The School of Engineering at the University of Melbourne in Australia recently announced plans to build a new campus, to open in the early 2020s, that would feature large-scale research and training facilities to test emerging technologies that address global social and environmental issues.
One of those technologies is prefabrication for construction, and the university has taken a vanguard role to push prefabrication’s market share within the country’s construction industry to 15% by 2025, from 5% currently. That increase would represent around 20,000 new jobs and 30 billion Australian dollars (US$21.1 billion) in growth.
“We are seeing huge demand in the building industry for new techniques that will allow for the development of faster and cheaper construction. The only way to reduce costs is to reduce the cost of manufacturing,” says Tuan Ngo, director of the Advanced Protective Technologies for Engineering Structures Group within the university’s Department of Infrastructure Engineering.
It's not always easy to pinpoint a movement's breakthrough moments. But an online article that Deloitte posted on February 26 makes the case for a high-rise project in Melbourne, completed in 2010, that deployed a construction technique where entire floors of the building were completed offsite and assembled onsite by snapping together the modules one on top of the other.
The location: Russell Place in Melbourne’s central business district. That real estate was problematic to build on because it sat over one of the district’s electrical substations. Weight restrictions limited the mass of any building constructed on the site, and ground vibration had to be minimized.
The land owner, a pre-eminent architect named Nonda Katsalidis, circumvented these roadblocks and restrictions by treating the construction process as a design-for-manufacture-and-assembly problem, rather than a building problem.
Russell Place, where the Little Hero building was assembled, sat over a primary electrical substation for Melbourne's central business district, which presented several construction limitations. Image: Deloitte Insights
Katsalidis’ twist on an already-established design-for-manufacturing technique was to “unitize” the building, so that each unit—in this case, each floor—was finished in a factory and then transported completed to the jobsite for quicker assembly, a la LEGO Duplo.
Executing this approach required making a digital model of the entire building, accurate to its light fittings, power sockets, washers, and door hinges. Deloitte’s authors called this BIM on steroids.
To pull this off, Katsalidis cofounded a technology company, Unitised Building in 2008, and partnered with a building firm Hickory Group to create the tooling required, and to develop and manipulate the models.
The Russell Place site was the first to host a building constructed with Unitised Building’s modular method. Completed in 2010, the building, called Little Hero, contains 63 one- and two-bedroom apartments and duplex penthouse residences, all of which sit atop seven retail shops, cafés, and restaurants. The unitized process not only complied with all of the site’s restrictions, but cut construction time by more than six months compared to a conventional approach: The eight-story building took only four weeks to erect, at a cost comparable to that of a conventional process.
Deloitte’s authors explain that what separated the unitized approach from conventional prefab modular design and construction at that time was that it was easier to customize, focused on mid- to high-rise construction, and allowed completed modules to be “snapped” together, in contrast to a kit of parts approach.
In addition, say the authors, unitization offered a new way to export BIM data. “It is possible for a firm to retain possession of the models and export only the instructions they generate, to guide the machines and workers in a remote contract manufacturing facility and the remote building site. The models are held domestically, where the engineering talent required to develop and maintain the IP in them is located.”
Deloitte’s authors note that unitization has since led to a larger discussion about different approaches to building as an activity. Rather than simply digitizing existing building practices … “we need to digitalize building by shifting the foundation of our operating model to a wholly different premise,” they wrote.
The unitized process sometimes requires improvisation, too. In 2017, Hickory Group was working on a site within Melbourne’s central business district where access was awkward. The crane that was needed to lift building units into place blocked a narrow laneway, making it difficult for local residents to access their properties.
To navigate the problem, the firm offered to build only at night. To prove this approach to skeptical a city council and residents, Hickory ran a trial build one night, which went unnoticed despite the firm warning nearby residents about it beforehand. With the council and residents convinced that installing building units at night would work, construction went ahead.
King 25, Australia's tallest timber building, was assembled using prefabricated engineered wood components. Image: Wonderful Engineering
Whatever success Unitised Building and other companies may have had, it remains to be seen whether prefab construction can get beyond the nascent stage in Australia.
