Low Carbon Buildings AND Energy Systems? Yes, We Wood.
Course Overview
As Toronto grows, so does the need for housing and energy. The use of wood products presents a tremendous opportunity to meet these essential needs while reducing greenhouse gas emissions and growing the local and regional economies. This panel will discuss opportunities to use wood for construction mass timber affordable housing and generation of low carbon heat and power in Toronto.
The panel that ensues will explore how the strategic adoption of innovative biomass district heating systems in urban settings can reduce the carbon footprint of cities while delivering both economic and environmental benefits to rural communities. Experts from Sweden and Canada will discuss how utilizing forest residuals for urban energy needs not only cuts carbon emissions in cities but also supports sustainable forest management and strengthens rural economies. The discussion will explore how Sweden’s successful large-scale implementation of biomass district heating can be replicated in Canadian cities like Toronto, providing a renewable, low-carbon energy solution that bridges the needs of both urban and rural communities.
Learning Objectives
Understand how wood construction, including mass timber, can contribute to lower embodied carbon in urban development projects.
Explain the relationship between building emissions, housing demand, and the need for faster low-carbon construction solutions.
Describe how forest biomass and district energy systems can support low-carbon heat and power generation in cities.
Course Video
Speakers Bio
David MacMillan Manager, Environment & Climate Division City of Toronto
Katherine joined Enwave in 2024 to lead the launch of a new business platform focused on integrating clean electricity solutions with Enwave’s district networks, customer sites and electrical grids. Katherine brings over 15 years of experience in Ontario’s electricity sector, most recently as the Director of Innovation, Research & Development with the Independent Electricity System Operator (IESO).
Katherine is recognized across the Canadian energy sector for her leadership in advancing innovative clean electricity solutions, and for her ability to broker productive, effective partnerships between the private sector, utilities, and provincial and federal government.
Katherine teaches in the Master of Law, Energy & Infrastructure program at Osgoode Hall and is a member of the Clean 50. Enwave is Canada’s single largest owner and operator of district energy, providing heating and cooling services to buildings through networks in Toronto, Windsor, London and PEI.
Leveraging innovative solutions such as deep lake water cooling, biomass, energy from waste, sewer heat recovery, solar PV and storage, Enwave provides affordable, reliable, clean thermal energy and electricity to its real property and utility customers and partners.
Gabriella Sicheri Vice President, Development CreateTO
As Vice President, Development at CreateTO, the City of Toronto’s real estate agency, Gabriella Sicheri leads complex master planning projects, including the Bloor-Kipling Six Points 17-acre site created through the decommissioning of the Six Points Interchange. In her role, Gabriella reimagines the use of underutilized City assets in a way that will create meaningful space for end users and their communities, while generating important City-Building outcomes for the City.
With over 18 years of experience in the public real estate sector, Gabriella has lead important City-building initiatives and key civic projects across Toronto. Prior to joining Build Toronto (now part of CreateTO), Gabriella worked for the Toronto District School Board, where she negotiated, executed and managed complex redevelopment projects, land transactions and a leased portfolio of three million square feet to leverage public assets and generate revenue in creative ways to support new building construction and renovation.
In 2019, Gabriella was recognized as an Urban Land Institute Women’s Leadership Initiative (WLI) Championship Team Member, which represents outstanding women leaders and influencers in real estate and development in the Greater Toronto Region.
Gabriella holds a degree from the University of Toronto and a Masters in Environmental Studies from York University.
Ian Dunn President and CEO OFIA
“Ian has a long history in Ontario’s natural resource sector. Before the OFIA, he worked as a consulting forester and environmental scientist, undertaking projects for clients in the oil and gas, mining and exploration, nuclear energy, government, and forestry sectors.
Since joining the OFIA in 2015, Ian has served in various forestry, manufacturing, and environmental policy roles. Appointed as the OFIA’s President & CEO in 2021, Ian currently oversees Association strategy, governance, public relations, and business administration. Working closely with Association membership, Ian developed a comprehensive strategic plan for the OFIA, representing a new direction and approach for the Association.
