Cel Demonstration of innovative daylighting systems for the illumination of dark floors of a students quarter in Stuttgart-Hohenheim.Such systems, when installed in large buildings, could considerably reduce the energy demand for electrical lighting.The light pipe system has a light transmission efficiency of 23% for diffuse light. The output light flux, integrated over one year, amounts to about 4 mio Imh, and the cost of one substituted electrical kWh can be DM 2.14 under ideal conditions. The system enhances the illuminance level in the kitchen by a factor between 2 and 5, depending on location (within the kitchen) and weather dconditions.The FPC system has a very low efficiency of only 0.2% (compared with the 2% estimated before), due to a number of loss mechanisms which could not be taken into consideration. The contribution to the illuminance level in the kitchen is therefore not significant.Whereas mirror light pipes operating on this or another principle will soon arrive at applications which can be economically meaningful, the FPC system needs further development. Even if this development is successful, daylighting applications of the FPC will be found only for special cases; short distances for the light guidingsystem are of great importance.The students's living quarters comprise six buildings, 2 to 3 storeys high, of interesting architecture. They are built against earth hills on their north sides and they have grass covered roofs. The students' rooms face almost due south, and on the northern side of the buildings there are rooms for recreation, cooking and eating. These northern rooms have little daylight, the only light sources being light transmitted through the glass roof over the staircase, through the glass doors of the students' rooms (if not darkened by shutters or curtains) and through the entrance door. One building is equipped with a fluorescent planar concentrator (FPC) another one with a light pipe. The systems collect the light near the glass cover of the staircase and then reflect it into the darkest kitchen, about 6 to 7 m below the roof.The FPC-system collects the light with an FPC (yellow fluorescent dye BASF 241/PMMA) forming the surface of a truncated cone, the light is then guided down withinthe wall of a transparent pipe of PMMA (diameter 30 cm, wall thickness 0.6 cm) by total internal reflections and is then reflected into the kitchen by a mirror. The mirror light pipe is of triangular cross section (with side length about 70 cm), made from Alucobond material (aluminium laminated onto plastic) which is covered with 3 M Silverlux film on the inner surface. The output mirror has a special shape in order to reflect as much light as possible into the kitchen to be illuminated. The estimated light transmission efficiency of the FPC-system is 2% and that of the light pipe is 40%. The integrated light flux is estimated with 1.7 Mio Lmh/y and 5.2 Mio Lmh/y. Program(-y) ENG-ENALT 2C - Programme (EEC) of demonstration projects relating to the exploitation of alternative energy sources and to energy saving and the substitution of hydrocarbons, 1983-1985 Temat(-y) 6.2 - THERMAL Zaproszenie do składania wniosków Data not available System finansowania DEM - Demonstration contracts Koordynator NORBERT KAISER CONSULTING AND CONTROLLING Wkład UE Brak danych Adres INGENIEURBUERO FUER BAUWESEN MARSCHALLSTRASSE 30 4000 Dusseldorf Niemcy Zobacz na mapie Koszt całkowity Brak danych