- Architects: Denkkamer
- Location: Gemert, The Netherlands
- Lead Architects: Dennis van de Rijdt, Peter Verschuren
- Area: 1660.0 m2
- Project Year: 2017
- Photographs: Jeroen Kuppens
- Design Team: Zuzanna Kurzawa, Agnieszka Konopka, Violeta Ferrero Cabezas
- Environmental Engineer: Drieweg advies
- Structural Engineer: E. Rooijackers Ingenieursbureau
- Process Engineer: Ingenia Consultants & Engineers
- Building Contractor: Nieuwenhuizen Daandels Bouw
- Process Contractor: GTL Europe
- Prefabricated Concrete: Heesakkers beton bv
- Client: Upcycling Gemert bv
From the architect. The initiators developed a process in which spent mushroom compost from mushroom cultivation is upgraded and turned into a valuable soil improver. They do this by biologically drying spent mushroom compost in so-called tunnels. By adding a small amount of concentrated manure, a popular soil improver rich in nitrogen, phosphate and potassium is created. The spent mushroom compost is not only upgraded to a popular soil improver but it is also made lighter in specific weight. As a result, fewer freight transports are needed to deliver the product. A large amount of heat is released naturally during the biological drying process. This heat is used to provide the neighbouring existing mushroom nurseries with heat and consequently natural gas-fuelled boilers are no longer required. The surplus heat is distributed to nearby crop growers.
The design of the installation comes from the ambition to bring visibility to the way it functions. The installation consists of two main elements: the tunnels in which the product is biologically dried and the process technique behind it. The three individual drying tunnels are completely closed and made out of poured and prefabricated concrete. They have been made visible by repositioning them in relation to each other.
Due to the limited plot dimensions we chose to superimpose the processing technology and the biofilter over the tunnels. Just like the tunnels, these elements are designed as closed volumes in precast concrete. The superimposed volumes are cantilevered over the translucent service areas at the front of the tunnels. The exchange air ducts, storage tanks, plenums, ammonia scrubber and heat exchangers are located in these translucent service areas.
By superimposing the biofilter and exchange air ducts over the tunnels and polycarbonate service areas, the building is given a dynamic appearance. This is further enhanced by adding a horizontal line at two-thirds of the façade, which connects the service areas to the top of the tunnels at the end. A pattern of diagonal lines running over the façade blurs the positions of the actual seems in between the prefabricated concrete panels, which are sealed with a grey coloured sealant.
The process that takes place inside the tunnels is made visible by lighting-up the translucent service areas by means of LED lights as the biological drying process progresses and the temperature rises up to 80°C. That way, passers-by can determine what stage the process is in and see how it develops. In addition, the reduced amount of CO² is expressed in kilos and projected onto the translucent facade using matrix displays.
ABOUT THE PRODUCTS
The installation consists of two main elements. The so called tunnels in where the product is biologically dried and the process technique behind it. The tunnels are completely closed and made out of poured and prefabricated concrete. By superimposing the bio-filter and exchange air-ducts over the tunnels and polycarbonate service areas the building is given a dynamic appearance. Which is further enhanced by adding a horizontal line at two-third of the façade which connects the service area’s with top of the tunnels at the end. A pattern of diagonal lines running over the façade is blurring the positions of the actual seems in between the prefabricated concrete panels which are sealed with a grey colored sealant.
from ArchDaily http://ift.tt/2ujCEfe