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Intelligente und energieoptimierte Beleuchtungssysteme auf der Grundlage der Kombination von Tageslicht und kuenstlicem von Schwefellampen erzeugtem Licht

Description: Das Projekt "Intelligente und energieoptimierte Beleuchtungssysteme auf der Grundlage der Kombination von Tageslicht und kuenstlicem von Schwefellampen erzeugtem Licht" wird vom Umweltbundesamt gefördert und von Technische Universität Berlin, Institut für Elektronik und Lichttechnik, Fachgebiet Lichttechnik durchgeführt. General Information: The effective use of the available daylight for lighting purposes is an important contribution to the improvement of both the energy balance of a building and also to theindoor comfort of the occupants of rooms. The use and supply of daylight guidance systems for lighting, particularly areas far from windows, has therefore greatly increased. The object of this project is to develop, construct and test an intelligent daylight guidance and conducting system. This will focus the solar radiation through a Heliostat mirror system and pass it through hollow light guides (HLG) into the interior of the building, where it is used for lighting purposes. Conducting losses are to be minimized and the effectiveness of various light extraction strategies improved by using suitable materials (microprism foil, highly polished aluminium foil). The fluctuation in the amount of daylight available means that it will be necessary to add a variable amount of artificial light. The previous lack of a suitable light source for this purpose has meant that there have been few applications or attempts in this fields. The development of the sulphur lamp means that for the first time an efficient use of a daylight-dependent electronically-controlled artificial light source for this application is possible. The interesting properties of this environmentally-friendly light source (no mercury, very long life, dimmable spectrum similar to daylight) make it exactly right for just this application. it is therefore planned as part of this project to erect a pilot system of which the configuration can bevaried with regard to individual components and to construct a measuring apparatus to determine the technical properties of hollow light guides (HLG). Compared with conventional solutions using artificial light this system promises substanical saving potential with regard to electrical one for lighting as well as distinctly lower servicing and installation costs. Furthermore, it is possible to transmit the light over great distances to illuminate areas which have little or no daylight. Il also offers a simple mean of filtering out unwanted areas of the spectrum (IR,UV) depending on the applic (e.g. museums) or time of year. Because until recently there was no means of controlling sulphur lamps, no investigations were made into the possibility of using this combination of technologies. The objective of this research project is therefore to research properties of the described daylight guidance and conducting system, to test an optimize its operation and effectiveness with regard to energy, and therefore t able to provide the technical designer with scientifically-proven planning principles. Industry is to be provided with information on the further development and marketing of system components.

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SupportProgram

Origin: /Bund/UBA/UFORDAT

Tags: Fossiler Brennstoff ? Messgerät ? Lack ? Lampe ? Berlin ? Leuchte ? Beleuchtung ? Elektronik ? Quecksilber ? Solarstrahlung ? Schwefel ? Aluminiumfolie ? Licht ? Lichttechnik ? Gebäudetechnik ? Eigentum ? Energie ? Energieeinsparung ? Gebäudefenster ? Forschungsprojekt ? Anlagenbetrieb ? Rechte ? Heliostat ? other energy topics ? renewable sources of energy ?

Region: Berlin

Bounding box: 10.44987° .. 10.44987° x 54.03573° .. 54.03573°

License: cc-by-nc-nd/4.0

Language: Deutsch

Organisations

Time ranges: 1998-01-01 - 2000-12-31

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