The paper proposes a simple but effective model for no-inertia microgrids suitable to represent the instantaneous values of its meaningful electric variables, becoming a useful platform to test innovative control logics and energy management systems. The proposed model is validated against a more detailed microgrid representation implemented in the electromagnetic simulator PSCAD-EMTDC and then against experimental data collected on the University of Genoa test bed facility. Recorded data highlight a good trade-off in matching the results of the proposed model, confirming its suitability to be used for the preliminary testing of new control logics for islanded microgrids.
Modeling and Experimental Validation of an Islanded No-Inertia Microgrid Site
Andrea Bonfiglio;Federico Delfino;Alessandro Labella;Daniele Mestriner;Fabio Pampararo;Renato Procopio;
2018-01-01
Abstract
The paper proposes a simple but effective model for no-inertia microgrids suitable to represent the instantaneous values of its meaningful electric variables, becoming a useful platform to test innovative control logics and energy management systems. The proposed model is validated against a more detailed microgrid representation implemented in the electromagnetic simulator PSCAD-EMTDC and then against experimental data collected on the University of Genoa test bed facility. Recorded data highlight a good trade-off in matching the results of the proposed model, confirming its suitability to be used for the preliminary testing of new control logics for islanded microgrids.
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