Abstract:
To make photovoltaic and wind power plants able to provide grid services (i.e., inertial behavior, grid support, and harmonic compensation), several control algorithms ha...Show MoreMetadata
Abstract:
To make photovoltaic and wind power plants able to provide grid services (i.e., inertial behavior, grid support, and harmonic compensation), several control algorithms have been proposed in the literature during the last years. The most promising ones make the power electronic converters behave as conventional alternators, using the concept of virtual synchronous machine (VSM). Several VSM models are available in the literature, some of which can improve the voltage quality at the point of connection with the grid behaving as harmonic and unbalance sinks under nonideal grid voltage conditions. However, the literature lacks a general method to foresee the behavior of a generic VSM configuration in such conditions along with a well-established definition of the needed features to make VSMs able to work as harmonic or unbalance sinks. Therefore, this article proposes a simple and general method to foresee the behavior of different VSM configurations under nonideal grid voltage conditions before any experimental verification. The proposed method accurately foresees the VSMs behavior, as experimentally demonstrated on five VSM models available in the literature, working with fifth harmonic and inverse sequence voltage distortions. Moreover, the method identifies which VSM configuration can feature a beneficial harmonic and unbalance compensation.
Published in: IEEE Transactions on Industrial Electronics ( Volume: 70, Issue: 10, October 2023)