Launch Slideshow

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Energy.Environment.Experiential Learning

Energy.Environment.Experiential Learning

  • EEEL is clad in four profiles of aluminum panels that were fabricated by an auto-body shop when the custom profiles moved beyond the capacity of the curtainwall manufacturers facilities.

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    EEEL is clad in four profiles of aluminum panels that were fabricated by an auto-body shop when the custom profiles moved beyond the capacity of the curtainwall manufacturers facilities.

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    Tom Arban

    EEEL is clad in four profiles of aluminum panels that were fabricated by an auto-body shop when the custom profiles moved beyond the capacity of the curtainwall manufacturer’s facilities.

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    Perkins+Will

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    Perkins+Will

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    Perkins+Will

  • Glazed walls allow students sitting on the stairs to see into the laboratories and classrooms on the upper floors and out to the street beyond. The building is the size of a football field, but you can stand anywhere and see outside, project manager-designer Rick Piccolo says.

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    Glazed walls allow students sitting on the stairs to see into the laboratories and classrooms on the upper floors and out to the street beyond. The building is the size of a football field, but you can stand anywhere and see outside, project manager-designer Rick Piccolo says.

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    Tom Arban

    Glazed walls allow students sitting on the stairs to see into the laboratories and classrooms on the upper floors and out to the street beyond. The building “is the size of a football field, but you can stand anywhere and see outside,” project manager-designer Rick Piccolo says.

  • Inside, the building is programmed around a five-story atrium with a monumental staircase that serves as a social gathering space for the students.

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    Inside, the building is programmed around a five-story atrium with a monumental staircase that serves as a social gathering space for the students.

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    Tom Arban

    Inside, the building is programmed around a five-story atrium with a monumental staircase that serves as a social gathering space for the students.

  • Stairs

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    Stairs

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    Perkins+Will

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  • Wherever possible, circulation corridors are fitted out with seating and study areas, turning the buildings public spaces into social hubs for the students.

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    Wherever possible, circulation corridors are fitted out with seating and study areas, turning the buildings public spaces into social hubs for the students.

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    Tom Arban

    Wherever possible, circulation corridors are fitted out with seating and study areas, turning the building’s public spaces into social hubs for the students.

  • Laboratory spaces spanning six disciplines  are flooded with natural light.

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    Laboratory spaces spanning six disciplines are flooded with natural light.

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    Tom Arban

    Laboratory spaces spanning six disciplines are flooded with natural light.

  • Glazed walls in the classrooms allow views of the buildings shading system, including diagonal aluminum fins on the east and west façades.

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    Glazed walls in the classrooms allow views of the buildings shading system, including diagonal aluminum fins on the east and west façades.

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    Tom Arban

    Glazed walls in the classrooms allow views of the building’s shading system, including diagonal aluminum fins on the east and west façades.

For much of the year, the University of Calgary in Alberta is pretty bleak—the weather cold, the landscape barren, and the campus devoid of much architectural interest. Enter Peter Busby, Intl. Assoc. AIA, and his design for the 264,050-square-foot, $145.5 million (CAD) Energy.Environment.Experiential Learning (EEEL) center. “We wanted the building to stand out,” says University of Calgary director of campus planning Jonathon Greggs of the five-story structure, which boasts a glass-and-aluminum exterior that gleams in the high-plains sunlight. Busby adds,“We made it shiny and added color. I’ve raised four kids and I know what attracts them.”

The building brings together six different disciplines in one building, three each from the science and engineering departments. Sited near the north edge of the campus, EEEL serves as a new gateway to the university. And while laboratories for chemistry, biology, bioscience, and civil, mechanical, and chemical engineering make up the core of EEEL’s program, its social spaces are the main event.

University planners created a narrative as part of the program statement, stipulating that an inviting stair should connect the first three levels where undergraduates could engage in peer-to-peer learning. Busby, Perkins+Will, and their joint-venture firm, Dialog, embraced that demand, creating a simple atrium plan for the building, centered around a five-story space lined with labs on its north and south sides. The stair connecting the first and second floors stretches the full width of the atrium, narrowing slightly as it continues to the third floor. Students have embraced the stair as a place to study, converse, see, and be seen. The labs that line both sides of the space enjoy maximum glazing so that natural light enters from the north and south, putting the building’s occupants on display. “It’s opportunistic and serendipitous,” Greggs says.

