Sustainable Indoor Lighting [electronic resource] /
edited by Paola Sansoni, Luca Mercatelli, Alessandro Farini.
- X, 355 p. 212 illus., 161 illus. in color. online resource.
- Green Energy and Technology, 1865-3529 .
- Green Energy and Technology, .
Photometric and Radiometric Quantities and Laws -- Photometrical and Colorimetrical Tests -- Characteristics of Light Sources -- Halogen and Incandescence Lamps -- Fluorescent Lamp -- Discharge Lamp -- LED -- Use of White LED for Lighting -- Lighting Luminaires -- Solar Internal Illumination -- Transport of Light in Optical Fibre (Light Pipes) -- Architectural Aspects for Natural Indoor Lighting -- Colour Rendering -- Museum Illumination by Sunlight -- Architectural Features of Sustainable Lighting -- Optical Coatings in Illumination -- Physiological Effects of Light -- Energetic Balance for Illumination -- Energy Saving Using Domotic Systems.
Encompassing a thorough survey of the lighting techniques applied to internal illumination characterized by high efficiency, optimized color and architectural integration, a consolidated summary of the latest scientific, technical and architectural research is presented in order to give the reader an overview of the different themes with their interactions and mutual effects. This book describes light principles, methodologies and realisations for indoor illumination at low consumption. Power efficiency, color characteristics and architectural aspects are analyzed in terms of their practical application, with the interactions between scientific, technological and architectural features considered in order to supply a complete overview, which can be read both at technical level and at user level. Introducing photometric and radiometric quantities and laws, the book first discusses tests and measurements assessing lighting and color characteristics before examining in detail artificial light sources with particular attention paid to measures to reduce consumption and optimize efficiency. Key sources are illustrated with producers and suppliers with technical details and use specifications included. Serving to maximize reader insights into the use of sunlight - considering light transfer, application to indoor illumination and in particular to museum lighting - in the color rendering properties of light sources and the architectural aspects for natural indoor lighting, the final part of this boo collects other related but important elements including architectural issues, environmental integration and the possibility of changing the light color by introducing suitable coatings. The physiological effects of internal illumination quality on user comfort is discussed and several possibilities for energy saving using domotics are outlined.
9781447166337
10.1007/978-1-4471-6633-7 doi
Energy.
Renewable energy resources.
Renewable energy sources.
Alternate energy sources.
Green energy industries.
Sustainable development.
Energy.
Renewable and Green Energy.
Renewable and Green Energy.
Sustainable Development.
Optics, Lasers, Photonics, Optical Devices.
TJ807-830
621.042
Photometric and Radiometric Quantities and Laws -- Photometrical and Colorimetrical Tests -- Characteristics of Light Sources -- Halogen and Incandescence Lamps -- Fluorescent Lamp -- Discharge Lamp -- LED -- Use of White LED for Lighting -- Lighting Luminaires -- Solar Internal Illumination -- Transport of Light in Optical Fibre (Light Pipes) -- Architectural Aspects for Natural Indoor Lighting -- Colour Rendering -- Museum Illumination by Sunlight -- Architectural Features of Sustainable Lighting -- Optical Coatings in Illumination -- Physiological Effects of Light -- Energetic Balance for Illumination -- Energy Saving Using Domotic Systems.
Encompassing a thorough survey of the lighting techniques applied to internal illumination characterized by high efficiency, optimized color and architectural integration, a consolidated summary of the latest scientific, technical and architectural research is presented in order to give the reader an overview of the different themes with their interactions and mutual effects. This book describes light principles, methodologies and realisations for indoor illumination at low consumption. Power efficiency, color characteristics and architectural aspects are analyzed in terms of their practical application, with the interactions between scientific, technological and architectural features considered in order to supply a complete overview, which can be read both at technical level and at user level. Introducing photometric and radiometric quantities and laws, the book first discusses tests and measurements assessing lighting and color characteristics before examining in detail artificial light sources with particular attention paid to measures to reduce consumption and optimize efficiency. Key sources are illustrated with producers and suppliers with technical details and use specifications included. Serving to maximize reader insights into the use of sunlight - considering light transfer, application to indoor illumination and in particular to museum lighting - in the color rendering properties of light sources and the architectural aspects for natural indoor lighting, the final part of this boo collects other related but important elements including architectural issues, environmental integration and the possibility of changing the light color by introducing suitable coatings. The physiological effects of internal illumination quality on user comfort is discussed and several possibilities for energy saving using domotics are outlined.
9781447166337
10.1007/978-1-4471-6633-7 doi
Energy.
Renewable energy resources.
Renewable energy sources.
Alternate energy sources.
Green energy industries.
Sustainable development.
Energy.
Renewable and Green Energy.
Renewable and Green Energy.
Sustainable Development.
Optics, Lasers, Photonics, Optical Devices.
TJ807-830
621.042