Abstract:
This paper presents a comprehensive study on the
development and implementation of a control algorithm and
simulation model for a synchronverter, a device that emulates
the behaviour of a synchronous generator. The study aims to
address the challenges associated with the integration of inverters
into the power grid, particularly in the context of the transition
from traditional to renewable energy sources. The research
methodology involves the use of advanced computer simulations
to design and test the synchronverter, ensuring its ability to
maintain consistent voltage and frequency and enhance overall
system stability. The findings from this study demonstrate the
potential of the synchronverter as a valuable tool for the smooth
integration of multiple inverters into the grid, thereby improving
power stability, efficiency, and quality.
Citation:
W. M. K. G. V. B. Wijekoon, W. M. D. U. Pabasara, P. L, K. M. I. U. Ranaweera and D. Welmilla, "Revolutionizing Renewable Energy Integration with Synchronverters: A Game-Changer for Modern Power Grids," 2023 Moratuwa Engineering Research Conference (MERCon), Moratuwa, Sri Lanka, 2023, pp. 491-496, doi: 10.1109/MERCon60487.2023.10355451.