Prefab, as a concept, got a boost when Australia’s tallest timber building, the 10-story 45-meter-tall (148-ft-tall) 25 King, an office and residential tower in Brisbane, opened earlier this month. Designed by the architectural firm Bates Smart, the building’s engineered-wood components were prefabricated offsite. The entire construction took 15 months to complete.
But supply and demand are still in question. One one hand, Strongbuild, which made prefab houses from an 8,000-sm (86,111-sf) factory in Sydney, last November lost a AUD$45 million contract and went into voluntary “administration,” Australia’s version of liquidation.
On the other hand, David Chandler, a former builder who is now adjunct professor in construction management at Western Sydney University, told the Australian Financial Review that the country could lose up to 200,000 construction jobs to offshore competition if it doesn’t set up a viable prefab construction industry within the next decade.
Related Stories
Sponsored | | Jun 30, 2013
Get your 'Early Bird' entry in for BD+C 30th Annual Reconstruction Awards
The deadline is for BD+C's 30th Annual Reconstruction Awards is July 19, but if you get me a draft of your entry by July 12 (earlier if possible, please!), we'll read it and give you feedback and suggestions that could help you win. We'll give you enough time to rework your entry in time to meet the deadline. We do this "Early Bird" service to help you put together the best possible entry - one that will answer any questions our distinguished jury members may come up with. However, we must emphasize that the BD+C Reconstruction Awards program is a juried competition, so there are no guarantees you'll win. We're just trying to improve your odds. Building Design+Construction is the only publication in its field to recognize the importance of reconstruction in all its forms - historic preservation, adaptive reuse, renovation, fitouts, and reconstruction with addition. And we've been doing it for 30 years. Incidentally, reconstruction accounts for 30-35% of all revenue for AEC firms, so it's a key component of the US/Canada design and construction industry. Send your draft entry to: rcassidy@sgcmail.com. And good luck!
| Jun 28, 2013
Calculating the ROI of building enclosure commissioning
A researcher at Lawrence Berkeley National Laboratory calls building enclosure commissioning “the single-most cost-effective strategy for reducing energy, costs, and greenhouse gas emissions in buildings today.”
| Jun 28, 2013
A brief history of windows in America
Historic window experts from Hoffmann Architects look back at the origin of windows in the U.S.
| Jun 28, 2013
Building owners cite BIM/VDC as 'most exciting trend' in facilities management, says Mortenson report
A recent survey of more than 60 building owners and facility management professionals by Mortenson Construction shows that BIM/VDC is top of mind among owner professionals.
| Jun 27, 2013
Thermal, solar control designs can impact cooling loads by 200%, heating loads by 30%
Underestimating thermal bridging can greatly undermine a building’s performance contributing to heating load variances of up to 30% and cooling load variances of up to 200%, says the MMM Group.
| Jun 20, 2013
Virtual meetings enhance design of University at Buffalo Medical School
HOK designers in New York, St. Louis and Atlanta are using virtual meetings with their University at Buffalo (UB) client team to improve the design process for UB’s new School of Medicine and Biomedical Sciences on the Buffalo Niagara Medical Campus.
| Jun 14, 2013
Purdue, industry partners test light steel framing for seismic safety
A partnership of leading earthquake engineering researchers from top U.S. and Canadian universities and design professionals from the steel industry have begun the final phase of a three-year project to increase the seismic safety of buildings that use lightweight cold-formed steel for their primary beams and columns.
| Jun 11, 2013
Finnish elevator technology could facilitate supertall building design
KONE Corporation has announced a new elevator technology that could make it possible for supertall buildings to reach new heights by eliminating several problems of existing elevator technology. The firm's new UltraRope hoisting system uses a rope with a carbon-fiber core and high-friction coating, rather than conventional steel rope.
| Jun 4, 2013
SOM research project examines viability of timber-framed skyscraper
In a report released today, Skidmore, Owings & Merrill discussed the results of the Timber Tower Research Project: an examination of whether a viable 400-ft, 42-story building could be created with timber framing. The structural type could reduce the carbon footprint of tall buildings by up to 75%.
| May 30, 2013
5 tips for running a successful BIM coordination meeting
BIM modeling tools are great, but if you can't run efficient, productive coordination meetings, the Building Team will never realize the benefits of true BIM coordination. Here are some helpful tips for making the most of coordination meetings.
