University of Regina’s $83 million Kisik Towers residence adapts sustainability and aboriginal values Canadian Design and Construction Report A new $83 million, 14-storey University of Regina resi- dence will add 606 on-campus beds, 139 underground parking spaces and 90 new daycare spaces. It has been named Kisik Towers as part of a campus-wide initiative to reflect the university’s aboriginal connection. The university had earlier announced an overall strategic plan to indigenize the campus, recognizing its location on Treaty 4 and Treaty 6 lands. The Kisik name (pronounced kee-zhick), comes “from the Saulteaux language, meaning ‘sky,’ because it’s the tallest building on campus,” univer- sity president Vianne Timmons has said. Project manager James Westerman says the new resi- dence opened in time for students to move in on Sept. 4, just 27 months after construction began. The building in- cludes a combination of dorm, two-bedroom, four-bed- room, assisted living and accessible rooms. Westerman says this residence will allow the university to accommodate about 14 per cent of its students on-cam- pus; the western Canadian average. The project also in- creases the total number of available daycare spaces on campus to 180. “The daycare spaces are allocated on a first-come basis with priority going to students, then staff, and then the remainder are open to the public.” He says the design and construction of the residence has been driven by sustainability. There is in-floor heating and cooling and exhaust air heat recovery. Fixtures have also been chosen to balance student living with controlled water usage. Marquardt Mechanical ULC managed the project’s me- chanical disciplines. Project manager Justin Henderson 24 – November 2015 — The Canadian Design and Construction Report says the radiant in-floor cooling design is more common in Europe but is slowly gaining traction here. The design required 350,000 ft. of tubing be laid which he says means essentially his “crews crawled from Regina to Moose Jaw on their knees.” He says the tubing installation required that large areas of the building be inaccessible to other trades. Installing tubing quickly was a sensitive schedule challenge that re- quired collaboration between his company and the project team to ensure other trades were not delayed. Designed essentially like a hotel with suites down cor- ridors and compact living spaces, Henderson says the work was repetitive and created both challenges and effi- ciencies. “We developed a system of fabrication that al- lowed us to minimize cutting and fabrication at the point of install. We also had the challenge of fitting the ductwork into ceiling spaces without compromising heights.” Tying into the university’s central plant, the residence uses chilled water and steam for its heating and cooling. “There are heat recovery wheels on the make-up air-han- dling units to help with efficiency and the in-floor system will draw water from the return side of the make-up air units for use in the in-floor cooling loops.” Henderson says this design methodology will increase the water tempera- ture returning to the plant which will allow the central plant chillers to run more efficiently. Henderson says Marquardt Mechanical ULC, who has also completed other projects on the campus, has a good understanding of what the university wants and the typical challenges of a project of this scope. He says an open re- lationship with the university’s facilities management helped the project run smoothly.