Characteristics of a tram-based massive electric transportation system
Published
Mar 16, 2011
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Abstract
This paper presents the typical characteristics in a massive electric traction transportation system using trams, such as size, weight and passenger capacity. It also describes the characteristics of the electric supply, like AC or DC, and the connection means to the medium voltage electric power distribution system like, for example, rectifier substations. Finally, it presents a number of examples of cities where this transportation system is used.
Keywords
Electric substations, electric power distribution, electric driving, streetrailroadsSubestaciones eléctricas, distribución de energía eléctrica, tranvías
References
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CHAPAS, P. Composantes et applications électriques du système ferroviaire. En: Techniques de l’Ingénieur. Alstom Transport, 2003.
COUGNON, P. H. y CAVENAILE, F. The Brussels Tramway 2000 with Asynchronous Traction. The European Power Electronics Association. 1993, vol. 5, núms. 13-16, pp. 299-302.
FISHER, I. y BOLTON, G. Auxiliary power systems for rolling stock. Metronet Rail. 2006, pp. 167-175.
FORERO, M. Aplicaciones de electrónica de potencia en tracción vehicular. Proyecto de grado. Bogotá: Universidad de los Andes, Departamento de Ingeniería Eléctrica y Electrónica, 2006.
GOODMAN, C. Overview of electric railway system and the calculation of train performance. The 9th Institution of Engineering and Technology Professional Development Course on Electric Traction Systems. Electric Traction System, Manchester, 2006, pp. 1-24.
MULLER, G. Tramway. Techniques de l’Ingénieur, August, 2000.
PERRIN, J. P. y VENARD, C. Transports électriques urbains – Distribution d’énergie. Automatismes de contrôle. Techniques de l’Ingénieur, 1991.
PRC RAIL CONSULTING. Railway technical web pages electric traction, 2008. [consulta: 15-03-2008].
STEIMEL, A. Electric railway traction in Europe. IEEE Industry Applications Magazine. 1996, vol. 1, November, pp. 40-48.
CHAPAS, P. Composantes et applications électriques du système ferroviaire. En: Techniques de l’Ingénieur. Alstom Transport, 2003.
COUGNON, P. H. y CAVENAILE, F. The Brussels Tramway 2000 with Asynchronous Traction. The European Power Electronics Association. 1993, vol. 5, núms. 13-16, pp. 299-302.
FISHER, I. y BOLTON, G. Auxiliary power systems for rolling stock. Metronet Rail. 2006, pp. 167-175.
FORERO, M. Aplicaciones de electrónica de potencia en tracción vehicular. Proyecto de grado. Bogotá: Universidad de los Andes, Departamento de Ingeniería Eléctrica y Electrónica, 2006.
GOODMAN, C. Overview of electric railway system and the calculation of train performance. The 9th Institution of Engineering and Technology Professional Development Course on Electric Traction Systems. Electric Traction System, Manchester, 2006, pp. 1-24.
MULLER, G. Tramway. Techniques de l’Ingénieur, August, 2000.
PERRIN, J. P. y VENARD, C. Transports électriques urbains – Distribution d’énergie. Automatismes de contrôle. Techniques de l’Ingénieur, 1991.
PRC RAIL CONSULTING. Railway technical web pages electric traction, 2008.
STEIMEL, A. Electric railway traction in Europe. IEEE Industry Applications Magazine. 1996, vol. 1, November, pp. 40-48.
How to Cite
Ríos-Mesías, M., Ramos-López, G., & García-Mora, G. (2011). Characteristics of a tram-based massive electric transportation system. Ingenieria Y Universidad, 15(1), 91–104. https://doi.org/10.11144/Javeriana.iyu15-1.cset
Section
Articles