The university called, rather vaguely, for a “sustainable building” that would not compromise the program. Busby and his team targeted a LEED Platinum goal and “we had to be determined,” he says. Among the building’s environmentally conscious elements: earth tubes that heat and cool the main theater, radiant floor and ceiling systems, and a high-performance envelope with triple glazing. “It’s one of the most efficient lab buildings in North America,” Busby says. “It already meets the 2030 Challenge.” Large touchscreens at the south entrance and on each floor of the building will display the building’s energy metrics. Standing in the building on a 12 C (53 F) February day, Greggs noted, “it’s probably heating itself today. We’re just moving the air around.”

The façades are clad in a system of aluminum panels that are modeled differently on each side, expressing the building’s environmentalism as part of its “shiny” aesthetic. On the north side, the panels angle up to reflect the ambient light and to brighten the surface. On the south side, they angle down and reflect direct sunlight onto the adjacent plaza that’s mostly shaded by nearby buildings. The east and west panels are canted sideways toward the north, cutting down on reflections while capturing ambient light. Horizontal aluminum fins shade windows on the south side of the building, and these same elements are used diagonally across glazing on the east and west sides of the building, introducing another geometry into the façade while effectively shading with the least obstruction to the windows. Bright-green solar shutters on the north and south façades add color to the building while denoting double-height spaces within; motors move those on the south façade to block the sun.

It’s still in its first academic year of occupancy, but EEEL seems to be meeting expectations. “Many students are saying, ‘I want to learn my stuff here,’ ” project manager-designer Rick Piccolo says. But Busby is more interested in the longer-term effects on the community. “You’re training the occupants to behave better,” he says. “It’s a culture shift that happens over time.”


Project Credits

Project  Energy.Environment.Experiential Learning, Calgary, Alberta, Canada
Client  The University of Calgary
Architect and Interior Designer  Perkins+Will, Vancouver, British Columbia, Canada—Peter Busby, Intl. Assoc. AIA (managing director); Rick Piccolo, (project manager-designer); Eric Stedman (associate); Patrick Schilling, Aneta Chmiel (architects); Alex McCumber (intern architect); Soren Schou (industrial designer); Michael Driedger (sustainability building adviser).
Joint-Venture Architect  Dialog, Calgary, Alberta, Canada—Ken Johnson (associate); Robert Veniere, Robert Jim, Jim Goodwin, Kate Jones, Peter Atkinson (project team); Madeleine Schmidts (interior designer)
Mechanical Engineer  Dialog—Tim McGinn
Structural Engineer  Dialog—Norm Webster, Dwain Babiak RJC, Ralph Hildenbrandt, Ryan Wilmer
Electrical Engineer  SMP—Kamal Parmar
Civil Engineer  Aecom—Bob Vanduivenbooden
Project Manager  Duke Projects—Gary Duke, Bill Evans
Construction Manager and General Contractor  EllisDon Corp.—Douglas Smith, Wayne Tritthardt
Landscape Architect  O2 Planning + Design—Doug Olsen, Michael Magnan
Building Envelope  Anton Vlooswyk Building Envelope Engineering
Code Consultant  Sereca Fire Consulting—Keith Calder
Acoustic Consultant  FFA Consultants in Acoustics and Noise Control
Quantity Surveyor  Spiegel Skillen + Associates
Size  264,050 square feet
Cost  $145.5 million (CAD, construction cost)

Materials and Sources

Building-Management Systems and Services  Siemens siemens.com
Ceilings  Armstrong armstrong.com/commceilingsna
Concrete  EllisDon Corp. ellisdon.com
Curtainwall  Contract Glaziers contractglaziers.com
Flooring  Concrete topping
Glass  Trulite pdcglass.com
HVAC  Trotter & Morton trotterandmorton.com
Lighting-Control Systems  Siemens siemens.com
Masonry and Stone  Thibeault Masonry
Metal  Ital Steel
Plumbing and Water System  Trotter & Morton trotterandmorton.com
Roofing  Western Weather Protectors
Structural System  Cast-in-place concrete, steel frame at roof penthouses and canopies
Windows, Curtainwalls, and Doors  Contract Glaziers contractglaziers.com; Schüco schueco.com; Alumicor alumicor.com