Phisically based modelling of induction lamps: aplication to the improvement of energy efficiency in the lighting system of a University building. Póster
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URI: http://hdl.handle.net/10317/1150Compartir
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Gabaldón Marín, Antonio; Sequera Ballesteros, Fernando; Molina García, Ángel; Gómez Lázaro, Emilio; García Franco, Francisco J.; [et al.]Área de conocimiento
Ingeniería EléctricaFecha de publicación
2005-06Editorial
Institution of Engineering and TechnologyCita bibliográfica
GABALDÓN MARÍN, Antonio et al. Physically based modelling of induction lamps: application to the improvement of energy efficiency in the lighting system of a University Building. En: International Conference and Exhibition on Electricity Distribution (18th : 2005 : Turin, Italy) CIRED: 18th International Conference and Exhibition on Electricity Distribution, Lingotto Conference Centre, Turin, 6-9 June 2005: technical reports. London: Institution of Engineering and Technology, 2005.Palabras clave
Eficiencia energéticaReducción de costos
Programa GreenLight
Descarga de Alta Intensidad
Inducción tecnológica
Sistemas de iluminación
Energy efficiency
Cost reduction
GreenLight Program
High Intensity Discharge (HID)
Induction Technology
Lighting systems
Resumen
To manage efforts in energy efficiency, the Polytechnic University of Cartagena (UPCT) decided in 2003 to develop an ambitious project to reduce energy use intensity and costs during the period 2003-2008. To accomplish this objective in lighting end-use demand -one of the two main electrical uses together with space cooling/heating-, the UPCT joins, in July 2002, the U.E. GreenLight program as a partner. This paper describes the University experience in the second year (2003/04) of partnership in this UE initiative. The objectives were: to manage the demand, to improve the quality of lighting, working and environmental conditions, and reduce significantly energy and O&M expenses. Basically, the work developed in this year is focused in the change of conventional High Intensity Discharge (HID) lighting systems in classrooms (2000 m2) through the evaluation of advantages and drawbacks of different alternatives. The most promising one, the change to a new technology -165W induction lamps-, ...
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