Ian championed the development and continued implementation of Ontario’s Forest Sector Strategy and Biomass Action Plan, focusing on competitive measures designed to attract capital investment and strengthen the sector. He represents the OFIA softwood lumber producer’s interests in the ongoing trade dispute with the United States, developing strategies with members, and coordinating legal efforts with counsel.
He actively engages in forest management planning and conservation-related files, including parks and protected areas, species at risk, carbon markets and pricing, and Indigenous relations. Serving as a public appointee to Ontario’s Species at Risk Program Advisory Committee (SARPAC), and the Boreal Caribou Conservation Agreement Working Group, Ian provides strategic advice to the province on its species at risk program.
In 2019, Ian was recognized by Canadian Forest Industries magazine as one of the “”Top 10 under 40″” within the forest sector. He frequently speaks on behalf of the Association to the media, including interviews with the CBC, CTV News and Consumer Alert, Toronto Star, Northern Ontario Business, and many other local radio stations and newspapers. He has provided guest lectures at the University of Toronto and Lakehead University on forest policy and current issues in forest management.
Ian is a registered professional forester and has been a full member of the Ontario Professional Foresters Association since 2013. He lives in Toronto with his wife and two children.
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Tom Antle Director of Engineering TorchLight Bioresources
Tom Antle is the Director of Engineering at TorchLight Bioresources. He holds a BASc in Mechatronic Engineering from the University of British Columbia and a dual MSc in Sustainable Energy Systems from KTH in Stockholm, Sweden, and Aalto University in Helsinki, Finland. He has been a Development Engineer at Stockholm Exergi, one of the world’s largest low carbon heating utilities, and a Project Manager and Reliability Engineer in British Columbia’s pulp industry. At Torchlight, he focuses on developing new biomass combined heat and power (CHP) plants and integrating BECCS (bioenergy with carbon capture and storage) into both new facilities and existing pulp mills. His major projects include the Rocky Mountain Carbon BECCS plant and the Heat New Glasgow district heating CHP. Tom is dedicated to leveraging biomass fuels to drive national decarbonization while promoting economic growth in Canada’s forestry economy. He is based in Coquitlam, BC.
Wood Design & Building Magazine, vol 25, issue 102
This issue of Wood Design & Building explores how intentional design can carry culture, support community, and foster connection. The projects featured here demonstrate how a clear vision can transform a building into an environment grounded in purpose, identity, and care, reflecting both people and place.
Several projects in this issue centre Indigenous perspectives and priorities. The Membertou First Nation office building, the Weliankweyasimk Women’s Shelter, and the Chief Leonard George residential building each reflect cultural knowledge, respond to community needs, and create spaces of safety, continuity, and belonging.
Wood is a consistent presence throughout. Long associated with shelter and refuge, it is also a material of gathering, warmth, and shared experience. It is no coincidence that projects grounded in human wellbeing so often turn to wood. This connection is present in many cultures. Our WoodWare feature on FinnFox, for example, highlights the part wooden saunas play supporting health and building community in Nordic (and Canadian) sauna culture.
At the same time, building with wood is not simply a return to the past. While it reconnects us with cultural knowledge and longstanding practices, it also reflects a growing recognition of wood as a high-performance, renewable material for contemporary construction. This is evident in the Chief Leonard George Building, Canada’s first tall mass timber residential building constructed to the Passive House standard. It demonstrates how thoughtful wood design can both preserve cultural continuity and point toward the future of high-performance, low-carbon construction.
Building Canada’s Future With Wood
Course Overview
This session will feature thought leaders in a podcast-style conversation exploring the evolving role of wood in Canadian construction. Through a series of rotating interviews, the discussion will highlight key themes including the rise of mass timber and tallwood buildings, the shift toward offsite construction, and wood’s potential to address the housing affordability crisis. The session offers a forward-looking yet grounded perspective on the opportunities and complexities shaping the industry.
Learning Objectives
Understand how mass timber and tall wood construction are transitioning from niche applications to mainstream use in Canadian mid- and high-rise buildings.
Understand how prefabrication, modularization, and early team integration influence cost, schedule, and risk outcomes in wood construction projects.
Explain how mass timber can support institutional, residential, and mixed-use project goals related to sustainability, constructability, and housing delivery.
