Canada’s Wood Industry Welcomes New Build Canada Homes Agency to Drive Rapidly Deployable Housing
September 15, 2025, Ottawa, ON: The Canadian Wood Council (CWC) welcomes the federal government’s launch of the Build Canada Homes (BCH) agency, announced yesterday by Prime Minister Mark Carney. Backed by a robust $13 billion investment and a plan to allocate federally owned lands for development, BCH will fast-track the delivery of affordable, sustainable housing nationwide.
“This commitment to factory-built housing and prefabricated building components, including both mass timber and light wood frame systems, directly supports the architects, engineers, and builders we work with every day. It enables them to rapidly deploy quality homes at scale, while meeting Canada’s sustainability and affordability goals,” said Rick Jeffery, President and CEO of CWC.
“We’re especially encouraged by BCH’s plan to adopt a ‘Buy Canadian’ policy and streamline permitting for bulk projects.”
BCH’s first projects will be launched in Dartmouth, Longueuil, Ottawa, Toronto, Winnipeg, and Edmonton, with construction expected to begin next year. The agency will also work with the Nunavut Housing Corporation to deliver 700 homes, 30% of which will be built off-site and transported to Nunavut.
In advance of this announcement, the Canadian Wood Council (CWC) with Forest Products Association of Canada (FPAC) submitted recommendations to the BCH Market Sounding Guide highlighting how wood-based modern methods of construction (MMC)—including mass timber, light wood frame, and modular systems—can reduce build times by up to 50%, cut carbon emissions by 30–60%, and lower long-term operating costs.
The CWC and FPAC urges BCH to implement key recommendations from its submission, including:
Loan guarantees and concessional financing for factory expansion.
A national “one-window” approval system for factory-built housing.
A Design for Manufacturing & Assembly (DfMA) pattern library.
Indigenous equity and workforce development tied to housing pipelines.
The CWC stands ready to champion this effort and ensure design and construction professionals have the information and support they need to rapidly deploy the sustainable, affordable homes Canadians need.
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The Canadian Wood Council (CWC) is a leading force in advancing building codes and standards for wood construction, ensuring market access for Canadian wood products, and accelerating the adoption of sustainable, wood-based construction solutions in the marketplace. As a national federation of associations, the CWC serves as the unifying voice for our members, who represent hundreds of manufacturers across the country.
Discover the world’s first 10-storey exposed mass timber academic tower at George Brown College. This landmark project proves that sustainable, innovative, and human-centred design can stand tall together.
Building What’s Possible
George Brown College’s Limberlost Place redefines what’s possible with mass timber construction. Rising 10 storeys above the college’s Toronto waterfront campus, this project is currently the largest exposed mass timber building of its occupancy type in the world.
Designed by Moriyama & Teshima Architects in joint venture with Acton Ostry Architects, built by PCL Construction, and realized in partnership with George Brown College, Limberlost Place demonstrates how innovation and collaboration can create a new model for sustainable development.
Sustainability at Scale
Mass timber is more than a building material — it’s a climate solution. This project shows that Canada’s design and construction industry is leading the way to a net-zero future.
By prioritizing wood construction, Limberlost:
Reduces carbon emissions significantly.
Creates healthy, biophilic spaces that support learning and well-being.
Proves that large-scale, low-carbon construction is achievable today.
Powered by Partnerships
Limberlost Place was made possible through strong collaboration. George Brown College worked alongside architects, engineers, and construction partners to deliver a bold vision: a living classroom where future designers, builders, and innovators can study inside the very spaces shaping tomorrow’s built environment.
A Blueprint for the Future
Limberlost Place is more than a single project. It’s a blueprint for how to build smarter and faster. By combining mass timber with hybrid engineering solutions, this project has set a new benchmark for low carbon construction in Canada and beyond.
This video case study was made possible through funding support from Natural Resources Canada and the Canadian Wood Council.
Canadian Wood Council’s WoodWorks Program Welcomes BarrierTEK as National Partner
Ottawa, Ontario – September 9, 2025 — The Canadian Wood Council (CWC) is pleased to welcome BarrierTEK as a new national partner of its WoodWorks program. This collaboration aligns two organizations committed to supporting safe, innovative, and low-carbon construction practices across Canada through education, technical excellence, and strategic market development.
