The introduction of greater flexibility in the electrical system allows several benefits, both in normal operation and in emergency. This flexibility can be achieved by widening control of loads, as made technically and economically more attractive by the recent developments of devices developed for building automation and based on power line technology, which require minimal changes to user plants. In particular, in emergency conditions, controlling the loads is somewhat equivalent to a spinning reserve, particularly valuable because in emergency it can be used very speedy. In this paper, the technical aspects of the demand flexibilization will be described and, then, the impact of the demand flexibilization in emergency situations will be assessed. Integrated scenarios, including the presence of distributed generators, will be taken into consideration. Finally, the demonstrative prototype for the load control and the interface network/user through Internet, which has been implemented, will be described.
Demand flexibility and load control actions / Chicco, Gianfranco; DI LEO, Paolo; Pons, Enrico; Napoli, Roberto; Sajjad, MALIK INTISAR ALI; Russo, Angela. - STAMPA. - (2012), pp. 1103-1110. (Intervento presentato al convegno 2012 IEEE International Energy Conference and Exhibition (ENERGYCON) tenutosi a Firenze, Italy nel 9-12 September 2012).
Demand flexibility and load control actions
CHICCO, GIANFRANCO;DI LEO, PAOLO;PONS, ENRICO;NAPOLI, Roberto;SAJJAD, MALIK INTISAR ALI;RUSSO, ANGELA
2012
Abstract
The introduction of greater flexibility in the electrical system allows several benefits, both in normal operation and in emergency. This flexibility can be achieved by widening control of loads, as made technically and economically more attractive by the recent developments of devices developed for building automation and based on power line technology, which require minimal changes to user plants. In particular, in emergency conditions, controlling the loads is somewhat equivalent to a spinning reserve, particularly valuable because in emergency it can be used very speedy. In this paper, the technical aspects of the demand flexibilization will be described and, then, the impact of the demand flexibilization in emergency situations will be assessed. Integrated scenarios, including the presence of distributed generators, will be taken into consideration. Finally, the demonstrative prototype for the load control and the interface network/user through Internet, which has been implemented, will be described.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2502325
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