, two types of grid-forming converters are examined for weak grid operation. Firstly, the steady-state operation limits are identified relying on optimization problem formulation and solving. It is found that both grid-forming converters may reduce the steady-state operation limit, compared to a grid-following converter. Secondly, dynamic stability limits are identified through electromagnetic transient (EMT) simulations. Furthermore, each converter's frequency-domain admittance and impedance characteristics are characterized using a data-driven system identification method. s-domain admittance-base eigenvalue analysis confirms the dynamic stability limit for each converter. It is found that low-frequency oscillations appear in one type of converters while do not appear in another type of converters. The two grid-forming converters can enhance dynamic stability comparing to the specific grid-following converter.
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