As the construction sector responds to climate imperatives, shifting societal expectations, and progressive building codes, the role of wood in the built environment continues to expand. By combining traditional wood systems with value-added solutions like fire-retardant treatments, project teams can expand the application of wood in diverse building types without compromising performance or design flexibility. This partnership will help raise awareness of the full range of tools and technologies available to support safe, code-compliant wood construction while reinforcing wood’s reputation as a versatile, safe, high-performance building material.
“WoodWorks is proud to collaborate with BarrierTEK to help build industry knowledge and confidence in the proven fire performance of wood construction,” says Martin Richard, Vice President of Market Development and Communications at the Canadian Wood Council. “This partnership supports our broader goal of advancing wood use in all forms by equipping professionals with practical, performance-based solutions.”
“At BarrierTEK, our mission has always been to make fire safety more accessible without compromising the sustainability or affordability of wood construction,” says Ewan Davie, VP Sales at BarrierTEK. “Working alongside WoodWorks allows us to contribute to the national conversation on wood construction and demonstrate how innovation in fireperformance can enhance—not limit—wood’s role in shaping modern construction practices.”
Through shared outreach, resource development, and technical education across the country, this national partnership aims to equip architects, builders, and developers with the knowledge they need to confidently design and build with wood.
About the Canadian Wood Council
The Canadian Wood Council (CWC) is Canada’s unifying voice for the wood products industry. As a national federation of associations, our members represent hundreds of manufacturers across the country. Our mission is to support our members by accelerating market demand for wood products and championing responsible leadership through excellence in codes, standards, and regulations. We also deliver technical support and knowledge transfer for the construction sector through our market leading WoodWorks program.
About the National WoodWorks Program
The Canadian Wood Council’s WoodWorks Program a national outreach initiative dedicated to advancing the use of wood in construction by providing educational opportunities and direct technical support. The program helps architects, engineers, developers and other industry professionals expand their capacity for wood design and construction, contributing to a more sustainable built environment.
About BarrierTEK
BarrierTEK is a Canadian company based near Edmonton, Alberta, at the forefront of enhanced fire performance of wood construction since 2010. Their team of chemists, engineers, and researchers collaborates with builders, code officials, and fire prevention authorities to develop cost-effective, non-toxic, factory-applied fire-retardant treatments for dimensional lumber, I-joists, OSB/plywood panels, attic trusses, and sheathing. These solutions meet or exceed Canadian and NFPA fire safety standards—while being LEED‑compliant and compatible with conventional construction processes—and are designed to reduce the risk and severity of high‑intensity fires in both single‑family and multi‑family wood buildings, delivering measurable benefits like lower insurance premiums and enhanced community safety.
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 five tests occurred in June 2022. The project supports market acceptance of tall and large mass timber buildings in Canada and encourages the construction of buildings that include mass timber.
With the most certified sustainable forests in the world, Canada is a champion of sustainable forest management and in a position to solidify our global leadership in the bioeconomy and forest sector by advancing mass timber adoption. Mass timber is revolutionizing the building industry as a renewable, nature-based construction material. Recognizing mass timber’s vital role in achieving a low carbon, built environment, the Canadian Wood Council and its partners are dedicated to advancing its adoption.
Purpose
The project was designed to support market acceptance of tall and large mass timber buildings in Canada and encourage the construction of buildings that include mass timber. By designing and executing a series of demonstration fire research tests on a full-scale mass timber structure, and collecting data from tests, the project:
Demonstrated mass timber fire performance to key stakeholders including building officials, fire service and insurance industry
Encouraged building code advancements that will allow for taller and larger wood buildings Support the adoption of the 2020 National Building Code introducing new provisions to allow 12 storey mass timber buildings
Supported future code change proposals and the development of alternative solutions
Encouraged the development of / provide data and information to support the transition toward performance-based codes, long-term strategy
Promoted the adoption of mass timber by developing educational materials for targeted audiences
Supported the maximum use of exposed mass timber elements (visual aesthetic), leading to cost competitive projects and health and wellness benefits
Demonstrated the ability of different mass timber assemblies to maintain structural integrity under, during and post-construction fire scenarios in a way that is comparable to (or superior to) conventional materials.
