Energy Optimization of Road Tunnel Lighting Systems

Salata, Ferdinando; Golasi, Iacopo; Bovenzi, Simone; Vollaro, Emanuele de Lieto; Pagliaro, Francesca; Cellucci, Lucia; Coppi, Massimo; Gugliermetti, Franco; Vollaro, Andrea de Lieto

doi:10.3390/su7079664

Cited by 66 publications

(36 citation statements)

References 19 publications

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“…In order to evaluate payback periods and environmental impacts, such as CO 2 emissions, it would be possible to perform calculations of different energy optimisations as has been shown for road tunnels [24,25]. It would also be possible to use these results to forecast LED energy savings for larger areas such as multiple streets or entire cities by applying newly developed heuristic models or large-scale photometric computations [26,27].…”

Section: Discussionmentioning

confidence: 99%

LED (Light-Emitting Diode) Road Lighting in Practice: An Evaluation of Compliance with Regulations and Improvements for Further Energy Savings

Jägerbrand

2016

Energies

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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 (U o ), longitudinal luminance uniformity (U I ), power density (P D ) and normalised power density (P N ) 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 U o and U I . 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.

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Section: Discussionmentioning

confidence: 99%

LED (Light-Emitting Diode) Road Lighting in Practice: An Evaluation of Compliance with Regulations and Improvements for Further Energy Savings

Jägerbrand

2016

Energies

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“…The first step for the dimensioning of the tunnel lighting system [31,32] was to examine the most demanding conditions caused by outdoor daylight in the summer solstice with the highest solar radiation (12.00 p.m. with respect to the solar time). Concerning Case 1 and Case 2 (Table 2), in order to be able to compare the performance of both planned systems (HPS vs. HPS + LED), they were dimensioned to obtain the same lighting results when the maximum luminous flux was required.…”

Section: Lighting Simulationsmentioning

confidence: 99%

Management Optimization of the Luminous Flux Regulation of a Lighting System in Road Tunnels. A First Approach to the Exertion of Predictive Control Systems

et al. 2016

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Lighting very long road tunnels implies a high consumption of electrical energy since it requires a proper illumination during the whole day. In particular, in the daytime, the illuminance levels right at the tunnel entrance threshold and exit zones must be higher than those characterizing the inside of the tunnel; in this way, the eye of the driver is able to adapt and be safe while passing from a high natural illumination of the outside to the lighting conditions characterizing the inside of the tunnel. However this causes a high energy demand. Therefore, this case study investigates whether it is possible to minimize the energy demand through the exertion of an automatic new control system regulating the luminous fluxes of artificial sources (guaranteeing the parameters set by the regulation) with respect to the variation of the natural light characterizing the outside. The innovative control systems must be characterized by high reliability levels in order to guarantee conditions which are not dangerous to the driver if an outage occurs and minimize their maintenance costs. To carry out this type of study, the software DIALux was used to simulate a tunnel with a dimming system (with lamps characterized by a high luminous efficiency) regulated by a pre-programmed logic control system (with high Mean Time Between Failure (MTBF) values). The savings obtained enabled the amortization of the solution here suggested in a time interval that makes it an advantageous choice economically speaking.

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“…It is also remarkable that the efforts to decrease the huge economic, environmental and energy consumption of the lighting installations of tunnels have included forestation of portals, which simultaneously contributes to the stability of the mountainside [40]; special devices to regulate the luminous flux [41]; and special pavements to improve road reflectance, resulting in a subsequent decrease in the installed power [42,43]. In this regard, the use of incinerated sewage sludge ash could have potential disadvantages with regard to its future applications in brick manufacturing, as the increase of tempering water required could raise the drying costs, and the addition of an anti-scum agent could increase the production costs [29].…”

Section: Lighting Infrastructures: Use Of Sunlight In Road Tunnelsmentioning

confidence: 99%

Proposal to Foster Sustainability through Circular Economy-Based Engineering: A Profitable Chain from Waste Management to Tunnel Lighting

et al. 2017

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Abstract:The increasing demands of infrastructures in terms of energy consumption, raw material demand, greenhouse gas emissions, waste management, treatment of components after their lifetime period, and financial costs are nowadays a serious threat for sustainability. Given that the resources are limited, it is difficult to ensure an accurate level of well-being for future generations. For this reason, new perspectives in design, production and consumption are necessary. In this work, the principles of circular economy are applied to concrete branches of engineering. Departing from a design orientated to new uses after life period of infrastructures, a circular economy-aimed engineering makes possible the connection and mutual profit of such different branches like waste management and tunnel lighting. The benefits in environmental and financial terms are a strong argument in favor of a stronger link between engineering and circular economy.

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Energy Optimization of Road Tunnel Lighting Systems

Cited by 66 publications

References 19 publications

LED (Light-Emitting Diode) Road Lighting in Practice: An Evaluation of Compliance with Regulations and Improvements for Further Energy Savings

LED (Light-Emitting Diode) Road Lighting in Practice: An Evaluation of Compliance with Regulations and Improvements for Further Energy Savings

Management Optimization of the Luminous Flux Regulation of a Lighting System in Road Tunnels. A First Approach to the Exertion of Predictive Control Systems

Proposal to Foster Sustainability through Circular Economy-Based Engineering: A Profitable Chain from Waste Management to Tunnel Lighting

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