Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
This chapter explores the principles and practices that make modern lighting environmentally responsible, energy-efficient, and conducive to human well-being. This chapter delves into the core aspects of sustainable lighting, revealing how it not only conserves resources but also enhances the quality of illuminated spaces.
The chapter begins with Sect. 9.1 which highlights the critical role of energy conservation in sustainable lighting design. It covers strategies, technologies, and design considerations that minimize energy consumption. Section 9.2 underscores the importance of integrating renewable energy sources such as solar and wind power into lighting systems to reduce dependence on fossil fuels. Section 9.3 focuses on harnessing natural daylight through various architectural elements and technologies. This includes “Fenestration Design,” “Light Shelves,” “Light Tubes,” “Reflective Surfaces,” and “Daylight Sensors.” These methods reduce the need for artificial lighting, enhancing energy efficiency. Section 9.4 addresses the need to mitigate light pollution and its environmental impacts, emphasizing the importance of responsible outdoor lighting practices. Section 9.5 introduces eco-conscious materials for luminaires and lighting systems. This section covers “LED Lights,” “Natural Materials,” “Recycled Materials,” “Low VOC Paints,” and “Energy-Efficient Ballasts.” Section 9.6 highlights the benefits of long-lasting lighting technologies that reduce waste and replacement frequency. Section 9.7 discusses the role of controls in sustainable lighting design. It further delves into “Dimming and Occupancy Sensors,” which help optimize lighting operation and energy usage. Section 9.8 unveils the profound impact of lighting on human health and productivity. It explores concepts like “Dynamic Lighting,” “Personalization,” “Task-Based Lighting,” “Flicker-Free Lighting,” “Glare Reduction,” and “Integration with Other Systems,” illustrating how lighting can be tailored to human needs. Section 9.9 emphasizes the importance of easy maintenance and servicing of lighting systems to extend their life and ensure they continue to function efficiently.
This chapter is a valuable resource for lighting professionals, designers, architects, and anyone interested in creating lighting environments that are energy-efficient, ecologically responsible, and supportive of human well-being.
This chapter explores the principles and practices that make modern lighting environmentally responsible, energy-efficient, and conducive to human well-being. This chapter delves into the core aspects of sustainable lighting, revealing how it not only conserves resources but also enhances the quality of illuminated spaces.
The chapter begins with Sect. 9.1 which highlights the critical role of energy conservation in sustainable lighting design. It covers strategies, technologies, and design considerations that minimize energy consumption. Section 9.2 underscores the importance of integrating renewable energy sources such as solar and wind power into lighting systems to reduce dependence on fossil fuels. Section 9.3 focuses on harnessing natural daylight through various architectural elements and technologies. This includes “Fenestration Design,” “Light Shelves,” “Light Tubes,” “Reflective Surfaces,” and “Daylight Sensors.” These methods reduce the need for artificial lighting, enhancing energy efficiency. Section 9.4 addresses the need to mitigate light pollution and its environmental impacts, emphasizing the importance of responsible outdoor lighting practices. Section 9.5 introduces eco-conscious materials for luminaires and lighting systems. This section covers “LED Lights,” “Natural Materials,” “Recycled Materials,” “Low VOC Paints,” and “Energy-Efficient Ballasts.” Section 9.6 highlights the benefits of long-lasting lighting technologies that reduce waste and replacement frequency. Section 9.7 discusses the role of controls in sustainable lighting design. It further delves into “Dimming and Occupancy Sensors,” which help optimize lighting operation and energy usage. Section 9.8 unveils the profound impact of lighting on human health and productivity. It explores concepts like “Dynamic Lighting,” “Personalization,” “Task-Based Lighting,” “Flicker-Free Lighting,” “Glare Reduction,” and “Integration with Other Systems,” illustrating how lighting can be tailored to human needs. Section 9.9 emphasizes the importance of easy maintenance and servicing of lighting systems to extend their life and ensure they continue to function efficiently.
This chapter is a valuable resource for lighting professionals, designers, architects, and anyone interested in creating lighting environments that are energy-efficient, ecologically responsible, and supportive of human well-being.
Sustainable Lighting Design
Ozenen, Gurkan (Autor:in)
Architectural Interior Lighting ; Kapitel: 9 ; 85-105
09.12.2023
21 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Sustainable lighting design , Energy efficiency , Renewable energy , Daylight harvesting , Light pollution reduction , Environmentally friendly materials , Long lifespan , Lighting controls , Human-centric lighting , Maintenance , Energy conservation , Natural daylight , Eco-friendly materials , Lighting quality , Quality of illumination Energy , Sustainable Architecture/Green Buildings , Interior Architecture and Design , Power Electronics, Electrical Machines and Networks , Renewable and Green Energy , Sustainable Development , Engineering
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