Supported the transition to Performance-based codes
Objectives
While there is evidence, research, and case studies that demonstrate the comparable, safety and performance of mass timber construction compared to construction using conventional materials like steel and concrete, misconceptions still circulate. By designing and executing a series of demonstration fire research burns on a full-scale mass timber structure, and collecting data from these burns, our objective was to:
Showcase, through fire demonstration tests, that mass timber construction is a safe and viable alternative to other more conventional construction systems (steel & concrete) for constructing large or tall buildings;
Support the implementation and adoption of the 2020 edition of the National Building Code of Canada;
Support future code change proposals to extend the use of mass timber to other building types, heights, and sizes;
Support the transition to Performance-based codes;
Use the results and finds from the demonstration tests to develop viable solutions to mitigate construction fire risk.
Targeted Audiences
Various key stakeholders within the construction sector need to be educated through science-based tests that mass timber building systems can be designed to provide a safe building environment when subjected to fire. The key groups targeted by the project include, but are not limited to:
Building Code Officials & Regulators
Fire Services Professionals
Insurance Professionals
Building & Construction Industry
Sustainability Specialists
Building Occupants & Owners
Funders & Stakeholders
Natural Resources Canada
BC Forestry Innovation Investment
Government of British Columbia – Office of Mass Timber Implementation (OMTI)
Ontario – Ministry of Northern Development, Mines, Natural Resources and Forestry
Alberta – Agriculture, Forestry & Rural Economic Development
Québec – Ministère des Forêts, de la Faune et des Parcs
Canadian Wood Council
FPInnovations
Full Scale Fire Testing and Research
The National Research Council of Canada (NRC) provided support for the technical work and science-based fire tests, as part of its research to inform the advancement of safe and innovative solutions across Canada’s construction industry.
Key Consultants & Contractors
GHL Consultants Ltd.
CHM Fire Consultants Ltd.
ISL Engineering
Timmerman Timberworks Inc.
Key Suppliers & Manufacturers
Five mass timber product manufacturers supplied the mass timber materials:
Western Archrib:
◦ Glulam beams and columns
◦ Westdek panels for the roof
Element5 Modern Timber Buildings
◦ Glulam beams and columns
◦ CLT floor
Structurlam Mass Timber Corporation
◦ Glulam beams and columns
◦ CLT floor and walls
StructureCraft: Timber engineering & Construction:
◦ DLT floor and roof
Nordic Structures
◦ Glulam beams and columns
◦ CLT roof and walls
Several key material suppliers also supported the program:
MTC
◦ Connectors and fasteners
Rockwool
◦ Fire Proof Insulation
Hilti
◦ Fireproof material
The structure for the Ottawa Fire Test was built by Timmerman Timberworks Inc.
BIM for Wood Buildings – An Introductory Guide
Resource Description
This resource provides educators with an accessible introduction to Building Information Modeling (BIM) in the context of wood construction. It explains core BIM concepts, outlines the implications of adopting BIM, and demonstrates its value for efficiency, reliability, and sustainability. The guide serves as a clear starting point for teaching BIM practices to students in architecture and engineering, with practical examples to support classroom discussion.
Acknowledgments
Lead Authors
Scius Advisory and BIM One
Reviewers
Canadian Wood Council
Usage and Citation Guidelines
These teaching materials were developed by Scius Advisory and BIM One with funding support from the Canadian Wood Council. The content is provided free of charge for teaching and educational purposes only. Any commercial use, redistribution, or modification outside of academic teaching is strictly prohibited.
When using these resources in any context that requires citation, please use the format below.
Author(s). (Year). Title of module [Teaching Module]. Funded and published by the Canadian Wood Council.
Considerations in the Design & Prefabrication of Mass Timber Buildings for Architects
Resource Description
This resource is intended to provide educators with a clear framework for teaching the principles of mass timber design and prefabrication. The content is organized into four modules that highlight foundational knowledge, technical design considerations, early construction strategies, and sustainability. Together, these modules support students in developing a holistic understanding of how mass timber projects are conceived, designed, and delivered.
