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Wood Design Awards 2012

Wood Design Awards 2011

Wood Design Awards 2010

National Model Codes in Canada

On behalf of the Canadian Commission on Building and Fire Codes (CCBFC) the National Research Council (NRC) Codes Canada publishes national model codes documents that set out minimum requirements relating to their scope and objectives. These include the National Building Code (NBC), the National Fire Code (NFC), the National Energy Code for Buildings (NECB), the National Plumbing Code (NPC) and other documents. The Canadian Standards Association (CSA) publishes other model codes that address electrical, gas and elevator systems.

The NBC is the model building code in Canada that forms the basis of most building design in the country. The NBC is a highly regarded model building code because it is a consensus-based process for producing a model set of requirements which provide for the health and safety of the public in buildings. Its origins are deeply entrenched within Canadian history and culture and a need to house the growing population of Canada safely and economically. Historical events have shaped many of the health and safety requirements of the NBC.

Model codes such as the NBC and NECB have no force in law until they are adopted by a government authority having jurisdiction. In Canada, that responsibility resides within the provinces, territories and in some cases, municipalities. Most regions choose to adopt the NBC, or adapt their own version derived from the NBC to suit regional needs.

The model codes in Canada are developed by experts, for experts, through a collaborative and consensus-based process that includes input from all segments of the building community. The Canadian model codes build on the best expertise from across Canada and around the world to provide effective building and safety regulations that are harmonized across Canada.

The Codes Canada publications are developed by the Canadian Commission on Building and Fire Codes (CCBFC). The CCBFC oversees the work of a number of technical standing committees. Representing all major facets of the construction industry, commission members include building and fire officials, architects, engineers, contractors and building owners, as well as members of the public. Canadian Wood Council representatives hold membership status on several of the standing committees and task groups acting under the CCBFC and participate actively in the technical updates and revisions related to aspects of the Canadian model codes that apply to wood building products and systems.

During any five-year code-revision cycle, there are many opportunities for the Canadian public to contribute to the process. At least twice during the five-year cycle, proposed changes to the Code are published and the public is invited to comment. This procedure is crucial as it allows input from all those concerned and broadens the scope of expertise of the Committees. Thousands of comments are received and examined by the Committees during each cycle. A proposed change may be approved as written, modified and resubmitted for public review at a later date, or rejected entirely.

Fire Safety and Insurance In Commercial Buildings

Throughout history, protecting commercial structures from fire has been important. Fire poses risk in terms of safety to occupants, building integrity, business interruption and the economic health of a community. Consequently, reduction in the risk of fire for commercial buildings has been a significant goal for society, achieved through a better understanding of all the factors that contribute to fire risk. Designing and building structures in compliance with building and fire code requirements, and insurance industry guidelines, contributes to the reduction of fire losses. Wood has had a long history of use in commercial construction. Some of the reasons for this are:

high strength-to-weight ratio,

ease of use and constructability,

known performance characteristics,

resource abundance and renewability,

economy in construction, and

architectural aesthetics.

Wood construction that makes use of good design and appropriate fire protection measures provides a level of fire safety that is comparable to other types of construction. This document discusses some of the basic factors that affect fire risk and property insurance rates, as well as some common misconceptions regarding what conditions make commercial buildings fire-safe.

2024 CWC Annual Report

We are pleased to share the Canadian Wood Council’s 2024 Annual Report, offering a clear view of the progress, resilience, and impact achieved over the past year.

In his message, Chairman Kevin Pankratz reflects on the Council’s strategic leadership during a year marked by economic pressures and shifting market conditions. Emphasis is placed on the value of collaboration, strong governance, and industry alignment as essential to maintaining momentum and ensuring long-term competitiveness. The report reinforces the importance of maintaining a united voice across our membership and fostering clarity in our purpose as a national federation.

From the President & CEO’s perspective, Rick Jeffery outlines how the organization navigated 2024 with focus and adaptability—delivering trusted technical guidance, growing influence in codes and standards, and expanding national education and outreach efforts. With renewed government investment and increased awareness of low-carbon construction, the Council is well-positioned to lead the next chapter of growth for Canada’s wood sector.

