Using prefabricated elements in the construction of the new Saint Joseph Hospital in Denver—scheduled to open Dec. 13—cut 72 workdays off the construction schedule and resulted in $4.3 million in savings, according to a study by University of Colorado Boulder engineers.
The study, by Matthew Morris and doctoral student Eric Antillon, both of the Department of Civil, Environmental and Architectural Engineering, is one of the first to try and quantify the full costs and benefits of using prefabricated elements in a large-scale construction project. The study was done in partnership with Mortenson construction, which built the new 831,000-square-foot Saint Joseph Hospital.
Developers often choose prefabrication to save time on a project. But because the process of building a unit — like a bathroom or an exterior wall panel — off site can be more expensive up front, due largely to the cost of transporting the finished products to the job site, the overall financial benefits haven’t been well understood.
“The direct cost of the actual units is more expensive — in this case 6 percent more expensive — but the cost savings come from indirect costs related to time savings,” said Morris, an instructor of construction engineering and management. “If you save three months on the schedule, that’s three months when you don’t have to pay for all the things you need to run a job site. This reduces your cost of big-ticket items such as supervision, equipment and your field office.”
For the Saint Joseph Hospital, Mortenson construction chose to prefabricate the exterior wall panels, the bathroom pods, the headwalls in patient rooms, and the utilities that run above hospital corridors by bundling them into prebuilt racks.
Prefabrication is an especially efficient technique in hospitals or any large building where the same type of unit has to be built over and over again, such as dorms or barracks, Morris said. At the Saint Joseph hospital, the need to have hospital rooms with standard equipment and private bathrooms allowed Mortenson to prefabricate 440 bathroom units and 376 patient room headwalls.
“This isn’t the solution for every project,” Morris said. “It takes a particular type of project with repetitive work and an owner and a design team that are willing to be completely onboard.”
Aside from allowing a project to be completed more quickly, prefabricating units offsite can also improve the safety of the job site by decreasing the number of different tradespeople who need to work in the building at any one time, reducing elevated work and providing a controlled environment.
For example, when utilities are traditionally installed in hospital corridors, a number of different subcontractors have to install cables, air ducts, piping and drywall overhead. Aside from the difficulty of working above your head, this causes congestion in heavily used hallways that can lead to accidents. In all, Morris and Antillon calculated that using prefabricated utility racks in the corridors along with other prefabricated units avoided seven safety incidents on the job site.
Even with the impressive cost benefits calculated in the study, Morris said it may be possible for builders like Mortenson to save even more time in the future by perfecting the sequence of work. In the case of the Saint Joseph Hospital, some prefabricated elements moved the project forward so quickly, that the workers responsible for the next phase of the project weren’t always ready to immediately get started.
It may also make sense in the future to only partially prefabricate some units before installation, which could help the workflow, Morris said.
“Fine-tuning is the next step,” he said. “Now we know that prefabrication saves time and money and increases quality and safety. The next steps include developing best practices, training project teams and continuing to drive out inefficiencies.”
Related Stories
Education Facilities | Mar 15, 2023
DLR Group’s Campus Planning Studio defines new leadership
Linsey Graff named Campus Planning Leader. Krisan Osterby transitions to Senior Planner.
Student Housing | Mar 13, 2023
University of Oklahoma, Missouri S&T add storm-safe spaces in student housing buildings for tornado protection
More universities are incorporating reinforced rooms in student housing designs to provide an extra layer of protection for students. Storm shelters have been included in recent KWK Architects-designed university projects in the Great Plains where there is a high incidence of tornadoes. Projects include Headington and Dunham Residential Colleges at the University of Oklahoma and the University Commons residential complex at Missouri S&T.
Virtual Reality | Feb 27, 2023
Surfing the Metaversity: The future of online learning?
SmithGroup's tour of the Metaversity gives us insight on bringing together physical and virtual campuses to create a cohesive institution.
University Buildings | Feb 23, 2023
Johns Hopkins shares design for new medical campus building named in honor of Henrietta Lacks
In November, Johns Hopkins University and Johns Hopkins Medicine shared the initial design plans for a campus building project named in honor of Henrietta Lacks, the Baltimore County woman whose cells have advanced medicine around the world. Diagnosed with cervical cancer, Lacks, an African-American mother of five, sought treatment at the Johns Hopkins Hospital in the early 1950s. Named HeLa cells, the cell line that began with Lacks has contributed to numerous medical breakthroughs.
Sustainability | Feb 9, 2023
University of Southern California's sustainability guidelines emphasize embodied carbon
A Buro Happold-led team recently completed work on the USC Sustainable Design & Construction Guidelines for the University of Southern California. The document sets out sustainable strategies for the design and construction of new buildings, renovations, and asset renewal projects.
University Buildings | Feb 9, 2023
3 ways building design can elevate bold thinking and entrepreneurial cultures
Mehrdad Yazdani of CannonDesign shares how the visionary design of a University of Utah building can be applied to other building types.
Giants 400 | Feb 9, 2023
New Giants 400 download: Get the complete at-a-glance 2022 Giants 400 rankings in Excel
See how your architecture, engineering, or construction firm stacks up against the nation's AEC Giants. For more than 45 years, the editors of Building Design+Construction have surveyed the largest AEC firms in the U.S./Canada to create the annual Giants 400 report. This year, a record 519 firms participated in the Giants 400 report. The final report includes 137 rankings across 25 building sectors and specialty categories.
University Buildings | Feb 8, 2023
STEM-focused Kettering University opens Stantec-designed Learning Commons
In Flint, Mich., Kettering University opened its new $63 million Learning Commons, designed by Stantec. The new facility will support collaboration, ideation, and digital technology for the STEM-focused higher learning institution.
University Buildings | Feb 7, 2023
Kansas City University's Center for Medical Education Innovation can adapt to changes in medical curriculum
The Center for Medical Education Innovation (CMEI) at Kansas City University was designed to adapt to changes in medical curriculum and pedagogy. The project program supported the mission of training leaders in osteopathic medicine with a state-of-the-art facility that leverages active-learning and simulation-based training.
Giants 400 | Feb 6, 2023
2022 Reconstruction Sector Giants: Top architecture, engineering, and construction firms in the U.S. building reconstruction and renovation sector
Gensler, Stantec, IPS, Alfa Tech, STO Building Group, and Turner Construction top BD+C's rankings of the nation's largest reconstruction sector architecture, engineering, and construction firms, as reported in the 2022 Giants 400 Report.