网格
光伏系统
计算机科学
可再生能源
同步(交流)
惯性
控制工程
转换器
风力发电
工程类
电气工程
电压
电信
数学
频道(广播)
物理
经典力学
几何学
作者
Lizhi Ding,Nan Xue,Zhihua Qu
标识
DOI:10.1109/apec43580.2023.10131474
摘要
Legacy power systems once dominated by con-ventional synchronous machines are transitioning into systems driven by fast-acting power-electronic converters that integrate renewable resources. The majority of integrated renewables such as PV and wind bring down system inertia and can cause stability issues due to their volatile nature. The state-of-the-art grid-forming (GFM) control is proven to enhance system inertia and stability in low-inertia systems. However, most of the existing GFM inverters are applied for battery systems, which are much more expensive than PV. Motivated by this, in this paper we propose a holistic grid-forming (GFM) control strategy for PV systems without the need of energy storage. The proposed strategy is developed on the secondary level of the grid-forming control that enables the PV inverter to operate smoothly among islanded, synchronization, GFM, and limited grid-forming (LGF) modes. The practical criteria for determining the operation modes are established and implemented based on the grid operation scenarios. The proposed design is successfully validated by case studies with a laboratory prototype using Siemens Software Defined Inverters.
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