A new concept for science buildings emphasizes construction speed and design flexibility

The mushrooming global demand for lab space has prompted AEC firms and their developer clients to rethink how science buildings can be designed and constructed quicker and efficiently.

These buildings need “to be optimized for a tenant; concerns about vibration, ventilation, containment, and specialized equipment go beyond the scope of traditional workplaces,” wrote Chad Yoshinobu, AIA, LEED BD+C, Design Director, and a global leader in Gensler’s science practice in Seattle.

Enter NEXT, a prototype that Gensler and the engineering firms Buro Happold and KPFF have developed, with performance metrics backed up by data.

The research project was funded by Gensler Research Institute, and was designed on the specific site within Seattle’s Uptown Arts District to be 250,000 sf and eight stories tall. The project had three goals: to make this space more than just a container for people, to increase product differentiation for competitive marketing, and to offer solutions that prioritize decarbonization as a method of resilience.

Mass timber was a seminal building material for this project, mainly because it is well-suited to off-site modular construction at a nearby factory and can be delivered as a kit of parts, explained Yoshinobu.

“This approach would be 30 percent faster and 10 percent cheaper to construct than a conventional concrete building,” he estimated. With 85 percent fewer deliveries to the site and a 75 percent reduction in construction waste, NEXT emits 80 percent less carbon to build than a conventional concrete lab building. This amounts to a savings of approximately 5,200 total metric tons of CO₂.

NEXT deploys an all-electric heat pump chiller (EL1) system that Gensler stated is more efficient than a natural gas system in all locations and sectors. All-electric systems result in lower building Energy Use Intensity (EUI) in all markets and achieve zero carbon emissions on a clean grid. In total, NEXT produces 50 percent less greenhouse gas emissions and uses 30 percent less energy annually than a conventional lab building.

FLEXIBLE LAYOUT

Lab benches and vibrations in the floor plate typically determine a lab space’s layout. The NEXT team created a grid at 33 by 33 ft, which Yoshinobu contended is “optimal” for a lab bench layout because of the flexibility it affords tenants to orient the benches as they see fit. The building core is moved from the center to the side of the building, allowing tenants more layout flexibility with far fewer obstructions.

The size of this grid in mass timber doesn’t work well with vibration. “So we partnered with our engineering partner KPFF to make it work,” said Yoshinobu, to achieve a vibration of 6,000 MIPS, a go-to standard for most lab buildings, by implementing a structural frame that acts as an ecosystem between the size of the columns, girders, beams, CLT floors, and concrete topping slab.

CONNECTING WITH OUTDOORS AND COMMUNITY

Cutaways that show NEXT's layout features — These cutaway illustrations show how different layout aspects of NEXT are incorporated into the building's design.

NEXT also places a premium on natural ventilation and outdoor spaces. Multiple operable windows give the workplace more access to fresh air. Seattle’s temperate climate is conducive to natural ventilation, and NEXT is designed so more than one-third of total occupied work hours can be in natural ventilation mode. That leads to energy savings of 30 percent compared to a conventional lab building.

According to the latest Gensler U.S. Workplace Survey, science workers ranked outdoor space as their top workplace amenity. Each floor of the NEXT concept has direct access to outdoor spaces. The building’s fire stair has been turned into a wellness amenity, too, by moving it to the perimeter, and flooding the stairwell with daylight and views. The stair is also an alternative to using elevators.

This multipurpose venue was created in partnership with the Uptown Arts and Cultural Coalition to provide flexible spaces for young musicians, art education, theater, and practice/performance space. The restaurant incubator gives minority entrepreneurs the opportunity to launch their businesses, while a shared kitchen space allows for multiple food venues to enhance the neighborhood food scene. “These efforts will create more cultural diversity within the Uptown District,” wrote Yoshinobu.

He told BD+C that since releasing its research findings, Gensler has received calls from clients and developers “asking us to explore the attributes of this idea on their particular sites.”