Environmentally compatible building
Sustainable building starts with intelligent planning and covers the ecologically oriented building phase through to the economical use of energy and water. This involves, for example, compact urban planning forms, the use of recyclable, harmless building materials, passive and active use of solar power, use of waste heat, wind power, geothermal energy and industrial water.
The following projects are allocated to this category:
- Aachen, Local Park and Comprehensive School Moltkebahnhof
- Aachen-Laurensberg, Solar Settlement Teichstraße
- Ahrensburg, Allmende Wulfsdorf
- Bamberg, Ochsenanger
- Berlin-Marzahn, High-Rise Redevelopment Helene-Weigel-Platz
- Bonn-Pützchen, Residential Community in the Karmel Monastery
- Donaueschingen, Auf dem Staig
- Eichenau, Residential Neighbourhood
- Erlangen, Röthelheimpark
- Finsterwalde, Revitalization of an Old Town Block
- Freiburg-Vauban, Solar settlement at Schlierberg
- Gelsenkirchen-Bismarck, Protestant Comprehensive School
- Hamburg, Ecological Estate Braamwisch
- Hamburg-St. Pauli, Park House Pinnasberg
- Hannover-Kronsberg, Habitat - International Living
- Hannover-List, Pelikan-District
- Heidelberg, Residential neighbourhood "Blaue Heimat"
- Hennef, Chronos Quarter
- Jülich, Solar Campus of Technological High School Aachen
- Ludwigshafen, 3 Litre House in Stock
- München-Riem, WOGENO Residential Estate
- Neckarsulm, Amorbach II
- Neu-Ulm-Wiley-Süd, Open-House
- Offenbach, Hans-Böckler settlement
- Ostritz, Energy-ecological model town
- Poppau, Ecological village Sieben Linden
- Ulm-Eselsberg, Im Sonnenfeld
- Viernheim, Am Schmittsberg
The following projects from the archives are allocated to this category:
