Street lighting power reduction potential in Lithuanian cities

Balsys, R.; Otas, Konstantinas; Mikulionis, A.; Pak, V. J.; Vaškys, A.; Vitta, P.; Žukauskas, A.

doi:10.2495/sdp110751

Cited by 2 publications

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“…The lighting system power having been reduced in Kaunas city no luminaires have been switched off at night. In 2010 year street lighting in Kaunas city neither has not been dimmed nor switched off at night since electric energy consumption after renovation has been reduced [5,6].…”

Section: Street Lighting Of Kaunas Citymentioning

confidence: 99%

Street lighting power reduction potential in Lithuanian cities

Balsys¹,

Otas²,

Mikulionis³

et al. 2011

WIT Transactions on Ecology and the Environment

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Purpose of this paper is to evaluate the current street lighting condition and energy saving possibilities using new light emitting diode (LED) technologies in the main cities of Lithuania. The power consumption evaluation model has been used for comparison of current high-pressure sodium (HPS) lamp technology and available LED technologies. The model enables to evaluate luminous flux losses as well as electric power losses. The calculations have been carried out for the largest Lithuanian cities and the following conclusions have been made. The current HPS technology was implemented in towns about 10-15 years ago. Now the life time of those luminaries is being expired. So the renovation of street lighting systems would be necessary in the nearest future. It was determined that the implementation of LED technologies (due to higher efficiency of LEDs, smaller energy losses in luminaire optics, more effective distribution of luminous flux and other advantages) enables to achieve electric power reduction by 20-60%. This mostly depends on power of the HPS lamp to be replaced and the quality of LED luminaires. The expedience of the current luminaire replacement by LED luminaire depends on the street lighting condition characteristics such as type and power of luminaire, maintenance duration and others. Most energy efficient replacement by LED luminaires should be carried out in the narrow residential streets where luminance levels exceed the requirements of standards now.

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Section: Street Lighting Of Kaunas Citymentioning

confidence: 99%

Street lighting power reduction potential in Lithuanian cities

Balsys¹,

Otas²,

Mikulionis³

et al. 2011

WIT Transactions on Ecology and the Environment

Self Cite

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“…Light Pollution Public Healthy (Balsys et al 2011) The lighting system power reduction by approximately 50% is possible using advanced LED A technology only. LED A=130lum/W.…”

