A team of AEC firms, assembled by Generate, an AEC technology company that advocates for the greater use of mass timber in construction, has developed a digital catalog of integrated design systems that focus on the structural application of mass timber as a carbon-conscious response to high-density urban building needs, especially for housing.
Meeting those needs within the status quo—where buildings currently account to two-fifths of greenhouse gas emissions—is at odds with many cities’ environmental aspirations. For example, Boston’s goal of reducing its carbon footprint 80% by 2050 would be unachievable if that metro also hits its parallel goal of building 300,000 more housing units and 40 million sf of commercial buildings over the next 30 years.
To bring down those CO2 emissions and streamline the construction process, an AEC coalition has developed Tallhouse, a digital catalog of customizable systems comprised of four mass timber structural solutions. That catalog illustrates a range of mass timber design options that are engineered for speedier delivery, sustainability, and cost savings.
Also see: San Jose affordable housing project will feature mass timber frame
The coalition includes Generate, Niles Bolton Associates (architect), Buro Happold (SE, MEP, sustainability consultant, embodied carbon analyst), Consigli Construction (GC), Arup (fire engineering, structural review), Code Red (code consultant), Urbanica (developer), and Olifant Market Development (carbon and forests).
The coalition’s work has been supported by the National Science Foundation, the U.S. Department of Agriculture, the Softwood Lumber Board, the Binational Softwood Lumber Council, and the Commonwealth of Massachusetts.
Tallhouse's systems are designed as kits of parts to accommodate most countries' products and transportation.
THE DESIGNS ANTICIPATE TALLER WOOD BUILDING CODES
Tallhouse’s four options are a hybrid steel/cross-laminated timber (CLT) structure, a mass-timber post, beam and plate structure; a hybrid light-gauge metal/CLT structure, and a full CLT plate honeycomb structure.
By “hybridizing” conventional construction materials with timber, the Tallhouse designs can offset near-term emissions by greatly reducing emissions from the manufacture of materials, while storing carbon in the timber structure over the lifetime of buildings. The team sees synergies between the steel and timber industries, as both materials lend themselves to digitization and carbon efficiency.
To evaluate each design, the coalition developed a Carbon Data Analysis tool that validated savings in embodied emissions ranging from 14% to 52%.
The coalition used a Carbon Data Analysis tool to gauge the impact of its designs on carbon emissions and global warming.
The Tallhouse system is adaptable for buildings eight to 18 stories, in line with the upcoming 2021 U.S. Tallwood Codes that would allow the use of mass timber for structures at those heights under the 2021 International Building Code. According to Generate, the systems are designed as kits of parts to accommodate most American, Canadian, and European manufacturers’ products and shipping logistics.
The U.S. Northeast is home to the highest percentage of sustainably managed timber in the U.S. Long-lived forest products such as mass timber building materials have longer timelines than paper or pulp products for keeping CO2 stored in wood post-harvesting.
The Tallhouse team is implementing these systems in over 1 million sf of construction in the U.S., and is looking for additional developers. The Tallhouse catalog, says John Klein, Generate’s CEO and project leader, “was developed with the specific intent of at once enabling our cities to achieve their ambitious CO2 footprint reduction goals, and to meet growing demand for affordable, biophilic housing.” As these systems become widely accessible to architectural communities globally, they will “serve as a vehicle to deploy sustainable materials at scale,” says Klein.
Related Stories
Resiliency | Apr 18, 2023
AI-simulated hurricanes could aid in designing more resilient buildings
Researchers at the National Institute of Standards and Technology (NIST) have devised a new method of digitally simulating hurricanes in an effort to create more resilient buildings. A recent study asserts that the simulations can accurately represent the trajectory and wind speeds of a collection of actual storms.
Green | Apr 18, 2023
USGBC and IWBI unveil streamlined certification pathway for LEED and WELL green building programs
The U.S. Green Building Council, Green Business Certification Inc., and the International WELL Building Institute released a streamlined process for projects pursuing certifications for the LEED green building rating system and the WELL Building Standard. The new protocol simplifies documentation for projects that are pursuing both certifications at the same time or that have already earned one certification and are looking to add the other.
Sustainability | Apr 10, 2023
4 ways designers can help chief heat officers reduce climate change risks
Eric Corey Freed, Director of Sustainability, CannonDesign, shares how established designers and recently-emerged chief heat officers (CHO) can collaborate on solutions for alleviating climate change risks.
Cladding and Facade Systems | Apr 5, 2023
Façade innovation: University of Stuttgart tests a ‘saturated building skin’ for lessening heat islands
HydroSKIN is a façade made with textiles that stores rainwater and uses it later to cool hot building exteriors. The façade innovation consists of an external, multilayered 3D textile that acts as a water collector and evaporator.
Sustainability | Apr 4, 2023
ASHRAE releases Building Performance Standards Guide
Building Performance Standards (BPS): A Technical Resource Guide was created to provide a technical basis for policymakers, building owners, practitioners and other stakeholders interested in developing and implementing a BPS policy. The publication is the first in a series of seven guidebooks by ASHRAE on building decarbonization.
Sustainability | Apr 4, 2023
NIBS report: Decarbonizing the U.S. building sector will require massive, coordinated effort
Decarbonizing the building sector will require a massive, strategic, and coordinated effort by the public and private sectors, according to a report by the National Institute of Building Sciences (NIBS).
Geothermal Technology | Mar 22, 2023
Lendlease secures grants for New York’s largest geothermal residential building
Lendlease and joint venture partner Aware Super, one of Australia’s largest superannuation funds, have acquired $4 million in support from the New York State Energy Research and Development Authority to build a geoexchange system at 1 Java Street in Brooklyn. Once completed, the all-electric property will be the largest residential project in New York State to use a geothermal heat exchange system.
Modular Building | Mar 20, 2023
3 ways prefabrication doubles as a sustainability strategy
Corie Baker, AIA, shares three modular Gresham Smith projects that found sustainability benefits from the use of prefabrication.
Sustainability | Mar 16, 2023
Lack of standards for carbon accounting hamper emissions reduction
A lack of universally accepted standards for collecting, managing, and storing greenhouse gas emissions data (i.e., carbon accounting) is holding back carbon reduction efforts, according to an essay published by the Rocky Mountain Institute.
Affordable Housing | Mar 14, 2023
3 affordable housing projects that overcame building obstacles
These three developments faced certain obstacles during their building processes—from surrounding noise suppression to construction methodology.
