Energy source management in networked enterprises is one of the crucial tasks of recent times: different energy requests as well as distribution among node-enterprise due to variety of production loads and duties exchanges may in fact bring to un-optimal energetic balance of the network. The idea of optimal balancing of energy sources within a set of nodes of an enterprise network, even though temporarily cooperating, by endeavoring a systemic perspective is the rationale of the present paper. A methodology for the optimal dispatch of energy sources in hybrid as well as isolated energy systems has been devised to this aim. The core of the methodology is based on the formulation and solution of a nonlinear discrete optimization problem aimed at optimizing input and output time trajectories for a set of combined power-generation and storage technologies. The proposed approach is general enough to be susceptible of implementation in any network of enterprises to optimize the energy dispatching.
Managing Networked Hybrid-Energy Systems: A Predictive Dispatch Approach / Bruno, S; Dassisti, M; La Scala, M; Chimienti, M; Stigliano, G; Palmisani, E. - ELETTRONICO. - 47:3(2014), pp. 2394-2399. (Intervento presentato al convegno 19th World Congress of the International Federation of Automatic Control, IFAC 2014 tenutosi a Cape Town, South Africa nel August 24-29, 2014) [10.3182/20140824-6-ZA-1003.02054].
Managing Networked Hybrid-Energy Systems: A Predictive Dispatch Approach
Bruno, S;Dassisti, M;La Scala, M;Chimienti, M;
2014-01-01
Abstract
Energy source management in networked enterprises is one of the crucial tasks of recent times: different energy requests as well as distribution among node-enterprise due to variety of production loads and duties exchanges may in fact bring to un-optimal energetic balance of the network. The idea of optimal balancing of energy sources within a set of nodes of an enterprise network, even though temporarily cooperating, by endeavoring a systemic perspective is the rationale of the present paper. A methodology for the optimal dispatch of energy sources in hybrid as well as isolated energy systems has been devised to this aim. The core of the methodology is based on the formulation and solution of a nonlinear discrete optimization problem aimed at optimizing input and output time trajectories for a set of combined power-generation and storage technologies. The proposed approach is general enough to be susceptible of implementation in any network of enterprises to optimize the energy dispatching.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.