Module 1 – Introduction & Project Planning
Provides an overview of mass timber, highlights the advantages of prefabrication, and outlines key early-stage considerations for optimizing design.
Module 2 – Design Optimization Considerations
Explores critical aspects of design including structural performance, fire protection, acoustics, and vibration.
Module 3 – Early Construction Strategies
Focuses on Building Information Modeling (BIM), Design for Manufacture and Assembly (DfMA), systems integration, and best practices for building envelope and moisture management.
Module 4 – Life Cycle Assessment (LCA)
Examines the importance of carbon accounting, introduces available LCA tools, and discusses broader sustainability and biophilia considerations.
Acknowledgments
Canadian Wood Council
Usage and Citation Guidelines
These teaching materials were developed by university professors with funding support from the Canadian Wood Council. The content is provided free of charge for teaching and educational purposes only. Any commercial use, redistribution, or modification outside of academic teaching is strictly prohibited.
When using these resources in any context that requires citation, please use the format below.
Author(s). (Year). Title of module [Teaching Module]. Funded and published by the Canadian Wood Council.
Workshop on Wood Education and Workforce Integration
Date: September 24th, 2025 Time: 2 p.m. – 6 p.m. Duration: 4 hours Speakers: Alexander Opazo Vega, Blériot Feujofack, Craig Applegath, Ghasan Doudak, Guido Wimmers, Michael David Burnard, Peter Moonen, Pierre Quenneville
Description:
This workshop will bring together international experts to explore advancements in wood design and construction education, highlighting the multifaceted challenges and, most importantly, showcasing and discussing innovative solutions. The workshop will feature perspectives on timber engineering education in New Zealand, the New European Bauhaus Pioneer Hub and its role in shaping Europe’s future workforce, seismic considerations in timber engineering education in Chile, strategies for integrating design, engineering, and construction in North American wood education, as well as workforce integration and the challenges of engaging young professionals in the field. These discussions will also address key strategies for developing and retaining talent within the sector.
An interactive panel discussion will follow, bringing together all speakers to address the complex landscape of wood education and workforce integration. The panel will explore the evolution of curricula, the integration of emerging technologies, and effective strategies for engaging the next generation in wood design and construction. This will also provide the audience with a valuable opportunity to engage directly with the panelists through questions and discussion.
The workshop will conclude with a one-hour roundtable dedicated to shaping an international platform for collaboration. This platform is envisioned to bring together leading experts from around the world, harmonize curricula across institutions, and share high-quality resources to elevate wood education globally. By participating in this roundtable, you will help establish the foundation for a lasting network that fosters innovation, strengthens training, and ensures the next generation of manufacturers, architects, engineers, and builders are well-prepared to design, construct, and maintain advanced wood structures.
In preparation for the workshop, a global survey has been developed to gather insights from educators on wood design and construction. The survey aims to explore current practices, challenges, and technological innovations in wood education. Its findings will provide a data-driven foundation for the workshop discussions, focusing on key topics such as post-secondary education structures, curriculum integration, industry partnerships, and the adoption of new technologies in wood education programs. If you are an educator or professional and would like to share your experiences and perspectives, we invite you to complete the survey by clicking on the following link: Survey Link Here!
This workshop promises to be a pivotal event for shaping the future of wood education, combining academic and industry perspectives to create a unified global approach to training the next generation of professionals in the wood sector.
