As head of global marketing for the AEC Industry at Dassault Systèmes, Mr. Moriwaki launches and promotes groundbreaking Industry Solution Experiences including "Optimized Construction," "Façade Design for Fabrication," and "Civil Design for Fabrication." He is a member of buildingSMART.
Green Design Brings Nature into the Urban Jungle
December 25th, 2014 by Akio Moriwaki
A jungle is green and leafy, and the urban jungle should be the same, right?
Since 2010, more people live in cities than in the countryside for the first time in human history. The trend is expected to speed up in developing countries, with more than 60% of the world’s population living in urban areas by mid-century, the United Nations predicts.
Bringing nature into cities can make urban environments more sustainable as well as more aesthetic, more comfortable, and healthier.
“Many architects today already claim to do green design, some to a greater level of authenticity than others. I contend that in the next five to 10 years just about every architect and student will do green design as second nature in their work,” says Ken Yeang, a principal with T.R. Hamzah and Yeang, a Malaysian architectural firm focusing on ecoarchitecture, and of Ken Yeang Design International in the U.K. “Green design is just one of the criteria for good design.”
Architects often see green design as a matter of certification, such as the U.S. Green Building Council’s LEED, or Leadership in Energy and Environmental Design, or the Green Building Initiative’s Green Globes, or the Building Research Establishment’s Environmental Assessment Method (BREEAM) in the U.K. Beyond aiming for certification, “I take the holistic view of an ecologist,” he says. “I see green design as bio-integrating everything that we as humans make and do on the planet with the natural environment in a benign and seamless way.”
That requires integrating flora and fauna, water, humans, and the built environment in a holistic way. “We start design by looking at the ecology of the land and see how we can bring more nature back to a location and bio-integrate nature with the physical built environment,” Mr. Yeang says.
The Solaris, designed by Mr. Yeang and part of the Fusionopolis research and development park in Singapore, has more than 8,000 square meters (9,567 square yards) of landscaping—13% more than the original site—thanks to roof gardens, planted terraces, and a 1.5-kilometer (0.9-mile) ramp of continuous vegetation that spirals up the 15-story building’s facade, helping to insulate as well as offering a range of habitats that enhances the locality’s biodiversity.
The idea is spreading. A primary school and gymnasium in the Paris suburb of Boulogne-Billancourt, now under construction, was designed by architects Chartier-Dalix to be covered with a living shell and house local flora and fauna.
Argentine architect Emilio Ambasz built a multi-use government office building in Fukuoka, Japan, with 14 one-story terraces that make the one-million-square-foot building look like a green hill rising from the park in front of it. Mr. Ambasz also renovated the headquarters of ENI in Rome with curtains of vegetation.
Basel, Switzerland, has required since 2002 that flat roofs be covered with vegetation, in part to save energy and in part to protect biodiversity. While the peregrine falcon, one of the first species on the U.S. endangered species list in 1974, rebounded in part through urban nesting programs to nearly 100,000 birds world-wide today, less-glamorous endangered species, from spiders to beetles, also benefit from the increase in habitat. In the U.K., the Bat Conservation Trust has published a landscape and urban design guide for bats and biodiversity.
A green exterior is nice, but what goes inside—the design and materials—are important, too. “The building and products sector are seeing that environmental issues are moving up the agenda,” says Martin Charter, professor of innovation and sustainability at the Centre for Sustainable Design at the University for the Creative Arts in Farnham, U.K. “Construction, buildings and building products are associated with high carbon dioxide emissions on a macro level and big end-of-life waste issues. The sector does have a big-life cycle impact, not just in extractive phase but at other stages of life cycle as well.”
Concrete produces as much as a tenth of industry-generated greenhouse gas emissions. Researchers studying the molecular structure of cement found that changing the recipe to 1.5 parts calcium for each part of silica would cut cement’s carbon emissions up to 60% while making the resulting material stronger.
Simple design considerations can make a building greener. The shape and the orientation can affect heating and cooling needs. Natural ventilation with mixed mode systems can alleviate the need for air conditioning even in tropical climates. Mr. Yeang designed the Menara Mesiniaga office building in Selangor, Malaysia, so even elevator lobbies, restrooms and stairwells in the 15-story building get natural ventilation and natural daylight.
Green design includes water management in rainfall harvesting and storing water, so potable water doesn’t have to be used to irrigate the vegetation. Design must close the water cycle within the site, combining water management, water reuse and recycling with sustainable drainage and constructed wetlands for black water treatment, he says.
Originally posted to Perspectives by Catherine Bolgar. For more from Catherine, contributors from the Economist Intelligence Unit along with industry experts, join The Future Realities discussion.