The new Interdisciplinary Science & Technology Building, or ISTB-7, on the Arizona State University campus will produce enough carbon, energy, water, and waste to achieve triple net-zero performance.
The Studio Ma-designed building will become ASU’s newest science and research complex and include a large atrium biome filled with plants and water. ISTB-7 will bring together a wealth of regenerative and bioclimatic technologies to reach its triple net-zero goal.
Rendering courtesy of Studio Ma.
Among these technologies are materials that include ASU’s own scientific research and integrated-carbon-capture technology. The structure’s building materials absorb carbon and convert it to nutrients for durable materials and enriched soil.
The atrium biome purifies waste air and a wetlands landscape recycles water using natural, bio-based methods. Rainwater is collected and sun shades help keep the interiors cool and comfortable. Sewage is treated and recycled via low-energy, bio-based systems for use as greywater. Air currents, evapotranspiration, and photovoltaics are used to save and produce energy.
Rendering courtesy of Studio Ma.
The inclusion of a light rail station will transform ISTB-7 into a new gateway to the campus.
Rendering courtesy of Studio Ma.
Related Stories
| Aug 4, 2022
Newer materials for green, resilient building complicate insurance underwriting
Insurers can’t look to years of testing on emerging technology to assess risk.
| Aug 4, 2022
Newer materials for green, resilient building complicate insurance underwriting
Insurers can’t look to years of testing on emerging technology to assess risk.
Sustainability | Aug 4, 2022
To reduce disease and fight climate change, design buildings that breathe
Healthy air quality in buildings improves cognitive function and combats the spread of disease, but its implications for carbon reduction are perhaps the most important benefit.
K-12 Schools | Aug 1, 2022
Achieving a net-zero K-12 facility is a team effort
Designing a net-zero energy building is always a challenge, but renovating an existing school and applying for grants to make the project happen is another challenge entirely.
Codes and Standards | Jul 29, 2022
Few projects and properties are being built beyond code
Clients and architects disagree on how well building to code provides resilience, according to a recent report by the American Institute of Architects (AIA) in partnership with Owens Corning.
Concrete | Jul 26, 2022
Consortium to set standards and create markets for low-carbon concrete
A consortium of construction firms, property developers, and building engineers have pledged to drive down the carbon emissions of concrete.
Green | Jul 26, 2022
Climate tech startup BlocPower looks to electrify, decarbonize the nation's buildings
The New York-based climate technology company electrifies and decarbonizes buildings—more than 1,200 of them so far.
Education Facilities | Jul 26, 2022
Malibu High School gets a new building that balances environment with education
In Malibu, Calif., a city known for beaches, surf, and sun, HMC Architects wanted to give Malibu High School a new building that harmonizes environment and education.
Mixed-Use | Jul 18, 2022
Mixed-use development outside Prague uses a material made from leftover bricks
Outside Prague, the Sugar Factory, a mixed-used residential development with public space, marks the largest project to use the sustainable material Rebetong.
Sustainable Development | Jul 14, 2022
Designing for climate change and inclusion, with CBT Architects' Kishore Varanasi and Devanshi Purohit
Climate change is having a dramatic impact on urban design, in terms of planning, materials, occupant use, location, and the long-term effect of buildings on the environment. Joining BD+C's John Caulfield to discuss this topic are two experts from the Boston-based CBT Architects: Kishore Varanasi, a Principal and director of urban design; and Devanshi Purohit, an Associate Principal.