Laurentian University McEwen School of Architecture – Sudbury, ON

Located in Sudbury, Ontario, Laurentian University’s McEwen School of Architecture is the first new school of architecture to be built in Canada in 40 years. Its mandate is to provide a uniquely integrated, uniquely focused education to Indigenous, Anglophone, and Francophone students. It is the only school of architecture outside of Québec to offer French-language studio courses, and the first to include offices for Indigenous Elders, who play a central role in the school. The curriculum addresses resilient architecture and fabrication techniques for northern latitudes, with an emphasis on Indigenous culture, wood construction, local ecologies and resources, and design for the impact of climate change. The school is a didactic instrument with structural and HVAC design elements purposefully exposed in each of the various buildings. The multi-phase development of the McEwen school began with the adaptive reuse of the site’s two existing heritage structures. The two storey CPR ticket and telegraph building (circa 1914) became faculty offices and a boardroom, and the single-storey market building became a temporary studio before ultimately transforming into the fabrication laboratory once the new studio spaces were constructed. Phase two of the project included the construction of a 36,480 ft2 steel-and-concrete Studio Wing, and the new 15,670 ft2 CLT Library Wing which is the focus of this case study. By combining the two repurposed heritage buildings with 52,150 ft2 of new construction, the McEwen School of Architecture demonstrates the properties of wood, steel, concrete, and masonry construction, and illustrates to students the structural potential and aesthetic qualities of each.

Templar Flats – Hamilton, ON

Templar Flats in Hamilton, Ontario, has the distinction of being the first occupied, modern wood-frame mid-rise building completed in Ontario. It was constructed under provisions (O. Reg. 191.14) added to the province’s Building Code (2012 OBC) that permit wood-frame construction up to 6 storeys, an increase of two storeys over the previous iteration of the code. The 6-storey, mixed-use project offers 25 modern residential units above three street-level restaurants in the city’s downtown core. The City of Hamilton is committed to revitalizing the downtown and developments on King William Street, including Templar Flats, have benefited from infrastructure improvements in the area. Templar Flats brings together the best of the old and new in an innovative, hybrid solution that puts a modern 6-storey building with glass penthouses between two thoughtfully restored heritage buildings that were adapted into a single, unified development.

Seismic Design with Wood: Solutions for British Columbia Schools

Although seismic events occur all over the world, the areas most susceptible to large earthquakes are those that lie along active fault lines. These fault lines are found at the boundaries of the Earth’s tectonic plates, including the so-called ‘Ring of Fire’ (Figure 1.1) that encircles the Pacific Ocean. The Ring passes through British Columbia, as well as other active earthquake zones such as Japan, New Zealand, Chile, California and Alaska. More sophisticated approaches to the seismic design of buildings have been developed as our understanding of earthquake behaviour has evolved. The experience gained from a succession of major earthquake events has confirmed that well-designed, ductile wood buildings performed well, especially from the standpoint of life safety.

Design Options for Three- and Four Storey Wood School Buildings in British Columbia

As land values continue to rise, particularly in higher-density urban environments, schools with smaller footprints will become increasingly more necessary to satisfy enrollment demands. There are currently a number of planned new school projects throughout British Columbia that anticipate requiring either three-or four-storey buildings, and it is forecasted that the demand for school buildings of this size will continue to rise.

Though timber construction would offer a viable structural material option for these buildings, the British Columbia Building Code (BCBC 2018) currently limits schools comprised of timber construction to a maximum of two storeys, while also imposing limits on the overall floor area. Given these constraints, to date there has not been much effort put into the development of viable structural options that would accommodate larger and taller schools constructed primarily with timber materials.

With the above factors in mind, the purpose of this study is to illustrate the range of possible timber construction approaches for school buildings that are up to four storeys in height. Given this emphasis on four-storey construction, this study focuses on the main classroom blocks within a school building, as these portions of the building are the ones that are the most likely to take advantage of an increased number of storeys. While other portions of school buildings, such as gymnasiums, shops, and multi-purpose areas are also strong candidates for wood construction systems, since there are already numerous examples of this type of construction these areas are not emphasized in this report.

Four-Storey Wood School Design in British Columbia: An Analysis of Structural System Cost Comparisons

As land values continue to rise, particularly in higher-density urban environments, schools with smaller footprints will become increasingly necessary to satisfy enrollment demands. There are currently several planned new school projects throughout British Columbia that anticipate requiring either three-or four storey buildings, and it is forecast that demand for school buildings of this size will continue to rise.

Though timber construction would offer a viable structural material option for these buildings, the British Columbia Building Code (BCBC 2018) currently limits schools comprised of timber construction to a maximum of two storeys, while also imposing limits on the overall floor area. Given these constraints, the development of viable structural options that would accommodate larger and taller schools constructed primarily with timber materials has not been a key focus.

With the above factors in mind, the purpose of this report is to build upon the findings of the previously published Design Options for Three- and Four-Storey Wood School Buildings in British Columbia prepared by Fast + Epp and Thinkspace dated November 2019. Specifically, this report supplements the previous one by providing guidance in assessing and comparing the various framing options considered in the previous report primarily on a cost basis.

