The Jim Pattison Centre of Excellence

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One of the world's most sustainable buildings now carries the name of one of British Columbia's best-known entrepreneurs and community-builders, Mr. Jim Pattison.

The Jim Pattison Centre of Excellence in Sustainable Building Technologies and Renewable Energy Conservation was announced by Premier Christy Clark on Monday, Dec. 12 in Penticton at the official opening of the new $28-million building. The name reflects the generosity of Mr. Jim Pattison and his Foundation, which contributed $2.5-million to the Okanagan College Foundation and its community fundraising campaign.

Jim Pattison Centre of Excellence in Sustainable Building Technologies and Renewable Energy Conservation

The first classes of Okanagan College students are already experiencing education and training in the Jim Pattison Centre of Excellence in Sustainable Building Technologies and Renewable Energy Conservation. They are learning in one of the world's greenest buildings; a structure that is as much a lesson in itself as it is a place to learn. It's a building that incorporates made-in-B.C. innovation as much as it serves to promote it.


Click Here Awards roll in for Jim Pattison Centre of Excellence
Design awards from around the globe are stacking up for the Jim Pattison Centre of Excellence in Sustainable Building Technologies and Renewable Energy Conservation at Okanagan College’s Penticton campus.
 
The eye-catching and energy-efficient building earned the building the International Architecture Awards’ Green GOOD DESIGN Award from the prestigious European Centre for Architecture Art Design and Urban Studies and The Chicago Athenaeum: Museum of Architecture and Design.
Tuesday, June 26, 2012

Click Here Watch news coverage of the Jim Pattison Announcement
Click Here Video tour of the Jim Pattison Centre Of Excellence
Click Here News Updates

  • Announced April 2009 as part of the joint Provincial-Federal Knowledge Infrastructure Program . Opened its doors to students in June, 2011.
  • $27.6 million budget: $13.5 million Federal Government, $9.1 million Provincial, $5 million - Okanagan College fundraising.
  • Size: 7,085 square metres: 14 classrooms and labs, five trade shops and a Centre Of Excellence Trades common tool crib, 300 student study spaces, gymnasium, fitness room, five suites of open-space offices (total capacity 30 staff), seven meeting rooms, innovation incubation space, an on-roof test facility for alternative energy devices, Women's Resource Centre, one multi-purpose demonstration lab (for community use as well), and sustainable kitchen using high-efficiency appliances focused on healthy eating.
  • Accommodates 800 FTE students (500 additional spaces, 300 returning from leased spaces in Penticton)
  • Approximately 600 people have worked on the site , with additional employees (not quantified) working in off-site production of materials (i.e. Gorman's Lumber, cabinetry, flooring manufacture in Salmon Arm). Estimates indicate 179 full-time jobs were created through construction of the building.
  • The Centre incorporates innovation incubation space, in conjunction with Accelerate Okanagan (the organization is a merger between the Okanagan Science and Technology Council and the Okanagan Research Innovation Centre). The goal is to nurture a growing high-tech, green focused industry for the South Okanagan-Similkameen.
  • Programs offered/planned for the Jim Pattison Centre of Excellence include: Centre Of Excellence Aerial View
    • Sustainable Construction Management Technology
    • Geo-Thermal
    • Electrical
    • Carpentry
    • Green Building Design and Construction
    • Onsite Alternative Energy Sources
    • Metering and Monitoring of Green Buildings
    • Building Envelope Construction
    • Life Cycle Site Management
    • HVAC
    • Applied Ecology and Conservation
    • Human Kinetics
    • Project Details and Features:

      • Other than a hardwood gymnasium floor sourced from Ontario, the project features 100 per cent B.C. wood , including pine from beetle-kill affected forests in the Okanagan and FSC-certified lumber sourced from B.C..
      • The walls of the gymnasium u Centre Of Excellence Gym se new technology, designed by the project's structural engineers (Fast + Epp) and built by StructureCraft Builders Inc. of Delta. The walls are built with composite panels, a combination of concrete and glulam (glued laminated timber) beams that are light and strong. These walls have heating and cooling piping inside with electrical conduits and ventilation built in. This is the first time this technology has been used in North America.
      • The first and second floors of the building (excluding the gymnasium) are polished concrete and will be heated and cooled with an in-floor radiant system. The water source for the in-floor heating is 61 metres below the building, where wells have been drilled. The water is drawn to the surface where heat is taken out of the water via heat pump technology. This is an open loop continuous system.
      • The building is naturally ventilated and cooled. Windows feature a green light/red light system that indicate when windows can be opened to maximize cooling. Air enters the building and passes over the cool concrete slab floor. Solar chimneys draw warm air up and out of the building.
      • All of the building's mechanical and electrical services are exposed, where possible, to demonstrate the technology used. This is part of the building's teaching and "living lab" capability.
      • The largest array of photovoltaic solar panels in Western Canada has been installed to generate 258 kilowatts of electricity.
      • The building is expected to use 65 kilowatt-hours of energy per Centre Of Excellence Electrical square metre per year. A typical building of similar size built to standard specifications would use approximately 250 kilowatt-hours per square metre per year. This positions the building as one of the most energy efficient in North America.
      • The building recycles and re-uses all wastewater produced on site using chemical-free treatment by the City of Penticton. Treated water will be returned to the site for use in the building's grey water system and for on-site irrigation.
      • Domestic hot water loads are answered by solar panels.
      • The rooftop has green spaces with local flora.
      • The roof of the building is accessible to students, staff and visitors. Students can view the solar panels and conduct testing.
      • The project does not use any materials red-listed by the Living Building Challenge (other than those required by building codes). Instead of using creosote pilings, the Jim Pattison Centre of Excellence sourced and installed steel pilings. The building does not use any products that are harmful to people or the environment (i.e., no formaldehyde in insulation).
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    The Jim Pattison Centre of Excellence designed by CEI Architecture Planning Interiors, is a facility that supports a program mix with a focus on sustainable building technologies and processes, as well as research and development of alternative and renewable sources of energy. The innovative features of the building itself are going to be used as a teaching tool to help train the next generation of tradespeople in green construction practices.

    The structure has been built to meet the ambitious targets of the Living Building Challenge (illb.org) , which requires net-zero energy and water consumption, as well as several other prerequisites.
    CENTRE HIGHLIGHTS
    VISIT alivingclassroom.com to get a visual flavour of the features and to take a virtual tour of the Centre
    • Net zero energy consumption, with largest photovoltaic solar array on a non-utility institutional building in Canada tied into power grid
    • Solar hot water system
    • Extensive use of wood to reflect the region and B.C.'s natural resources
    • Green roof components, mimicking the regional flora
    • Natural cross-ventilation using solar chimneys in open mode
    • High-performance building envelope and displacement ventilation in closed mode
    • Ground source heat pump with radiant floor heating
    • Ground source cooling
    • Localized thermal mass and radiant wall panels
    • Heat and methane recovery from wastewater treatment
    • Lightweight, 'light touch' construction
    • Extensive use of local pine beetle-kill wood
    • Innovative structural solutions avoiding extensive use of adhesives, preservatives and paints
    • Extensive use of local materials
    • Rooftop 'petri dish' for experimental technologies
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