Abstract
If we look at the history of renewable energy sources (RESs), how it all began, and how rapidly they continue to develop, it can be argued that one of the main reasons is due to the rapid improvements in power electronics technology in interfacing the renewable source to the grid [...]
Highlights
If we look at the history of renewable energy sources (RESs), how it all began, and how rapidly they continue to develop, it can be argued that one of the main reasons is due to the rapid improvements in power electronics technology in interfacing the renewable source to the grid
The authors in [1] present a solution for inverter-based generation (IBG) systems using virtual synchronous generator (VSG) control, which controls the external characteristics of power electronic interfaces (PEIs) to emulate the concept of synchronous generators (SGs), in order to replace the traditional SGs and to establish the modern power systems
In [5] is proposed a novel control method intended for compensating the microgrid power factor and load asymmetries by utilizing advanced functionalities enabled by grid-tied inverters of photovoltaics (PV) and energy storage system (ESS)
Summary
Contemporary grid-connected renewable generation systems stand in need of further advances in techniques for the utilization of renewable energy. This Special Issue focuses on challenging and advanced control methods to integrate RESs into power grid systems to enhance the performance of grid-connected renewable energy systems. This special issue on Advancing Grid-Connected Renewable Generation Systems contains the 14 papers we accepted; some of the most auspicious papers selected from those submitted.
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