Towards the efficient management of public lighting services: results of comparative studies on energy and lighting efficiency applied to new technologies in urban lighting
DOI:
https://doi.org/10.24310/wps.vi2.13170Abstract
The use of new, more energy-efficient technologies, applied to the
urban lighting, it has been proven to be a very novel and highly
significance and interest today. In most cases, it has been addressed,
from a professional or business point of view, but much less often, from a
purely scientific point of view.
The presentation that we present is the result of research carried out in
three studies, which have been published, in three scientific and professional journals of
great relevance. Some of them with very high impact factor (Q1) and prestige
professional, scientific and technical. It is intended with this, to inform the
scientific community, professionals and technicians, the results and conclusions
obtained, in an absolutely objective way.
We are currently immersed in a dizzying situation, of changes
constant, in the field of street lighting in our cities. The results
here exposed contribute, to clarify in part, the difficult decision-making task, which is
municipal technicians, energy managers and professionals in general face.
The results of the investigations carried out, which are intended to be exposed with this
presentation, are the fruit of rigorous evaluation work and comparative studies that
we will summarize.
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en municipios”; Sevilla SE-232-2011.www.agenciaandaluzadelaenergia.es
.- Alex H, W. Lee. (2000).”Verification of electrical energy savings for lighting retrofit
using short- and long-term monitoring”.Energy Conversion & Management. 41:1999-
2008.
.- Atkinson B. A, Mcmahon J. E.,Nadel M.(1993). “A review of U.S. and Canadian
lighting programs for the residential, commercial, and industrial sectors”. Energy
18:145-158, (doi: 10.1016/ 0360-5442(93)90098-X)
.- CIE. Publicación N º 81.(1989). “Mesópica fotometría: historia, problemas y
soluciones prácticas”.
.- CIE Report 194:2011.”On site Measuremennt of the photometric properties of the
road and tunnel lighting”. ISBN 978 3 90196 92 3
.- CIE Report 115:1995. “ Recomendations to iluminate roads for motorized vehicles
and pedestrian transit”
.- CIE 177:2007 ”Rendimiento de colores de la luz blanca de LED” . ISBN 978 3 901
906 57 2
.- Di Stefano J,(2000).“Energy efficiency and the environment: the low-consumption
lighting potential to save energy and reduce carbon dioxide emissions at the University
of Melbourne, Australia,”. Energy. 25: 823-839
.- Doulos L. , Tsangrassoulis A.,. Topalis F, (2008). “Quantifying energy savings in
daylight responsive systems: The role of dimming electronic ballasts”.Energy and
Buildings. 40:36-50.
.- Gil-de-Castro A, Moreno Muñoz A, Larsson A, et al. 2012. “LED Street lighting: A
power quality comparison among street light technologies”. Lighting Research and
Technology, 2012.Vol.0. p.1-19. 1 (doi: 10.1177/1477153512450866).
.- Hermoso Orzáez MJ, de Andrés Díaz JR, (2013). ”Comparative study of energyefficiency and conservation systems for ceramic metal-halide discharge lamps”.
Energy. 52: 258-264. Available online 7 March 2013
(http://dx.doi.org/10.1016/j.energy.2013.01.050)
.- Inspect Report TRIDONIC. Customer Huxley S.L RMA 400168818. Report day 27-
02-12
.- Khan N, Abas N. (2011). “Comparative study of energy saving light sources”.
Renewable and Sustainable Energy reviews.15:.296 -309
.- Kostic M, Djokic L.(2009).”Recommendations for energy efficient and visually
acceptable street lighting”. Energy. 34: 1565-1572. (doi: 10.1016/j.energy.2009.06.056)
.- Li D. H.W.,. Cheung K.L, Wong S.L., Lam T. N.T (2010).” An analysis of energyefficient light fittings and lighting controls”. Applied Energy. 87:558–567.
.- Mahlia T.M.I., Razak H. Abdul,. Nursahida M.A. (2011). “Life cycle cost analysis and
payback period of lighting retrofit at the Universityof Malaya”. Renewable and
Sustainable Energy Reviews. 15 : 1125 – 1132.
