Abstract
The sensitivity of the human eye varies with the different lighting conditions to which it is exposed. The cone photoreceptors perceive the color and work for illuminance conditions greater than 3.00 cd/m² (photopic vision). Below 0.01 cd/m², the rods are the cells that assume this function (scotopic vision). Both types of photoreceptors work coordinately in the interval between these values (mesopic vision). Each mechanism generates a different spectral sensibility. In this work, the emission spectra of common sources in present public lighting installations are analyzed and their normative photopic values translated to the corresponding mesopic condition, which more faithfully represents the vision mechanism of our eyes in these conditions. Based on a common street urban configuration (ME6), we generated a large set of simulations to determine the ideal light point setup configuration (luminance and light point height vs. poles distance ratio) for each case of spectrum source. Finally, we analyze the derived energy variation from each design possibility. The results obtained may contribute to improving the criterion of light source selection and adapting the required regulatory values to the human eye vision process under normalized artificial street lighting condition, reaching an average energy saving of 15% and a reduction of 8% in terms of points of light required. They also offer a statistical range of energy requirements for lighting installation that can be used to generate accurate electrical designs or estimations without the necessity of defining the exact lighting configuration, which is 77.5% lower than conventional design criteria.
Highlights
The development of more efficient and sustainable lighting projects is a practice that contributes significantly to the achievement of more environmentally friendly urban ecosystems
This study was carried out analyzing a selection of 66 outdoor street lighting luminaires engineered using both High Pressure Sodium (HPS) discharge bulbs with Correlated Color Temperatures (CCT) in the range of 2000 K and lamps implemented with LEDs with CCT in the warm
This work assesses the effect generated by the correction of the photopic luminance of the luminaire to adapt it to a mesopic scenario using an Mesopic vs. Photopic ratio (M/P) ratio that is obtained, in each case, considering the human mesopic vision, the spectral photometry of the light source to be used and the type of geometry of the road to be illuminated
Summary
The development of more efficient and sustainable lighting projects is a practice that contributes significantly to the achievement of more environmentally friendly urban ecosystems. The awareness of the fight against climate change is increasingly widespread at a historical moment in which the concentration of atmospheric CO2 has reached values higher than 400 ppmv (compared to the 280 ppmv existing in the pre-industrial period) [1]. Any project that meets the regulatory needs imposed with the minimum consumption of resources, both in the execution phase and in the exploitation phase, favors this objective. This circumstance requires the technical teams involved in the design and development of urban infrastructure projects to carefully analyze each aspect related to achieving the most efficient results possible while covering the purpose for which they are conceived.
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