Section: Energy Efficiencymentioning

confidence: 99%

Sustainability for energy-efficient lighting

Sánchez Balvás

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The social, environmental and economic side effects of the street lighting are the foremost concern for this thesis, since the expanding use of light at night, along with an inappropriate design, has led a large energy consumption, light pollution and impact on human health and the environment. With increasing consideration on the negative side-effects, it has introduced new recommendations for energy efficient lighting, indicators, and new energy classifications systems to evaluate the energy performance of lighting systems. According to the literature, the energy classification systems are based on installed power and lighting parameters (luminance or illuminance), which influence by regulating the energy consumption and the light levels entering the eye. However, recent studies on the advances of lighting technologies, i.e. light-emitting diode (LED), control systems and luminaires, and developments in mesopic photometry and its influence in energy reduction and vision performance, demand for new requirements. This implies a new quantification system to measure energy efficiency by incorporating all the elements that affect the overall efficiency of the installation. Within this context, an alternative tool to aid decision-makers in choosing the best energy efficiency system to be implemented and to support evidence on the energy savings on street lighting was proposed. This alternative approach takes into consideration the improvement of visual performance by correcting the standard photometry system (photopic) by the mesopic system recommended within the CIE 191:2010 and the operational hours of the lighting system, which are usually disregarded by the most commonly used energy classification approaches. The research outlined in this thesis proposes to use the value function approach that allowed standardizing the proposed energy consumption indicator within a value scale ranging from 0 to 1, which also represents satisfaction degree: the less energy is consumed the more grade of satisfaction. A case study comprising 13 representative streets of the Eixample District of Barcelona was used to validate the alternative approach proposed, and results were compared with those obtained by considering three energy efficiency classifications currently used in Spain, Netherlands and Italy. For the sample, a systematic procedure was carried out to collect data regarding lighting class and geometrical characteristics of the streets, and to the main characteristics of the lighting system. The results derived from the application of the proposed method can be used straightforwardly to quantify the potential energy savings that can be obtained when using different energy classifications. Moreover, these results provide a critical analysis by pointing out the strengths and weakness of the most significant energy performance indicators along with their corresponding energy classification systems. In conclusion, this thesis constitutes a conceptual and empirical approach to the energy classification systems applied in Europe to the street lighting. Thanks to the methodological contribution and the knowledge obtained, this thesis intends to contribute to improving the energy efficiency-based classification systems, and consequently, to move forward into a sustainable and smart assessment tool. La principal motivación para el estudio del alumbrado público en este trabajo, radica en la influencia que éste ejerce a nivel social, ambiental y económico. El aumento del consumo energético, la contaminación lumínica y el impacto tanto en la salud como en el medio ambiente, son efectos secundarios causados por el uso excesivo de la luz durante la noche junto con un diseño inadecuado del alumbrado público. Por ello, han surgido recomendaciones en el ámbito de eficiencia energética, indicadores y sistemas de clasificación energética que ayudan a evaluar las mejoras necesarias para obtener una instalación de alumbrado público eficiente. La mayoría de los sistemas de clasificación energética están basados en parámetros como la potencia instalada y los niveles de iluminación. Sin embargo, existen estudios que confirman los recientes avances tecnológicos en iluminación y, en el desarrollo de la fotometría mesópica que influye en la reducción del consumo energético y en el rendimiento visual. Esto pone de manifiesto que la evaluación de eficiencia energética del alumbrado público a través de los sistemas de clasificación energética actuales, no deberían basarse solamente en los parámetros básicos, si no que también deberían considerarse otros parámetros que incidan en la eficiencia global de la instalación y que tomen en cuenta las demandas actuales del sector. En este contexto, se ha propuesto una herramienta alternativa que ayude a los responsables de tomar decisiones a seleccionar e implementar el mejor sistema de eficiencia energética, y a evidenciar los ahorros energéticos en el alumbrado público. Este enfoque alternativo toma en cuenta la mejora del rendimiento visual al corregir el sistema de fotometría estándar (fotópico) por el sistema mesópico recomendado en el reporte técnico CIE 191: 2010, así como las horas de funcionamiento del sistema de iluminación. Estos dos parámetros, generalmente son ignorados por los sistemas de clasificación energética usados comúnmente. Esta investigación propone utilizar la Función de Valor, la cual refleja el grado de satisfacción del indicador de consumo energético a partir de un valor estandarizado en una escala del 0 al 1: menos energía es consumida, mayor es el grado de satisfacción que se obtiene. El nuevo enfoque se ha validado en un caso de estudio conformado por 13 calles representativas del distrito del Eixample de Barcelona, cuyos resultados fueron correlacionados con tres sistemas de clasificación energética utilizados actualmente en España, Países Bajos e Italia. Se llevó a cabo un procedimiento sistemático para la colección de datos del caso de estudio, donde se obtuvieron las características geométricas de las calles y sus respectivas clases de iluminación, así como las características principales del sistema de iluminación. Los resultados obtenidos de la aplicación del método propuesto y de las diferentes clasificaciones energéticas, se pueden utilizar de forma sencilla para cuantificar el ahorro energético. Además, estos resultados proporcionan un análisis crítico al resaltar las fortalezas y debilidades de los indicadores de eficiencia energética junto con sus correspondientes sistemas de clasificación energética. En conclusión, este trabajo constituye un enfoque conceptual y empírico de los sistemas de clasificación energética del alumbrado público aplicados en Europa. Gracias al aporte metodológico y al conocimiento obtenido, este trabajo pretende contribuir a la mejora de los sistemas de clasificación basados en la eficiencia energética y, en consecuencia, avanzar hacia una herramienta de evaluación sostenible e inteligente.

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Street lighting power reduction potential in Lithuanian cities

Cited by 2 publications

References 1 publication

Street lighting power reduction potential in Lithuanian cities

Street lighting power reduction potential in Lithuanian cities

Sustainability for energy-efficient lighting

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