.- Mahlia T.M.I. ,. Said M.F.M,. Masjuki H.H, Tamjis M.R. (2005). “Cost-benefit analysis
and emission reduction of lighting retrofits in residential sector” Energy and
Building.37
:573-678
.- Mahapatra S. Chanakya H.N, Dasappa S., (2009).”Evaluation of various energy
devices for domestic lighting in India: Technology, economics and CO2 emissions”
Energy for Sustainable Development, 13: 271-279, ISSN 0973-0826,
(doi:10.1016/j.esd.2009.10.005)
.- Martinot E, Borg N.(1999) “Efficient lighting programs of experience and lessons from
eight countries” Energy Policy. 26: 1071-1081.
.- Mills E, Piette M. A.(1993).” Advanced energy-efficient lighting systems: progress
and potential”. Energy. 18: 75-97. (doi: 10.1016/ 0360-5442(93)90092-R)
.- Papagiannis G, Dagoumas A, Lettas N, Dokopoulos P. (2008). “Economic and
environmental impacts from the implementation of an intelligent demand side
management system at the European level”. Energy Policy. 36: 163-180
.- Pousset N, Rougié B, Razet. A. (2010).“Impact of current supply on LED colour “.
Lighting Research and Technology. 42: 371-383. (doi: 10.1177/14771535103733159)
.- Radulovic D, Skok S, Kirincic V. (2011). “Energy efficiency public lighting
management in the cities”. Energy. 36: 1908 -1915.(doi: 10.1016/j.energy.2010.10.016)
.- Rea M S, Bullough JD, Freyssinier JP et al. (2004) “A proposed unified photometry
system.”. Lighting Research and Technology. 36: 85-111.
.- Rea M.S. (2010). “The future of LED lighting: Greater benefit or just lower cost”.
Lighting Research and Technology.42:.370. (doi:10.1177/1477153510390978)
.- Reusel KV. (2008). “A look ahead at energy-efficient electricity applications in a
modern world.” <www.ect2008.com> ECT conference. Bergen, Norway.
.- Russell L.P.(1998.) “A simple cost estimation technique for improving the
appearance and security of outdoor lighting installations” Building and Environment. 33:
79-95.
.- Ryckaert W.R, SmetK. A.G., RoelandtsI .A.A., Van Gils M., Hanselaer P.,
(2012).Linear LED tubes versus fluorescent lamps: An evaluation, Energy and
Buildings, 49: 429-436, ISSN 0378-7788, 10.1016/j.enbuild.2012.02.042.
.- Saunders H. D, Tsao J.Y. (2012). “Rebound effects for lighting”. Energy Policy.
49:477-478. (doi: 10.1016/j.enpol.2012.06.050).
.- Smet K.A.G., Ryckaert W.R., Pointer M.R., Deconinck G., Hanselaer P., (2012). ”A
memory colour quality metric for white light sources”, Energy and Buildings, 49: 216-
225, ISSN 0378-7788, 10.1016/j.enbuild.2012.02.00
.- Svilainis L., (2008) .”LED directivity measurement in situ”, Measurement, 41:647-654,
ISSN 0263-2241, (doi:10.1016/j.measurement.2007.09.003)
.- Villanueva I, Lázaro I, Anzurez J. (2012). ”Reliability analysis of LED-based
electronic devices”. Procedia Engineering. 35: 260–269. (doi
10.1016/j.proeng.2012.04.189)
.- Wen-Shing S, Chih-Hsuan T, Yi-Han H,(2011). “Simulating the Illuminance and
Efficiency of the LEDs Used in General Household Lighting”, Physics Procedia, 19:
244-248, ISSN 1875-3892, (doi: 10.1016/j.phpro.2011.06.156).
.- Zalewski S.(2012) .”A proposed method for the calculation of light emitting diode road
lighting”. Lighting Research and Technology, 44: 186-196. (doi:
10.1177/1477153511423881)
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