Course Video
Speakers Bio
Russell Hixson Editor SiteNews
Russell Hixson is an award-winning investigative journalist who began his career covering crime and courts in the United States before transitioning into Canada’s construction sector. He spent eight years at the Journal of Commerce, where he developed deep expertise in the industry and its key issues. He has also reported on the federal budget from Ottawa and documented the early impacts of the COVID-19 pandemic while working remotely.
Hixson has developed a strong interest in the construction industry and is passionate about sharing its stories through SiteNews, with the goal of engaging and informing a broader audience.
Jana Foit Principal, Higher Education Practice Lead Perkins&Will, Vancouver
Jana Foit is a Principal and Higher Education Practice Lead at Perkins&Will’s Vancouver studio. With over two decades of experience, she has led numerous mass timber projects, including the Earth Science Building and Gateway Building at the University of British Columbia, as well as the BCIT Tall Timber Student Housing project.
She is a frequent speaker and panelist on mass timber design and contributes to several industry publications, including the Nail Laminated Timber Design and Construction Guide, the Survey of International Tall Wood Buildings, and the Technical Guide for the Design and Construction of Tall Wood Buildings in Canada.
Robert Malczyk Principal Timber Engineering Inc.
Robert Malczyk is one of a small number of university-trained specialized timber engineers. After completing his master’s degree at Warsaw University of Technology, he moved to Canada to study under the renowned Professor Borg Madsen at the University of British Columbia.
In 1997, he co-founded Equilibrium Consulting Inc., contributing to award-winning projects such as the Art Gallery of Ontario’s Galleria Italia designed by Frank Gehry. In 2021, he co-founded Timber Engineering Inc. He currently works on projects across Canada, the United States, and Asia.
His expertise focuses on a systems-based approach to mass timber design, with an emphasis on structural efficiency and energy performance.
Andrew Stiffman Vice President, Construction Services Kalesnikoff
Andrew Stiffman brings diverse project experience across single-family homes, large-scale passive house developments, and low- to mid-rise mass timber construction. At Kalesnikoff Mass Timber, he oversees the full project lifecycle of prefabricated and mass timber projects, from early-stage discussions through to completion.
His background in building science, development management, and hands-on high-performance construction enables him to combine technical expertise with practical delivery, leading multidisciplinary teams to successful project outcomes.
Scaling Affordable Rental Housing with Tall Mass Timber
Course Overview
As cities face growing pressures around affordability, climate resilience and livability, innovative projects like Catalyst’s 18-storey CLT rental development in North Vancouver offer necessary solutions. Targeted toward architects, engineers, developers and municipal leaders this session explores mass timber construction as an affordable housing solution. Attendees will gain insight into the use of CLT in construction and the associated challenges, including structural grid constraints, moisture protection, and prefabricated balcony systems. The session will also highlight how the project achieved near cost parity with comparable concrete buildings, integrated mixed-use programming, and leveraged BIM to support coordination and the permitting process. Participants will leave with practical takeaways for applying these approaches to similar projects in other cities.
Learning Objectives
Understand how tall mass timber hybrid systems can support affordable and mixed-use housing
Identify key architectural, structural, and construction challenges unique to CLT buildings
Learn practical strategies for permitting, procurement, coordination, and construction
Course Video
Speakers Bio
Annabelle Hamilton Executive Director WoodWorks BC
Harrison Glotman Principal Glotman Simpson Consulting Engineers
Rhys Leitch Principal Integra Architecture Inc.
Sean Binns Project Director Kindred Construction
Building Confidence in Low Carbon Construction: De-risking Mass Timber
Course Overview
This presentation explores how insurance can unlock opportunity by aligning risk strategies with sustainability goals. It will provide an analysis of the Canadian and Global insurance market and explain why mass timber has become such a hot topic for insurers. Critical risk mitigation strategies will be discussed as well as various options on how to address many of the more common moisture management problems encountered in construction.
Learning Objectives
Why is Mass Timber a focus area of the insurance industry?
How do I design and position my project to achieve cost effective risk transfer?
What are some of the most common types of insured loss and how do I avoid them?
