Located in an industrial area near the city center the new Waste-to-Energy plant will be an exemplary model in the field of waste
management and energy production, as well as an architectural landmark in the cityscape of Copenhagen. The project is the single
largest environmental initiative in Denmark with a budget of 3,5 Billion DKK, and replaces the adjacent 40 year old Amagerforbraending
plant, integrating the latest technologies in waste treatment and environmental performance. The shortlisted offices
included Wilkinson Eyre Architects, Dominique Perrault Architecture, 3xN, Lundgaard & Tranberg Architects & Gottlieb Paludan Architects
who were selected to compete out of 36 international proposals in Fall 2010. The winning team is announced by an unanimous
judge panel.
"BIG's proposal contributes to the city with something useful and beautiful. We see this creating a lot of opportunities and with this
unique building, we can brand the Danish knowledge and technology to show the world our abilities within environmental and energy
issues", Ulla Röttger, Director of Amagerforbraending
BIG designs a new waste-to-energy plant
BIG + realities:united + AKT + Topotek 1 & Man Made Land is selected to design the new plant that doubles as a ski slope by 2016.
View Article details
- 26 January 2011
- Copenhagen
Instead of considering the new Amagerforbraending as an isolated architectural object, the building is conceived as an opportunity to create a destination in itself and thereby reflecting the progressive vision to create a new type of waste treatment facility. The roof of the new Amagerforbraending is turned into a ski slope, mobilising the architecture and redefining the relationship between the waste plant and the city by expanding the existing recreational activities in the surrounding area into a new breed of waste-to-energy plant.
"The new plant is an example of what we at BIG call Hedonistic Sustainability – the idea that sustainability is not a burden, but that a sustainable city in fact can improve our quality of life. The Waste-to-Energy plant with a ski slope is the best example of a city and a building which is both ecologically, economically and socially sustainable", Bjarke Ingels Founder and Partner, BIG
Instead of concentrating on the wrapping paper we have invested our energy on creating a gift for the citizens of Copenhagen & its visitors
The smokestack is modified to puff smoke rings of 30m in diameter whenever 1 ton of fossil CO2 is released. These smoke rings which are the brainchild of Germany-based art studio realities:united will form due to the condensation of water in the flue gases as they as they slowly rise and cool, serving as a gentle reminder of the impact of consumption and a measuring stick that will allow the common Copenhagener to grasp the CO2 emission in a straightforward way – turning the smokestack traditionally the symbol of the industrial era into a symbol for the future.
"Designing a façade for a building is like wrapping a gift without having to consider its content. Instead of concentrating on the
wrapping paper we have instead invested our energy on creating a gift for the citizens of Copenhagen & its visitors no matter if they
are adults or children, professionals or beginners. I can't wait to ski on a base of clean and green energy with a view over the city in
2016", David Zahle, Partner, BIG.
The surrounding topography is sculpted by Topotek 1 & Man Made Land to form a park which offers informal
sport activities in summer and winter.
Project: Waste-to-Energy Plant
Client: Amagerforbraending
Location: Copenhagen, Denmark
Budget: 3,5 BL DKK; 650 MIL USD, 460 MIL EUR
Status: 1. Prize
Architect: BIG-Bjarke Ingels Group
Collaborators: Realities:United (Smoke Ring Generator), AKT (Façade & Structural Consulting), Topotek 1/Man Made Land (Landscape)
Building: 95,000 m2
Landscape: 90,000 m2
Roof + ski slope: 32,000 m2
Façade area: 74,000 m2
Administrative + Visitor center floor area: 6,500 m2
Partner-in-Charge: Bjarke Ingels, David Zahle
Project Leader: Brian Yang
Team: Jelena Vucic, Alina Tamosiunaite, Armor Gutierrez, Maciej Zawadzki, Jakob Lange, Andreas Klok Pedersen, Daniel Selensky, Gu¨l
Ertekin, Xing Xiong, Sunming Lee, Long Zuo