Abstract
This paper presents a mechanism for active power sharing among multiple dispatchable and distributed generation units within a micro grid comprising one or multiple interconnections with the main grid. Ideally, a micro grid should act as a constant load or a constant voltage source when connected to the main grid. However, to achieve ideal operation, natural load variations and the intermittency of renewable energy sources within the microgrid need to be adequately and timely compensated for by dispatchable power sources. While several control algorithms have been reported in the literature to achieve ideal microgrid operation, the majority of the proposed methods assumed a micro grid with a single interconnection to the main grid. In the real world, micro grids may have to maintain multiple live links with the main grid for several technical and operational reasons such as reliability, power-dispatch restriction, and operational limitations requirements. Therefore, a new method of active power sharing is proposed in this paper, which is equally effective for micro grids with one or multiple grid connections. The robustness of the proposed method is examined under different microgrid operating conditions. The results reveal the flexibility of the proposed method to adapt under various real-world operating conditions.
Highlights
Microgrids have been recently prioritised in the agenda of the world of power utilities
Several methods have been recommended in the literature to develop the most effective way of active power sharing for distributed generation units (DDGUs) in a micro grid with one interconnection to the main grid or for isolated micro grids
The power-sharing methods presented in the literature are designed to achieve and maintain ideal operation of the micro grid through the feeder flow control (FFC) mode of operation
Summary
Microgrids have been recently prioritised in the agenda of the world of power utilities. A problem was identified in [15] when multiple DDGs were connected on the same radial feeder and operated in FFC mode Another method to address the issue of real power sharing among the DDGs of a micro grid is presented in [16]. The proposed method varied the inertia constant and damping coefficient of the swing equation based on a fuzzy control This method was demonstrated to provide a better frequency response for large load variations within an islanded micro grid. The above-mentioned power-sharing control methods are mainly proposed for micro grids with one active grid interconnection or for isolated mode of operation of a micro grid These techniques can be implemented through supervisory control and data acquisition (SCADA), a reliable monitoring system and efficient energy management systems [26–28].
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