Course Video
Speakers Bio
Alicia Clendenan SVP – National Director of Sustainable Construction Aon
Alicia is a socially conscious business professional with a passion for complex construction and infrastructure projects. She leads Aon’s Sustainable and Alternative Construction practice across Canada and has more than 15 years of risk and insurance advisory experience. She also serves as Aon’s global mass timber working group chair and is involved in a number of industry initiatives aimed at reducing barriers to insurance for mass timber construction as well as enhancing both the breadth of coverage offered by insurers and improving the industry adopted best practices for risk mitigation in construction.
Early Mass Timber Collaboration: A Journey from Design Assists Pre-Construction through Construction
Course Overview
In this session attendees will be taken through the evolution of the mass timber structure design for the Sam Centre at the Calgary Stampede. We will explore the varied forms of collaboration from design and pre-construction through construction to completion. During the talk the value of collaboration will be examined from a design assist trade to the early onboarding of a mass timber erector, to the engagement of a mass timber specialists examining topics from erection tolerances to moisture and construction protection, to storage procedures, to fire retardant impregnation, and the aesthetic and performance outcome of each. Particular attention will be paid to how the process of collaboration at the various stages aided the design and successful execution of the mass timber connection details. A tour of the project could also be offered given its proximity to the conference. The Sam Centre is a year-round immersive experience that brings the ‘world of the Calgary Stampede’ – past, present and future – to life through technology, story-making, and Western hospitality. The use of Mass timber was a key strategy in connecting to the history of the Stampede and its historic structures. Sam Centre is a linear volume characterized by a large horizontal pitched roof. The structure uses a repetitive hybrid steel frame with exposed mass timber beams and a Nail Laminated Timber Roof Deck, adding warmth to the interior and creating a distinct profile offering a modern yet durable nod to traditional barn construction. Creating deep overhanging soffits which mitigate heating and cooling loads, the roof also evokes the welcoming verandahs of traditional Alberta architecture.
Learning Objectives
Learn how design assist supported the design of the mass timber connections and how those details would be built to ensure the structure was built efficiently and effectively.
Learn about the importance of bringing on a mass timber erector early in the design process to ensure that the construction system and any tolerances required are correctly captured in drawings.
Understand the value of a collaborative approach between design team, consultants, trades, and building science team to ensure all facets of mass timber construction are noted across project phases.
Course Video
Speakers Bio
Jeff Geldart, AAA, OAA Associate Diamond Schmitt
Jeff Geldart believes having a thorough understanding of the client’s goals and objectives is critical to developing a design that best meets their needs and expectations. That understanding becomes the root of any great piece of architecture. If the building does not meet the needs of its occupants, then the rest is superfluous.
Throughout his professional career Jeff has worked with both institutional and private sector clients. Some of his more notable institutional projects have included work with Wentworth County and Canada’s Department of Foreign Affairs and International Trade. One Developments, Lifetime Developments and Kylemore Communities are among his residential accomplishments. This broad and range of experience has allowed him to enhance his drive for achieving design excellence while at the same time rigorously working to consistently meet schedules, budgets, and ultimately project execution.
Jeff demonstrates a phenomenal capability technically, aesthetically, and managerially on his projects. Since joining Diamond Schmitt in 2019, Jeff has worked as the Senior Architect on the Ottawa Public Library and Library Archives Canada Joint Facility and the Okotoks Arts and Learning Campus in Alberta. Jeff is currently based in Calgary.
Mark Grimes, P.Eng, PMP Senior Project Manager EllisDon
Mark Grimes is a Senior Project Manager at EllisDon, originally graduating from Trinity College Dublin with a degree in Civil and Structural Engineering – Mark moved to Canada in 2010 and has spent the last 15 years working primarily in Alberta on a wide range of projects ranging from highrise tower construction to luxury hydrotherapy spas.
