One of the authors of the study, senior lecturer at TPU School of Power Engineering Alisher Askarov, said that the algorithm works on the basis of a virtual synchronous generator that performs the functions of regulating the frequency and voltage in the network, and also provides inertial response and vibration damping. This allows inverters to more effectively participate in the processes of stabilizing the power grid.
Scientists first used the parallel-parallel rectification method for a virtual synchronous generator, which improved the inverter’s participation in oscillation suppression and stability during changes in the network. Plans include creating an experimental sample of a 6 kW inverter and testing it in real power plants.
Source: Ferra
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