Agenda:
2:00 – 2:10 PM
Introduction – Peter Moonen, Canadian Wood Council; Guido Wimmers, BCIT; Blériot Feujofack, Canadian Wood Council
2:10 – 3:45 PM
Expert presentations
Innovations in Timber Engineering Education: Insights from New Zealand – Dr. Pierre Quenneville, University of Auckland
Workforce Integration in Wood Design and Construction: Challenges and Solutions for Engaging Young Professionals – Craig Applegath, DIALOG
Empowering Graduates: The Role of the New European Bauhaus Pioneer Hub on Sustainable Built Environment with Renewable Materials – Dr. Michael Burnard, InnoRenew CoE
Advancing Timber Engineering Education in Seismic Regions: Insights from Chile’s Academic and Research Initiatives – Dr. Alexander Opazo Vega, University of Bío-Bío
Advancing Wood Education in Canada and North America: Integrating Design, Engineering, and Construction – Dr. Ghasan Doudak, University of Ottawa
4:15 – 5:00 PM
Panel Discussion – Moderated by Blériot Feujofack, Canadian Wood Council
5:00 – 5:55 PM
Round Table – Led by Peter Moonen, Canadian Wood Council; Guido Wimmers, BCIT; Blériot Feujofack, Canadian Wood Council
5:55 – 6:00 PM
Summary of Activities and Wrap-Up
Featuring:
Blériot Feujofack
Manager Wood Education
Canadian Wood Council
Peter Moonen
National Sustainability Manager
Canadian Wood Council
Mass Timber Buildings and Fire Safety
Course Overview
Welcome, this course is a case study of a number of educational buildings in both the United States and Canada and how wood used in the construction of these buildings supports sustainability, promotes health and motivates learning.
Learning Objectives
How wood was used to create a healthy learning environment.
How wood was used to create a sense of wellbeing by creating warm inviting interiors with large open spaces.
Examines the use of wood in the construction of 20 different educational buildings from elementary and high schools to university research facilities and showcase buildings.
Course Video
Speakers Bio
Steve Craft, Ph.D., P.Eng. Co-founder CHM Fire Consultants – Ottawa, ON
Dr. Steven Craft is a Principal Engineer with CHM Fire Consultants Ltd, which he co-founded in 2011, and an Adjunct Professor in the Fire Safety Engineering Program at Carleton University. He has an undergraduate degree in Forest Engineering from the University of New Brunswick and a Ph.D. in Fire Safety Engineering from Carleton University. Dr. Craft teaches courses in Wood Engineering, Fire Dynamics, and Wood Structures and Fire Safety at Carleton University. As well, he is active in Canadian and international codes and standards work, including chairing a task group under CSA O86, Canada’s Wood Design Standard, on fire resistance and a task group under ULC’s Fire Test Committee on exterior fire tests.
Wood in Education
Course Overview
Welcome, this course is a case study of a number of educational buildings in both the United States and Canada and how wood used in the construction of these buildings supports sustainability, promotes health and motivates learning.
Learning Objectives
How wood was used to create a healthy learning environment.
How wood was used to create a sense of wellbeing by creating warm inviting interiors with large open spaces.
Examines the use of wood in the construction of 20 different educational buildings from elementary and high schools to university research facilities and showcase buildings.
Course Video
Speaker Bio
Coming soon
Vertical Additions: An innovative pathway to delivering more homes
Course Overview
Discover the innovative approach to housing supply undertaken by Pathway Non-Profit Community Developments Inc. of Peel. The Arbor Mill expansion sets a remarkable precedent for other non-profit affordable housing providers who want to build more housing and can do it by adding additional units on top of their existing buildings. Globally, it is estimated that approximately 20-25% of existing buildings can support a vertical addition in wood, which is a comparatively light weight building material.
This novel approach removes the need to find new land to develop and has the added benefit of immediately integrating new residents into an existing supportive community. This project added 6 barrier-free, affordable apartments on top of a 35-year old, occupied residential building using prefabricated mass timber, delivering more affordable housing through the “gentle densification” of existing infrastructure.
In this webinar, the project team will discuss the architectural, structural, and design challenges of the project, including blending prefabricated mass timber construction methods with an older structure built with conventional materials. Key sustainability and construction considerations will also be highlighted. Don’t miss this opportunity to gain valuable insights from one of the first project teams in North America to pursue this innovative approach to housing delivery.
Learning Objectives
Participants will learn how Pathway, a non-profit community developer in Peel Region, created a plan to expand its housing portfolio while addressing tenant needs and priorities.
Participants will gain insights into the design and approval challenges of the project, including navigating site plan approvals, integrating mass timber, and meeting acoustic and fire safety requirements.