Branching Traditions: Innovative Mass Timber in Indigenous Inspired Architecture
Course Overview
Discover the transformative vision of Saskatoon’s New Central Library, a 150,000-square-foot, four-story beacon anchoring downtown’s northern edge. Inspired by Métis and Indigenous cultures, this community living room echoes the South Saskatchewan River’s rhythms, blending organic forms to connect urban vitality with the prairie landscape. As a place of healing and inclusiveness, it sparks renewal with a south-facing plaza featuring river-inspired flora for community events and a northern Indigenous landscape. This project honours the land’s stewards, fostering a welcoming hub that celebrates Saskatoon’s diverse heritage and unites all in shared cultural expression. Dive into the mass timber innovations of Saskatoon’s New Central Library in the lecture “Branching Traditions,” evoking leaf-like five-ply CLT floor plates radiating outward, distributing services via a central spine supported by a concrete core for rigidity. Explore value engineering evolution, overcoming manufacturing constraints, shipping logistics, and broad CLT floor plates without shear walls for concise structure. Celebrate adapting timber to cultural geometries, inspiring architects and engineers with sustainable, expressive insights honoring Indigenous and Métis heritage.
Learning Objectives
Integration of cultural expression within the rigid limitations of mass timber.
Designing mass timber structures under manufacturing and shipping logistics restraints.
Developing design strategies for a CLT and glulam column-and-beam system in organic architecture.
Course Video
Speakers Bio
Alfred Waugh, Architect AIBC, AAA, OAA, SAA, FRAIC, AIA Owner, Principal Formline Architecture + Urbanism
Waugh’s diverse and innovative designs have prompted national acclaim as one of the most inventive Canadian architects of his generation. As project designer for Busby Perkins Will, his Nicola Valley Institute of Technology project won a Governor-General’s Medal for architecture in 2004. Both the 2009 Squamish Lil’Wat Cultural Centre in Whistler and the 2010 First Peoples House on the University of Victoria campus have inspired locals and visitors from all backgrounds with their strong form-making and gracious interiors.
Alfred Waugh is one of the few Indigenous Architects in Canada. His firm Formline Architecture + Urbanism is leading the way in defining contemporary Indigenous Architecture. His stature within Indigenous and academic communities was proven receiving a Governor-General’s Medal for the 2017 Indian Residential School History and Dialogue Centre (IRSHDC) at the heart of the University of British Columbia campus. This leading directly to his current work on the Indigenous House for the Scarborough campus of the University of Toronto and the New Central Library for Saskatoon. IRSHDC has been lauded for its integration of building and landscape, the symbolic uses of materials such as copper, and its rising to the challenge of a contemporary Indigenous design, without making specific architectural reference to any one of Canada’s many and diverse First Nations.
Waugh’s creativity and independence are born of his background and education. Born in Yellowknife, Waugh enjoyed summers fishing and hunting on the East Arm of Great Slave Lake. His father, who is of English heritage, is a retired prospector, while his mother, who’s family originated in northern Saskatchewan, is a registered member of the Fond Du lac Denesuline First Nation. Waugh has an undergraduate degree in Urban and Regional Planning from the University of Lethbridge. Graduating with honours, he is the first Full Status person to graduate from UBC’s School of Architecture.
Unlocking Affordable Timber Innovations in Structure, Prefabrication, and Code
Course Overview
Bond Tower is a 7-storey mixed-use prototype that asks a critical question: how can mass timber be made cost-effective in the Prairies, where supply chains are limited, demand is low, and timber construction is often reserved for flagship projects. Funded by the Green Construction through Wood Program from Natural Resources Canada, the project develops both prototypes and a built demonstration to advance affordable timber solutions in a region underserved by the current market.
The design leverages nail-laminated timber (NLT) as its primary system, applied in diagrid trusses, floor assemblies, and shear walls. NLT presents a cost-effective alternative to other manufactured products and provides great versatility due to its custom nature. Lateral and gravity-induced forces are carried by a diagrid timber truss fabricated from readily available dimensional lumber and using simple mechanical fasteners. Floor assemblies comprised of NLT are constructed without a concrete topping or proprietary sound attenuation systems, reducing both cost and embodied carbon. Prefabricated wall panels, stairs, and modular service pods further minimize waste and construction time.
Another challenge lies in building code classification. Currently, all structures above six storeys are deemed high-rise, requiring costly and difficult to achieve [in timber] two-hour fire-resistance ratings and fire-safety systems. The Bond Tower design team, working with code consultants, is developing an alternative solution that leverages the inherent 1.25-hour FRR of NLT floor assemblies. This approach suggests a pathway toward a new mid-rise category, making timber projects of seven or eight storeys more financially viable. Alongside a single-stair configuration, which can increase efficiency by reducing non-rentable floor area, these strategies point to a replicable model for affordable timber construction across Canada.
