This paper presents a multi-objective model predictive control algorithm to implement the control of a bidirectional double stage ac-dc power conversion system, used to interface a Vanadium redox flow battery with a power grid. The converter topology is based on two stages conversion, consisting in a dual active bridge, controlled using the phase shift modulation, in cascade with a grid-connected inverter/rectifier. In order to control the charge and discharge of the battery, the dc-link and the grid current, a multi-objective predictive control is introduced embedding the control of both conversion stages in a single control action. The computed steady state and dynamic performance are compared to what can be achieved with standard controllers. The proposed algorithm is tested in simulation using a model developed with the PLECS block library on Matlab/Simulink.
Model predictive Control of a Double Stage AC-DC Converter for Grid-Interface of Vanadium Flow Batteries / Di Salvo, S. R.; Bulzi, M.; Riccio, J.; Leuzzi, R.; Zanchetta, P.; Anglani, N.. - ELETTRONICO. - (2021), pp. 1895-1901. (Intervento presentato al convegno 13th IEEE Energy Conversion Congress and Exposition, ECCE 2021 tenutosi a Virtual, Online nel October, 10-14, 2021) [10.1109/ECCE47101.2021.9595483].
Model predictive Control of a Double Stage AC-DC Converter for Grid-Interface of Vanadium Flow Batteries
Leuzzi R.;
2021-01-01
Abstract
This paper presents a multi-objective model predictive control algorithm to implement the control of a bidirectional double stage ac-dc power conversion system, used to interface a Vanadium redox flow battery with a power grid. The converter topology is based on two stages conversion, consisting in a dual active bridge, controlled using the phase shift modulation, in cascade with a grid-connected inverter/rectifier. In order to control the charge and discharge of the battery, the dc-link and the grid current, a multi-objective predictive control is introduced embedding the control of both conversion stages in a single control action. The computed steady state and dynamic performance are compared to what can be achieved with standard controllers. The proposed algorithm is tested in simulation using a model developed with the PLECS block library on Matlab/Simulink.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