Participants will understand the structural considerations for vertical expansions, which include performing load assessments and evaluating structural options.
Participants will understand the mass timber fabricator’s process and the key considerations for successfully integrating prefabricated mass timber components into a project, including early involvement, securing production spots, and managing construction timelines.
Course Video
Speaker Bio
Roman Spektor General Manager Pathway Non-Profit Community Developments Inc. of Peel
Mechanical engineer by profession, Roman has been the General Manager of Pathway for over 25 years and has managed social housing projects for 35 years. Pathway Non-Profit Community Developments Inc. of Peel (Pathway) is an interfaith non-profit corporation that was incorporated in 1988. The Pathway organization is run by a volunteer board made up of members of the three founding congregations. Pathway owns and operates two apartment building in Mississauga constructed in the early 90s. Pathway’s two buildings, Forest Ridge and Arbour Mill, house 230 families and are funded by rental income and a government subsidy.
Pathway has also created a separate management company and manages other non-profit housing communities. Roman has coordinated with the volunteer board on all aspects of management of the buildings including budgeting, capital work and project management. Through the creation of programs for the residents, Pathway has created inclusive communities where all residents feel welcome.
Cathy has been a partner in the firm Tafler Rylett Architects since 1996 and is involved in all aspects of the firm’s work including client consultation, design, permit application, specifications and contract administration. Cathy is committed to producing thoughtful and environmentally responsible projects that are integrated with the surrounding landscape. The firm designs with a collaborative process, listening to their client’s requirements and budget and input from the surrounding community.
Cathy was chair of the OAA’s Committee on the Environment and is a member of the Toronto Alliance to End Homelessness (TAEH). The firm’s work includes supportive and affordable housing, offices, institutional and private residential projects. Major projects include supportive housing for Houselink Community Homes, offices for Doctors Without Borders, offices for the U of T Faculty Association, Tiny Treasure Montessori School and affordable housing for Pathway.
Craig Nicoletti, P.Eng. Partner, Structural Engineer Engineering Link Inc.
Craig is a Professional Engineer and Partner for the Structural Division at Engineering Link. He has been with Engineering Link since 2011 and brings more than 20 years of structural engineering expertise to his projects. During his tenure, Craig acquired a diverse portfolio of experience with wood projects that spans all sectors including commercial, recreational, industrial, hospitality, civic, and sporting facilities, in addition to heritage designated sites.
Stephen Balamut, B.Eng. Project Manager Element5
Stephen is a Civil Engineering Graduate of McMaster University. He began with Element5 as a designer and estimator, then moved into his current project manager position where he has overseen over 50 completed mass timber projects, from low- and mid-rise residential, to mixed-use and commercial. As a project manager, Stephen oversees the planning, coordination, and execution of Element5’s mass timber projects. He collaborates closely with architects, engineers, and contractors to ensure the structural integrity and sustainability of the mass timber components. Stephen is driven by a passion for contributing to sustainable projects that have a meaningful and lasting impact on people’s lives.
Overview of the Canadian Mass Timber Technical Guide
Course Overview
Join us for an introduction to a new, comprehensive Canadian technical reference guide to mass timber. Canada’s inherent building-with-wood culture lays a solid foundation for the continued growth of mass timber construction. Learn more about why mass timber is right for your next project, the design process and building systems, code acceptance, our expertise and more.
Learning Objectives
How mass timber can be incorporated into a variety of structural projects that typically utilize other materials.
Design considerations for utilizing mass timber and how the Mass timber guide can provide them with the information to navigate mass timber design.
How to use the mass timber reference guide for cross laminated timber and glue laminated timber design and construction.
Overview of the economic and sustainable benefits of mass timber construction.
Course Video
Speaker Bio
Orlagh McHugh – BSc, M.Eng, EIT Mass Timber Specialist Structurlam Mass Timber Corporation Vancouver/Vancouver Island, British Columbia, Canada
Orlagh McHugh is a Mass Timber Specialist at Structurlam Mass Timber Corporation, overseeing the Lower Mainland and Vancouver Island. Before relocating to BC almost a decade ago, Orlagh earned her Degree in Structural Engineering and Architecture at University College Dublin, Ireland, and went on to complete a Masters of Structural Engineering at the same institution.