Learning Objectives
Learn how NLT and prefabrication strategies can reduce cost, waste, and construction time, making timber more feasible in the Prairies.
Explore structural detailing approaches that simplify connections and reduce cost, while addressing fire, durability, and acoustic performance in timber design.
Examine how alternative solutions can improve the financial feasibility of 6–8 storey timber projects and support broader code updates across Canada.
Course Video
Speakers Bio
Sasa Radulovic, AIBC MAA OAA SAA AAA NSAA FRAIC LEED AP Partner, Architect 5468796 Architecture
Sasa Radulovic co-founded the Winnipeg-based practice 5468796 Architecture with Johanna Hurme in 2007. A talented designer, Sasa guides the office in seeking projects that explore density, affordability, and sustainability through non-traditional means and a dynamic design approach. Recent institutional appointments include Visiting Professor-Morgenstern Chair with the Faculty of Architecture at the Illinois Institute of Technology in Chicago.
Ken Borton, MAA RAIC Principal 5468796 Architecture
Developed to support practitioners working with encapsulated mass timber construction (EMTC), this tool helps determine whether a compartment design aligns with the 2025 edition of the National Building Code of Canada (NBC).
By entering key information about your compartment layout—including size, wall configuration, mass timber elements, and encapsulation details—the calculator evaluates whether the design meets code requirements for exposed mass timber elements.
The tool allows users to:
Evaluate permissible percentages of exposed mass timber elements (beams, columns, walls, and ceilings)
Confirm compliance within suites or fire compartments
Identify potential code issues through automated warnings
Visualize compartment configurations with a generated 3-D model
Review encapsulation requirements and supporting notes
This practical calculator helps architects, engineers, and code professionals explore compliant design options more efficiently when working with mass timber construction.
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.
Wood Design & Building Magazine, vol 25, issue 101
Every issue of Wood Design & Building tells a different story about how wood is shaping contemporary construction. Some editions revolve around a clear theme such as our recent issue on strategic additions and adaptive reuse; others, like this one, reflect the diversity of challenges, innovations, and contexts that define wood construction today. What unites the features in this issue is not a single building type or region, but a shared commitment to thoughtful planning, ingenuity, and execution.
We begin in the mountains of British Columbia, where the Robson Cabin project pushes the limits of planning and coordination. Accessible only by helicopter, the remote alpine site demanded meticulous preparation, high levels of prefabrication, and an unwavering attention to detail. Alongside the technical complexity, the construction crew also contended with less predictable site conditions—including a persistent population of porcupines, whose curiosity added a memorable twist to an already remarkable build.
From there, we turn to one of the most sought-after—and often elusive—topics in the industry: cost. Reliable, project-specific costing data for mass timber buildings remains rare, and cost uncertainty can be a barrier to wider adoption of mass timber construction. This issue features an overview of a new mass timber business case study published by WoodWorks BC, which presents detailed cost, schedule, and design data from three projects. By comparing mass timber systems to conventional construction approaches across three building types, the study offers valuable insight into real-world construction costs, decision-making, and the strategies that can bring mass timber into cost parity.
Our final feature takes us to Trenton, Nova Scotia, for a virtual construction tour of the Pictou County Sports Heritage Hall of Fame, a community-focused project being realized through close collaboration between designers, builders, and trades. The one-storey building brings together panelized engineered wood walls, traditional light wood frame construction, and a central mass timber foyer, showcasing a deliberate “right material in the right place” approach. Built using offsite fabrication and carefully sequenced installation, the project demonstrates how coordination and precision can be leveraged to deliver a refined wood building that balances efficiency, constructability, and architectural expression.
Together, these stories offer a snapshot of a sector defined by creativity, technical rigor, and resilience—whether navigating rugged mountain terrain, unpacking the realities of construction costs, or reimagining how cultural buildings are delivered. We hope they inform, inspire, and perhaps even entertain.
Low Carbon Buildings AND Energy Systems? Yes, We Wood.
Webinar – Custom Steel Connections for Mass Timber: Understanding the Basics Step by Step
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