Abstract
Light-emitting diode (LED) road lighting has been widely implemented in recent years, but few studies have evaluated its performance after installation. This study investigated whether LED road lighting complies with minimum regulations in terms of traffic safety and whether improvements for energy efficiency are possible. Average road surface luminance (L), overall luminance uniformity (Uo), longitudinal luminance uniformity (UI), power density (PD) and normalised power density (PN) were evaluated for 14 roads (seven designed for vehicular traffic and seven for pedestrians and bicycles). Energy savings were calculated as the percentage reduction to the minimum level of the existing lighting class or a lower lighting class and by applying a dimming schedule. The results showed that LED road lighting for vehicular traffic roads generally fulfilled the requirements, whereas that for pedestrian and bicycle roads generally corresponded to the lowest lighting class for L, and often did not meet the statutory requirements for Uo and UI. By adapting lighting levels to the minimum requirement of the existing lighting class or by dropping to a lower lighting class, vehicular traffic roads could save 6%–35% on L to lighting class M5 and 23%–61% on L to lighting class M6. A dimming schedule could lead to energy savings of 49%. There is little potential for savings on pedestrian and bicycle roads, except by implementing a dimming schedule. Thus, in general, for vehicular, pedestrian and bicycle roads, a dimming schedule can save more energy than can be achieved in general by reducing lighting class. Furthermore, since a dimming schedule can be adjusted to traffic intensity, any potential risk of compromising traffic safety is minimised.
Highlights
The widespread trend of using light-emitting diodes (LEDs) for outdoor lighting in order to decrease energy consumption has led to interest in evaluating installed Light-emitting diode (LED) lighting systems from the perspectives of traffic safety and energy efficiency
The LED road lighting for roads with vehicular traffic generally fulfilled the requirements Timotejvägen stipulated by European and Swedish regulations for L, Uo and UI, but there were some exceptions for Saving specific road sections
The LED lighting on pedestrian and bicycle roads generally fulfilled the requirements for the lowest lighting class in terms of L (M6/S4), but most
Summary
The widespread trend of using light-emitting diodes (LEDs) for outdoor lighting in order to decrease energy consumption has led to interest in evaluating installed LED lighting systems from the perspectives of traffic safety and energy efficiency Such evaluations are highly relevant, since traffic safety regulations often require a minimum light level and since energy consumption by outdoor lighting can be very high due to the long operating hours. 60%–80% of total electricity consumption by a municipality [1,2], leading to a high financial burden for maintaining public lighting [3] To reduce these energy costs and to comply with the mandatory changes in the lighting market caused by the European Union Ecodesign regulations, municipal authorities are highly interested in changing to new lighting technologies, if these pose no risk of compromising light quality. LED lighting is easy dimmable and has a rapid
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