With over 7 years of experience working with top Vancouver firms as a design engineer, she has contributed to a diverse catalogue of projects across a number of sectors, with a particular focus on wood and mass timber construction. Orlagh is inspired by the innovative nature of mass timber construction and keen to promote creativity, technology and sustainability in our built environment.
Ron McDougall Mass Timber Specialist Structurlam Mass Timber Corporation Western/Eastern Canada
Ron brings 30 years of heavy timber experience to the mass timber industry that combines a unique perspective on the evolution of hand built timber construction to the technologically advanced practices utilized in Structurlam’s state of the art production process.
Ron’s expertise is the facilitation of incorporating BIM practices in pragmatic and meaningful ways to ensure efficient construction of complex mass timber structures.
Mass Timber Construction at Canadian Nuclear Laboratories
Course Overview
Canadian Nuclear Labs’ Chalk River Laboratories comprise the largest single complex in Canada’s science and technology community. The site contains more than 50 unique facilities and laboratories including a three new buildings constructed with mass timber.
These three buildings are the focus of a detailed environmental impact study. This webinar will offer a case study of the three buildings and share the results of the environmental impact study. Topics covered by the presentation include: -Why Wood? (drivers that led CNL to chose mass timber) -Carbon Impact (operational, embodied, sequestered, avoided, and a life cycle assessment) -Procurement (Integrated Project Delivery Method) -Building Performance (construction elements, energy performance, envelope performance, fire performance, durability, resiliency, and potential for adaptive reuse) -Code Requirements (regulatory approvals, permit process)
The projects are considered successful examples of sustainable procurement aligning with the ‘greening government’ strategy which supports the Government’s commitment to net-zero emissions by 2050, and includes a 40% reduction by 2025 for federal facilities.
Learning Objectives
Understand the strategic importance of using mass timber construction at CNL and its alignment with sustainability goals, including carbon reduction and the promotion of sustainable building practices.
Analyze the logistical and engineering challenges associated with implementing mass timber in a large-scale infrastructure project.
Evaluate the benefits of mass timber in the context of operational efficiency, cost-effectiveness, and environmental impact.
Discuss the implications of mass timber construction for future building projects in terms of regulatory compliance, market trends, and technological advancements.
Course Video
Speaker Bio
Donald Chong, OAA, MRAIC, B.Arch Design Principal, Associate Vice President HDR
Don has firmly established himself in Toronto’s architecture culture through his inventiveness and investment in placemaking. His project skills volley between the strategic planning of urban and institutional work through to the detailing of finely crafted furniture, as well as research-based design. Don has held numerous design conference speaking engagements, from the Wood at Work Conference to the Architectural League of New York, and has been featured in print publications, such as Design Lines, related to mass timber design.
Susan Croswell, OAA, MRAIC Project Delivery Principal HDR
Susan is a project architect with over 27 years of diversified experience. Her expertise in both architectural design and technology allows her to excel in the profession from concept design through to contract administration. Susan’s ability to deliver complex projects and documentation on time is a hallmark of her work and is achieved through effective leadership and teamwork. She has developed a reputation as a highly competent, efficient, effective and approachable project architect who loves the challenges that each and every project brings to the team. Some of her recent, award-winning projects include the CNL Chalk River Laboratories “New Builds,” Queen’s University John Deutsch University Centre, and Kingston Frontenac Public Library.
Ryan Zizzo, PEng, MASc, LEED AP ND Founder & CEO Mantle Developments
Ryan Zizzo is a professional engineer and Founder & CEO at Mantle Developments, a consultancy focused on climate-smart infrastructure and buildings, based in Toronto. Mantle helps projects go beyond energy efficiency, incorporating resilience, embodied carbon emissions, and life cycle approaches to make projects future-proof and net-zero carbon ready. Ryan is a recognized leader in helping large organizations and governments transition to a low-carbon future. He has directly supported the Government of Canada, several provincial Ministries, the City of Toronto, the YMCA of Greater Toronto, and numerous developers, property managers, and real estate investors.
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