The proposed framework enables innovative power management in smart campuses, integrating local renewable energy sources, battery banks and controllable loads and supporting Demand Response interactions with the electricity grid operators. The paper describes each system component: the Energy Management System responsible for power usage scheduling, the telecommunication infrastructure in charge of data exchanging and the integrated data repository devoted to information storage. We also discuss the relevant use cases and validate the framework in a few deployed demonstrators.
Energy Optimization and Management of Demand Response Interactions in a Smart Campus
BARBATO, ANTIMO;BOLCHINI, CRISTIANA;GERONAZZO, ANGELA;QUINTARELLI, ELISA;PITI', ALESSANDRO;ROTTONDI, CRISTINA EMMA MARGHERITA;VERTICALE, GIACOMO
2016-01-01
Abstract
The proposed framework enables innovative power management in smart campuses, integrating local renewable energy sources, battery banks and controllable loads and supporting Demand Response interactions with the electricity grid operators. The paper describes each system component: the Energy Management System responsible for power usage scheduling, the telecommunication infrastructure in charge of data exchanging and the integrated data repository devoted to information storage. We also discuss the relevant use cases and validate the framework in a few deployed demonstrators.File in questo prodotto:
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