Abstract
Since the penetration of distributed energy resources (DERs) and energy storage systems (ESSs) into the microgrid (MG) system has increased significantly, the sudden disconnection of DERs and ESSs might affect the stability and reliability of the whole MG system. The low-voltage ride-through (LVRT) capability to maintain stable operation of the MG system should be considered. The main contribution of this study is to propose a distributed control, based on a dynamic consensus algorithm for LVRT operation of the MG system. The proposed control method is based on a hierarchical control that consists of primary and secondary layers. The primary layer is in charge of power regulation, while the secondary layer is responsible for the LVRT operation of the MG system. The droop controller is used in the primary layer to maintain power sharing among parallel-distributed generators in the MG system. The dynamic consensus algorithm is used in the secondary layer to control the accurate reactive power sharing and voltage restoration for LVRT operation. A comparison study on the proposed control method and centralized control method is presented in this study to show the effectiveness of the proposed controller. Different scenarios of communication failures are carried out to show the reliability of the proposed control method. The tested MG system and proposed controller are modeled in a MATLAB/Simulink environment to show the feasibility of the proposed control method.
Highlights
The AC microgrid (MG) system consists of inverter-based distributed generators (DGs), such as renewable energy resources and energy storage systems, which can operate in either islanded or grid-connected modes [1,2]
This paper proposed a distributed control of DG based on dynamic consensus algorithm to
This paper proposed a distributed control of DG based on dynamic consensus algorithm to improve the low-voltage ride-through (LVRT) capability of the MG system
Summary
The AC microgrid (MG) system consists of inverter-based distributed generators (DGs), such as renewable energy resources and energy storage systems, which can operate in either islanded or grid-connected modes [1,2]. DGs controllers with the to of voltage were proposed in control reactive power based duringonvoltage sag.components. Proposes distributed control, considering both voltage restoration and accurate reactive power sharing during voltage sag. Theand proposed control method based on hierarchical control that consists could of the primary with reactive power sharing and restore the system voltage during voltage sag. Is presented in this study to show the the proposed distributed control and the centralized controlcontrol in [22]layer is presented study value to show dynamic consensus algorithm was used in the secondary to find in thethis average of effectiveness of power the method. 3 presents control system with a two-level consisting of reactive Section power sharing anda proposed restore theLVRT system voltage during voltage sag.
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