About Microgrid three types and two networks
System topology (or, architecture) can classify microgrids in three subsets—(1) DC microgrid, (2) AC microgrid, and (3) hybrid AC/DC microgrid, whereas the area of application can classify the same into five broad categories—(1) utility, (2) commercial/industrial, (3) institutional, (4) transportation, and (5) remote-area microgrid(s).
System topology (or, architecture) can classify microgrids in three subsets—(1) DC microgrid, (2) AC microgrid, and (3) hybrid AC/DC microgrid, whereas the area of application can classify the same into five broad categories—(1) utility, (2) commercial/industrial, (3) institutional, (4) transportation, and (5) remote-area microgrid(s).
The microgrid control consists of: (a) micro source and load controllers, (b) microgrid system central controller, and (c) distribution management system. The function of microgrid control is of three sections: (a) the upstream network interface, (b) microgrid control, and (c) protection, local control.
A microgrid, regarded as one of the cornerstones of the future smart grid, uses distributed generations and information technology to create a widely distributed automated energy delivery network. This paper presents a review of the microgrid concept, classification and control strategies.
Microgrids offer a viable solution for integrating Distributed Energy Resources (DERs), including in particular variable and unpredictable renewable energy sources, low-voltage and medium-voltage into distribution networks. Basically, a microgrid can be defined as an electrically bounded area of the distribution network that aggregates local .
There are two primary types of networked microgrids based on their operational characteristics: predetermined networked microgrids (PNMGs) and dynamic networked microgrids (DNMGs). A predefined networked microgrid maintains a consistent switching status and network configuration regardless of the system’s operating conditions and customer .
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