The Goldring Centre – University of Toronto Academic Tower
Province: OntarioCity: TorontoProject Category: InstitutionalMajor Classification: D – OfficesHeight: 14 StoreysBuilding Area: 176,549 ft2 Description: The University of Toronto’s new academic tower is a14 storey mass timber building, currently under construction, built with GLT components. Realizing an innovative building of this size and complexity that goes beyond prescriptive height limit of the Ontario Building Code required extensive support and a capable, timber experienced project team. Technical project interactions with WoodWorks staff date back to 2016 and we have tracked 21 direct interactions related to this project. A deeper look at our project data reveals that the project team had an additional 23 indirect interactions with the WoodWorks team (attending events, requesting technical documents, etc.). The project team has 28 projects in their combined experience portfolio, indicating an experienced, supported design team was able to push forward an alternative solutions success storey and one of North America’s tallest wood buildings.
BUILDEX and Canadian Wood Council Bring Cutting Edge Wood-Based Design and Construction to All Professionals of the Built Environment
Vancouver, BC, September 19, 2024 – Informa Connect and the Canadian Wood Council announce their collaboration, WoodWorks at BUILDEX, integrating WoodWorks’ technical expertise and wood products industry representation into BUILDEX Vancouver, February 26 – 27, 2025. This initiative builds on a shared commitment to advancing Canada’s built environment and expands BUILDEX’s focus on innovative materials, design, and construction practices. WoodWorks at BUILDEX offers an exceptional opportunity for all professionals of the built environment to immerse themselves in the latest innovations in wood-based design and construction through: Rick Jeffery, President and CEO, Canadian Wood Council, emphasized the importance of this collaboration: “Working with Informa Connect to bring WoodWorks to BUILDEX Vancouver in 2025 allows us to concentrate on one of our core strengths—delivering industry-leading educational content, technical support, and access to leading wood product providers—at Canada’s most progressive design, construction and real estate event.” Sherida Sessa, SVP for North America at Informa Connect, added “British Columbia is recognized as a global leader in wood-based design and construction, and this partnership solidifies BUILDEX as a key destination for technical expertise, innovation and leadership in the wood products industry.” WoodWorks at BUILDEX amplifies BUILDEX Vancouver’s core offering to Canadian and North America’s design and construction leaders: timely market insights, respected technical knowledge, transformative networking, and exposure to the materials and technologies at the forefront of Canada’s built environment. BUILDEX Vancouver will take place February 26 – 27, 2025, at the Vancouver Convention Centre West, attracting over 8,500 developers, architects, engineers, builders, designers, suppliers, and real estate professionals. Register now at www.BUILDEXVancouver.com to secure your place and witness the latest in progressive design and construction trends.
Canadian Wood Council and George Brown College’s Brookfield Sustainability Institute to co-host WoodWorks Summit in Toronto
Ottawa, Toronto | 27 March 2024] – The Canadian Wood Council (CWC) and George Brown College’s Brookfield Sustainability Institute (BSI) are thrilled to announce a strategic partnership aimed at fostering education in sustainable construction practices. Under this partnership, the CWC and BSI will join forces on various initiatives dedicated to accelerating the adoption of sustainable wood construction. Central to this effort is the WoodWorks Summit, which the organizations will co-host in Toronto October 21-25, 2024. The Summit promises to be a dynamic collection of events that will bring together industry leaders, practitioners, academics, and policymakers to explore the latest advancements, challenges, and opportunities in wood construction and sustainability. “We are excited to embark on this collaborative journey with the Brookfield Sustainability Institute,” said Martin Richard, VP of Market Development and Communications at the Canadian Wood Council. “Together, we aim to drive innovation, share knowledge, and accelerate the adoption of sustainable wood construction.” The WoodWorks Summit will feature an engaging lineup of events, including keynote speeches, panel discussions, tours, and networking sessions. Attendees can expect to engage with cutting-edge research, best practices, and real-world case studies, all aimed at demonstrating the use of wood as an innovative, high-performance, sustainable building material. “Our partnership with the Canadian Wood Council underscores our commitment to advancing sustainability in the built environment,” remarked Jacob Kessler, Director of Business Development & Account Management at the Brookfield Sustainability Institute. “By combining our expertise and resources, we can make significant strides to empower the design and construction community with the practical knowledge and technical resources needed to create healthier, more resilient communities with a reduced carbon footprint.” Through this collaboration, the CWC and BSI aim to catalyze positive change within the construction industry. For more information about the WoodWorks Summit, please visit www.woodworkssummit.ca.
Large-Scale Fire Tests of A Mass Timber Building Structure
The Canadian Wood Council partnered with federal and provincial governments and organizations, as well as key experts, to conduct a series of five fire research burns on a full-scale mass timber structure in Ottawa. The primary purpose of the project was to support market acceptance of tall and large mass timber buildings in Canada and to encourage the construction of buildings that include mass timber.
Four-Storey Wood School Design in British Columbia: Life Cycle Analysis Comparisons
Climate change is one of the largest threats facing the planet today. The construction industry accounts for 11% of global carbon emissions, playing a significant part in the climate crisis. To determine the best solution for future school buildings, not only does practicability, economy and constructability play a part, so does sustainability. In order to better understand the embodied carbon emissions associated with the construction of new school buildings in British Columbia, the embodied carbon content associated with the four framing systems examples in the companion report, An Analysis of Structural System Cost Comparisons (costing study), was assessed. The purpose of this study is to allow the embodied carbon associated with these systems to become an important factor when choosing a viable scheme. Embodied carbon is the carbon footprint of a material or product. To determine the embodied carbon of a building you must consider the quantity of greenhouse gases associated with the building. The most effective way to measure this is through Life Cycle Analysis (LCA), a study which determines the embodied carbon from cradle to grave (material extraction to building demolition). Consequently, an LCA was conducted for each of the four schemes presented in the costing study. Additionally, for wood frame Options A and B, WoodWorks online carbon calculator was used to determine the potential carbon savings associated with carbon sequestering.
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.
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.
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Fire Fighting in Canada Article – Timber Tower
Article by Len Garis and Karin Mark.
When assistant deputy fire chief Ray Bryant heard about construction of the tallest wood building in the world in Vancouver, his reaction was predictable. “I thought it was an insane idea,” Bryant said. But once Bryant learned about the compartment-style construction of the student residence at the University of British Columbia, his opinion changed. “I couldn’t believe how safe it is,” he said. Read the article.
