About Multi-level or hybrid microgrid structure
An efficient method in optimizing a multicarrier energy microgrid structure is proposed in Reference 93, where, the term microgrid structure is the type and parameters of energy microsources and storage devices to which a microgrid might be equipped.
An efficient method in optimizing a multicarrier energy microgrid structure is proposed in Reference 93, where, the term microgrid structure is the type and parameters of energy microsources and storage devices to which a microgrid might be equipped.
The combination of an intelligent high-level controller (ANN and FLC) and adaptive low-level controller (ATSMC) has been designed for the two-level control structure. The performance of the high-level controller depends upon the learning algorithm of ANN and selection of rules and membership functions of FLC subject to the human knowledge and .
The proposed hybrid microgrids have a simplified structure and a greatly reduced number of power switches compared with the existing MMC-based hybrid microgrids. The proposed hybrid microgrids possess a high operation capability under unbalanced power distribution in the MV/LV AC/DC microgrids due to the reduced circulating current injection.
This paper mainly focuses on the interconnection scheme and energy control method of the modular multilevel converter (MMC) based multi-terminal hybrid AC/DC microgrid. As a case study, MMC based on a four-terminal hybrid AC/DC microgrid is proposed with one medium-voltage DC (MVDC) port and two low-voltage DC (LVDC) ports.
Smart microgrid concept-based AC, DC, and hybrid-MG architecture is gaining popularity due to the excess use of distributed renewable energy generation (DRE). Looking at the population demand and necessity to reduce the burden, appropriate control methods, with suitable architecture, are considered as the developing research subject in this area.
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