Green roof on other side of wall made of glass and solid panels which create light and shade for optimum climate.
Photo: Martin Dee
The University of British Columbia has opened the most sustainable building in North America, a $37-million “living laboratory” that will help to regenerate the environment and advance research and innovation on global sustainability challenges.
The Centre for Interactive Research on Sustainability (CIRS) is one of only a handful of buildings worldwide that will provide “net positive” benefits to the environment. It reduces UBC’s carbon emissions, powers itself and a neighboring building with renewable and waste energy, creates drinking water from rain and treats wastewater onsite.
CIRS will be an international centre for research, partnership and action on sustainability issues, including green building design and operations, environmental policy and community engagement. Researchers will study users’ interactions with the facility to improve building performance, maximize the happiness, health and productivity of its inhabitants and advance best green building practices at UBC and beyond.
CIRS inside and out
Photo: Don Erhardt
Quick facts about CIRS:
- Natural lighting: CIRS’ U-shape design maximizes natural daylight and fresh air for inhabitants, who control their environment (light levels, temperature) with their computers.
- Flexible workspaces: With power, data and ventilation under modular floorboards (instead of through walls or ceilings) at each workspace, offices can be reconfigured overnight.
- Green IT: CIRS has no desktop computers or servers guzzling energy. Inhabitants “remote access” into desktops, drives and servers, which are stored “in the cloud” instead.
- Psychology: One of many research projects is a study of CIRS’ influence on thoughts and behaviors and science-based methods for encouraging people to act sustainably.
CIRS’ “net positive” environmental impacts:
- Energy: By capturing energy from the sun, the ground and the nearby Earth and Ocean Sciences (EOS) building, CIRS heats itself and returns 600 megawatt hours of surplus energy back to campus.
- Operational carbon: CIRS’ operations require no fossil fuel and the surplus energy CIRS returns to EOS removes an additional 150 tonnes of GHG emissions annually through reduced natural gas use.
- Structural carbon: CIRS’ wood structure locks in more than 500 tonnes of carbon, offsetting GHG emissions from non-renewable materials used in the building’s construction, including cement, steel and aluminum.
- Water: CIRS will satisfy the water needs of 200 inhabitants, plus hundreds of auditorium and café users, by capturing rain and treating it onsite. Water that can’t be used for drinking will recharge the local aquifer.