Edmonton Transit System – LRT Stations

Edmonton, the capital of Alberta, is a fast-growing city with a population of 1,200,000 people in the overall metropolitan area. It boasts comprehensive bus and light-rail transit (LRT) transportation provided by the Edmonton Transit System (ETS). The North LRT line is a 3.3 km extension of the light rail transit system from the Churchill LRT Station in downtown Edmonton to the Northern Alberta Institute of Technology (NAIT) (Figure 1). It’s the first segment of a planned LRT expansion to the northwest Edmonton city limits. Light rail service on this line will commence in July 2014 and bring two new LRT stations and one bus transfer station into service. The NAIT LRT Station will have modular, temporary shelters until land use planning for the City Centre Airport lands has been completed. The North LRT line to NAIT is expected to serve 13,200 weekday passengers, with many more expected as the new line is eventually extended to the city limit near St. Albert. Wood was used for both structural and architectural elements for the MacEwan and Kingsway/Royal Alex LRT Stations, and for the Kingsway/Royal Alex Bus Transit Station. Glulam decking and beams were used for the platform and building roofs. In addition, the MacEwan LRT Station has a decorative wood ceiling in the main heated waiting area. The roof structures for both LRT stations are cantilevered from pairs of columns located at the centre of the platforms so that the edges of the platforms are not obstructed.

National Model Codes in Canada
...as well as members of the public. Canadian Wood Council representatives hold membership status on several of the standing committees and task groups acting under the CCBFC and participate actively...
Fire Safety and Insurance In Commercial Buildings
...risk. Designing and building structures in compliance with building and fire code requirements, and insurance industry guidelines, contributes to the reduction of fire losses. Wood has had a long history...
2024 CWC Annual Report
We are pleased to share the Canadian Wood Council’s 2024 Annual Report, offering a clear view of the progress, resilience, and impact achieved over the past year. In his message,...
Laurentian University McEwen School of Architecture – Sudbury, ON
...culture, wood construction, local ecologies and resources, and design for the impact of climate change. The school is a didactic instrument with structural and HVAC design elements purposefully exposed in...
Templar Flats – Hamilton, ON
Templar Flats in Hamilton, Ontario, has the distinction of being the first occupied, modern wood-frame mid-rise building completed in Ontario. It was constructed under provisions (O. Reg. 191.14) added to...
Seismic Design with Wood: Solutions for British Columbia Schools
...earthquake behaviour has evolved. The experience gained from a succession of major earthquake events has confirmed that well-designed, ductile wood buildings performed well, especially from the standpoint of life safety....
Design Options for Three- and Four Storey Wood School Buildings in British Columbia
...of school buildings, such as gymnasiums, shops, and multi-purpose areas are also strong candidates for wood construction systems, since there are already numerous examples of this type of construction these...
Four-Storey Wood School Design in British Columbia: An Analysis of Structural System Cost Comparisons
...for Three- and Four-Storey Wood School Buildings in British Columbia prepared by Fast + Epp and Thinkspace dated November 2019. Specifically, this report supplements the previous one by providing guidance...
Edmonton Transit System – LRT Stations
...line is eventually extended to the city limit near St. Albert. Wood was used for both structural and architectural elements for the MacEwan and Kingsway/Royal Alex LRT Stations, and for...
On behalf of the Canadian Commission on Building and Fire Codes (CCBFC) the National Research Council (NRC) Codes Canada publishes national model codes documents that set out...
Throughout history, protecting commercial structures from fire has been important. Fire poses risk in terms of safety to occupants, building integrity, business interruption...
We are pleased to share the Canadian Wood Council’s 2024 Annual Report, offering a clear view of the progress, resilience, and impact achieved over the past year. In his...
Located in Sudbury, Ontario, Laurentian University’s McEwen School of Architecture is the first new school of architecture to be built in Canada in 40 years. Its mandate is...
Templar Flats in Hamilton, Ontario, has the distinction of being the first occupied, modern wood-frame mid-rise building completed in Ontario. It was constructed under...
Although seismic events occur all over the world, the areas most susceptible to large earthquakes are those that lie along active fault lines. These fault lines are found at...
As land values continue to rise, particularly in higher-density urban environments, schools with smaller footprints will become increasingly more necessary to satisfy...
As land values continue to rise, particularly in higher-density urban environments, schools with smaller footprints will become increasingly necessary to satisfy enrollment...
Edmonton, the capital of Alberta, is a fast-growing city with a population of 1,200,000 people in the overall metropolitan area. It boasts comprehensive bus and light-rail...
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