The Case For Cookie-cutter Buildings

Posted: December 3 2020 by

The way buildings get built is wreaking havoc on the climate. Building materials and construction account for 11% of global carbon dioxide emissions, and that doesn’t include the amount of energy they use once they’re built and occupied.

[Image: Generate]
To make buildings more economical and environmentally sustainable, architect John Klein believes they need to be more replicable. From bathrooms to stairwells to structural components, many building parts are more cookie cutter than work of art; not every element has to be built from scratch on the construction site. With a more standard set of components, Klein argues, buildings can be built faster, using materials that reduce or even sequester carbon.

[Image: Generate]
But the decentralized construction industry isn’t exactly conducive to standardization. “It’s a huge industry that has stakeholders with misaligned incentives, who work on very tight budgets, who work in different geographic regions, and every project is a one-off prototype,” says Klein. To try to change that, he set out to create a systematized approach that could save time and money, while also cutting down on buildings’ environmental footprint.

[Image: Generate]
The system he’s helped develop is called Generate, and uses a catalog of pre-tested designs for the main structural components of a building. Its technology picks through a menu of structural and architectural components to find the optimal approach for a given design, and produces plans that combine those parts into a whole. After being adjusted for each project, the modules can be replicated across the building to streamline both the design and the construction. Primarily based on wooden components, these pieces can be produced in a factory using commonly accessible materials.

[Image: Generate]
Generate was developed while Klein was studying wood-based architecture at the MIT Mass Timber Lab, and he and a team of designers, engineers, and architects optimized a process for using compressed laminated timber, or CLT, for dense urban construction that benefits from timber’s embodied carbon and small environmental footprint. After winning a Wood Innovation Grant from the U.S. Forest Service, that research was spun off to create a separate Boston-based architectural technology company. It’s since received funding from the National Science Foundation, among others. Some of its first projects are now taking shape in Boston.

“I was looking for ways to connect design and manufacturing,” says Klein, who previously worked at Zaha Hadid Architects, a firm known for its use of computational design on large-scale and flashy modern architecture. Generate is focusing on more traditional projects, like apartment buildings, but uses technology to improve them. “A lot of the work we do is design optimization,” Klein says.

[Image: Generate]
At its core, Generate can be used by architects to form the basic structural system of a building. Klein says this standard kit of parts can then be covered with whatever facade the architect designs. Ultimately, the goal is to use these simple, replicable elements to reduce the total cost of the project. “Housing developers are struggling to make housing work because labor costs are so high,” says Klein, adding that a systematic design approach can help bring those labor costs down.

One of the first projects using Generate’s system is now being built in South Boston. It’s a five-story triangular apartment building made of CLT and designed to have zero emissions. Designed by Generate, the project is being developed by Boston-based Placetailor, a design, development, and construction cooperative that focuses primarily on zero-energy homes that meet the energy-efficient Passive House building standard. The apartment building will be a Passive House demonstration project, which Placetailor strategic director Colin Booth calls a proof of concept—both for his firm and for other developers.

“You take the embodied carbon awesomeness of mass timber and you combine all our Passive House know-how for comfort and operational use, and we think we have a blueprint for others to use,” Booth says. “And we want everyone using it.”

He’s hoping that this is just the first project his company builds with the Generate system, and that the next is even taller. A new building code coming into effect in 2021 will allow CLT buildings to rise up to 18 stories. “The goal here is to really have a system that can be applied all the way up to 18 stories,” Booth says.

Klein says Generate has about 10 projects in the works, including an eight-story project in Boston that’s under review. If Generate is going to have the impact he envisions, he’s going to need to others to get involved— perhaps a difficult task in the decentralized and competitive world of urban development and construction. But Klein is hopeful the concept will catch on and others will be willing to give this new system a shot.

“If we only built 10 buildings in the next 10 years, that’s not as big of an impact as if we’re able to democratize these systems and get them out into other architecture firms’ processes,” Klein says. “And that’s where we’re headed.”

Source Link Share