Award / Auszeichnung | 04/2025
Deutscher Landschaftsarchitektur-Preis 2025
©Marco Schmidt
Innenhof
Institut für Physik, Humboldt-Universität Berlin
Auszeichnung | Kategorie: Reifeprüfung – Projekte, 20 Jahre und älter
Projektdaten
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Objekttyp:
Hochschulen, Wissenschaft und Forschung
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Projektgröße:
keine Angabe
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Status:
Realisiert
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Termine:
Baubeginn: 01/2001
Fertigstellung: 01/2003
Projektbeschreibung
CONCEPT
The highly innovative, low-tech concept of a sustainable architecture building is based on the combination of cooling by green facade with decentralized rainwater management and energy conservation.
"...the vertical irrigation of a facade working with the climbing plant is a worldwide innovation. "
BACKGROUND
ENERGY CONSERVATION
Worldwide, reducing energy consumption for building cooling and ventilation units is a growingly important factor. A new European Parliament directive on the energy performance of buildings (2002/91/EC) strongly encourages the implementation of passive cooling techniques to improve indoor climatic conditions and the immediate microclimate.
RAINWATER HARVESTING
A primary goal of rainwater harvesting is to retain rainwater to reduce stormwater flows into combined and separated sewer systems during rain events. This reduces the peak load and avoids system overload, which causes flooding and serious health problems.
INTERDISCIPLINARY TEAM
Client : Senate for science, research and culture, Berlin
Architects : Augustin und Frank, Berlin
Landscape architects : Prof. Stefan Tischer and Joerg Th. Coqui, Berlin
The highly innovative, low-tech concept of a sustainable architecture building is based on the combination of cooling by green facade with decentralized rainwater management and energy conservation.
"...the vertical irrigation of a facade working with the climbing plant is a worldwide innovation. "
(Thies Schröder, Baumeister 2/03, p. 66)
BACKGROUND
ENERGY CONSERVATION
Worldwide, reducing energy consumption for building cooling and ventilation units is a growingly important factor. A new European Parliament directive on the energy performance of buildings (2002/91/EC) strongly encourages the implementation of passive cooling techniques to improve indoor climatic conditions and the immediate microclimate.
RAINWATER HARVESTING
A primary goal of rainwater harvesting is to retain rainwater to reduce stormwater flows into combined and separated sewer systems during rain events. This reduces the peak load and avoids system overload, which causes flooding and serious health problems.
INTERDISCIPLINARY TEAM
Client : Senate for science, research and culture, Berlin
Architects : Augustin und Frank, Berlin
Landscape architects : Prof. Stefan Tischer and Joerg Th. Coqui, Berlin
Collaborators: Ippolita Nicotera, Steffen Lux, Francesca Venier
Statics : Pichler Ingenieure, Berlin/Potsdam
Building services : Kannewischer
Statics : Pichler Ingenieure, Berlin/Potsdam
Building services : Kannewischer
Organization, Finances : Brigitte Reichmann, Berlin Senate of Urban Development
Research, Monitoring : Marco Schmidt, Prof. Heiko Diestel, TU Berlin
Prof. Dr. Manfred Köhler, FH Neubrandenburg
PD Dr. Gunther Wernicke, HU Berlin
Research, Monitoring : Marco Schmidt, Prof. Heiko Diestel, TU Berlin
Prof. Dr. Manfred Köhler, FH Neubrandenburg
PD Dr. Gunther Wernicke, HU Berlin
©Izabela Malachowska Coqui
Aussenfassade Süd-Ost
©Stefan Tischer
Innenhof mit Regenwasserteich
©Izabela Malachowska Coqui
Innenhof mit Regenwasserteich
©Matheus Steurer
Innenhof
©Matheus Steurer
Innenhof mit Bestandsbäumen
©Stefan Tischer
Technikhof
©Stefan Tischer
Fassadendetail
©Stefan Tischer
Innen-Aussen-Bezug
©Izabela Malachowska Coqui
Glyzinien