Standalone power systems for telecommunications are becoming an emergent need, due to environmental problems and their current tendency to be localized in remote places. Along with photovoltaic and wind generators, fuel cells are one of the most mature technologies to be employed in this kind of systems. As they are expensive and complex systems, it is important to simulate their behaviour to study different operating modes. This paper intends to propose a simulation of a fuel cell system with a voltage-fed full-bridge converter in the Matlab-Simulink © environment fulfilling the strict telecommunications equipment requirements. © 2010 Springer Berlin Heidelberg.
Fuel cell systems for telecommunications / Eunice, Ribeiro; A. J., Marques Cardoso; Boccaletti, Chiara. - STAMPA. - 314(2010), pp. 469-476. - IFIP ADVANCES IN INFORMATION AND COMMUNICATION TECHNOLOGY. [10.1007/978-3-642-11628-5_52].
Fuel cell systems for telecommunications
BOCCALETTI, Chiara
2010
Abstract
Standalone power systems for telecommunications are becoming an emergent need, due to environmental problems and their current tendency to be localized in remote places. Along with photovoltaic and wind generators, fuel cells are one of the most mature technologies to be employed in this kind of systems. As they are expensive and complex systems, it is important to simulate their behaviour to study different operating modes. This paper intends to propose a simulation of a fuel cell system with a voltage-fed full-bridge converter in the Matlab-Simulink © environment fulfilling the strict telecommunications equipment requirements. © 2010 Springer Berlin Heidelberg.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.