Standard modular construction was given a softened appearance with the addition of residential wood truss roofs and the introduction of shorter modules in select locations to create courtyards. Photo by doublespace photography PROJECT Durham Modular Transitional Housing, Beaverton, Ontario ARCHITECT Montgomery Sisam Architects Inc. In cities, homelessness can be painfully visible, in the form of encampments or people sleeping rough. But in rural areas, people experiencing homelessness are often hidden away. It’s this largely invisible but clearly present need that led to the construction of Beaverton Heights, a 47-unit transitional housing residence about 100 kilometres from Toronto that serves the northern part of the Regional Municipality of Durham. The region had run a pilot project for transitional housing in Durham during the Covid pandemic, out of a summer camp property—so when provincial and federal funding became available for modular, rapidly delivered transitional housing, they were quick to apply. Montgomery Sisam Architects is no stranger to modular supportive housing, or to the site, for that matter. 15 years ago, they designed Lakeview Manor, a 200-bed long-term care facility for the region, on an adjoining parcel of land. At the time that they took on Beaverton Heights, they had completed two modular supportive housing projects for the City of Toronto. (They have since completed four more.)  The initial Toronto projects were done on a massively compressed timeline—a mere eight months from design to the move-in date for the first, and nine months for the second. “So we knew that’s as tight as you can crunch it—and that’s with all the stars aligned,” says Montgomery Sisam principal Daniel Ling.  As transitional housing, the Beaverton facility is designed to help residents overcome their barriers to housing. To achieve this, the program not only includes residential units, but communal spaces, including a double-height dining room and lounge that occupy the western half of the project. This part of the complex can also be used independently, such as for community activities and health supports. To create the needed volume, Montgomery Sisam decided to prefabricate the community structure in steel: the entire west half of the project was constructed and assembled in a factory to ensure that it would fit together as intended, then disassembled and reassembled on site. The double-height community space includes a reading room, terrace, administrative areas, and communal dining room served by a full commercial kitchen. The building can also be used for community-wide functions, such as medical clinics. A cluster of columns marks the area where the dining area’s eight steel modular units join together. Photo by Tom Ridout For both the steel community structure and its wood residential counterpart, the prefabrication process was extensive, and included the in-factory installation of plumbing, electrical and mechanical systems, interior and exterior finishes, and even furnishings in each module. “Basically, just remove the plastic from the mattress and take the microwave from the box that’s already in the unit,” says Jacek Sochacki, manager of facilities design, construction, and asset management at the works department of the Regional Municipality of Durham. Within the building, the most extensive on-site work was in the hallways, where the modules met: building systems needed to connect up, and flooring and finishes needed to be completed over the joints after the modules were installed. One of the most surprising aspects of the project is how un-modular it looks. Montgomery Sisam’s previous experience with modular construction allowed them to find leeway in the process—small tweaks that would change the look of the project, without affecting the construction cost. The long site allowed the architects to use a single module as a glazed hallway, connecting the two buildings, and creating generous courtyards on its two sides. In two other areas, shorter modules are specified to transform the massing of the building. The resulting cut-outs serve as an entry forecourt and as a dining terrace. Instead of flat roofs, the team used residential trusses—“the same wood trusses you would see in subdivisions,” says Ling—to create sloped roof forms. From the outside, the windows of the residential units are slightly recessed behind a frame of wood cladding, adding further dimension to the façade.  Photo by doublespace photography Since it was a design-build process, all of these decisions were vetted through the builder for their cost effectiveness. “It wasn’t hard to convince them, we’re going to use some shorter modules—you are going to build less there,” recalls Ling. “These are things that actually don’t cost a lot of money.” The resulting massing is intentionally lower towards the front of the property, where the community space faces residential neighbours, and doubles to four storeys towards the back. As you approach the project, the courtyards and cut-outs give it the appearance of smaller discrete masses, rather than a single volume. Topping the project is the region’s largest solar panel array, which provides 35 to 40 percent of the all-electric building’s energy needs. Modular construction aided in airtightness and performance—in its first months of operation, it delivered an EUI of 102 kWh/m2/year.   Balancing between independence and community was an important principle for the program, and for the design. To this end, each studio is designed to function as a self-sufficient dwelling, with its own kitchen, full washroom, and heat pump with independent temperature control. Small spatial nudges—like daylight at both ends of corridors, seating nooks with built-in benches throughout the project, and generous common rooms—aim to coax residents outside of their units. The property is bracketed by the dining area at the front, and an outdoor basketball court at the rear. A long storage shed holds some of the facility’s mechanical equipment along with bikes—an easy way to get into town for residents who may not have cars.  Located between the residences and the community building, a semi-private courtyard offers a quiet place for clients to rest or socialize with others. Photo by doublespace photography The building looks so good that, had the finishes be chosen for luxury rather than durability, it could easily pass as a family resort. But is that too nice? Often, government-funded buildings—especially for a stigmatized program such as transitional housing—come under criticism if they appear to be too fancy.  I put this to Sochacki, who replies: “There’s this misnomer that if the building looks good or unique, it costs a lot of money. I think we proved that it doesn’t.” Apart from a wood surround for the fireplace, the components of the building are utilitarian and basic, he says. “It’s just like: how do you make the most out of common materials? It costs us exactly the same, but we’re doing things that are actually nice.” Screenshot That niceness is not just a perk, but essential to the core purpose of helping people experiencing homelessness to make their way back into society. “Making it nice is important,” says Sochacki. “Nice lighting, nice windows, nice places to sit, nice spaces that people enjoy being at—because that’s what’s going to make the difference.”  “If you build a place that people just want to spend all their time in their room and they don’t come out, that’s not going to help them with transitioning back to a sustainable, permanent housing lifestyle,” he adds. “You’ve got to create a place where they feel welcome and that they want to spend time in—they want to meet other people and they want to get the support, because there’s a place and space for it, and it’s successful for them to get the support.” A terrace adjoins the reading lounge and dining area, inviting outdoor barbecues and gatherings in warm weather. The cut-out was created by using a shorter module in this section of the building, minimizing the impact to construction costs and logistics. Photo by Tom Ridout CLIENT Regional Municipality of Durham | ARCHITECT TEAM Daniel Ling (FRAIC), Enda McDonagh, Kevin Hutchinson, Sonja Storey-Fleming, Mateusz Nowacki, Zheng Li, Grace Chang, Jake Pauls Wolf, Mustafa Munawar, Paul Kurti, William Tink, Victoria Ngai, Kavitha Jayakrishnan, Max Veneracion, Megan Lowes | STRUCTURAL/MECHANICAL/ELECTRICAL Design Works Engineering | LANDSCAPE Baker Turner | INTERIORS Montgomery Sisam Architects | CONTRACTOR NRB Modular Solutions | CIVIL Design Works Engineering | CODE Vortex Fire | FOOD SERVICES Kaizen Foodservice Planning & Design | ENERGY MODELlING Design Work Engineering | SPECIFICATIONS DGS Consulting Services | AREA 3,550 m2 | COMPLETION October 2024 ENERGY USE INTENSITY (operational) 101.98 kWh/m2/year   As appeared in the June 2025 issue of Canadian Architect magazine  The post Invisible Need, Visible Care: Beaverton Heights, Beaverton, Ontario appeared first on Canadian Architect.