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Committee members, we are actually on time this morning. It is 11 o'clock, and the clerk has advised me we have a quorum.
Those members appearing virtually have been sound tested, as well as the witnesses.
With that, I will call this meeting to order.
Welcome to meeting number 132 of the Standing Committee on Human Resources, Skills and Social Development and the Status of Persons with Disabilities.
Today's meeting is taking place in a hybrid format.
All witnesses, as I indicated, have been sound tested and are good to go.
I also want to remind participants to please wait until I recognize you by name before speaking. As well, you have the option to participate in the official language of your choice. In the room, use the interpretation on the headset, and please select the interpretation that you will need before the meeting. For those appearing virtually, to avoid disruptions, choose the official language that you wish to participate in.
In the room, please avoid touching the microphone boom as it can lead to sound disruptions, which are harmful to the interpreters. As well, I would remind all those in the room with devices to please turn any alarms or ringtones off, because, again, they can cause hearing issues for the interpreters.
With that, pursuant to Standing Order 108(2) and the motion adopted by the committee on Monday, June 3, 2024, the committee is continuing its study on the advancements in home building technologies.
I would like to welcome our witnesses who are with us this morning. For the first hour, we have Mr. Hans Jain, president, Atria Development Corporation, and Ms. Sabrina Fiorellino, chief executive officer, Fero International. In the room, we have Mr. Ian Arthur, president and chief executive officer, PrinterBuilder Consulting.
We will begin with Mr. Jain.
You have five minutes. I will remind you when your five minutes are gone to wrap up shortly afterwards.
Mr. Jain, you have five minutes for your opening statement.
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Thank you very much for the opportunity to appear in front of you, honourable members of the House of Commons subcommittee.
I am Hans Jain, president of Atria Development Corporation. My family has been in the building development and property management business for over 45 years. We're focused on building traditionally multi-family residential buildings.
We are a fully vertically integrated firm from land acquisition, planning, design and construction to property management and asset management. Our building design process is fairly vigorous. We look for structural efficiency, design efficiency, efficient floor plates and unit sizes, making the overall project more economical, but also allowing for better-designed units that feel better for the people who live in them, who call their apartments home.
We also try to capture cost savings both during the construction process and later on in the building operations, in how we run our building systems. As we're long-term holders of the asset, we're very focused on the quality of what we build and the efficiency long term.
As a company, we're also committed to advanced technologies to meet the challenges that we face transitioning into a low-carbon economy, by building more energy-efficient buildings, reducing the environmental impacts of our construction and creating healthy and accessible environments for residents. Atria has received the Rick Hansen Foundation gold standard award for accessibility across our building stock.
Atria was the first developer in Ontario to incorporate electrochromic glass in our windows. The glass will tint, depending on the amount of sunlight, reducing heat gain and glare, and eliminating the need for blinds. It reduces cooling loads up to 20%. This product is both energy efficient and also provides a better living experience. This was a substantial expense. Each piece of glass has both Internet and power. It can also be controlled by the tenant living in the apartment. This is something that we like to invest in.
Building on this experience, Atria is incorporating geothermal power for both heating and cooling in all our buildings, paired with a high efficiency Mitsubishi variable refrigerant flow HVAC system. It's called VRF.
Currently, we're building two towers in Scarborough Town Centre called the Town Centre Place. This will be the largest geothermal field in Ontario. We've completed that. There will be two towers of 30 and 40 storeys. This continues with everything from our appliances, the plumbing fixtures....
We also use SmartONE technology, which allows residents to control features such as temperature, lighting and security from their mobile app. Again, it's providing efficiency, and the technology also provides comfort and control with the individual homeowner.
We're also exploring ways to further reduce our carbon footprint in our building operations and also material use. We are in the process of doing one of the largest mass timber rental buildings located in Oshawa, Ontario. We'll be purchasing that mass building structure from Element5 located in St. Thomas, Ontario. The exterior panels will be state of the art, and they'll be manufactured off-site by UnitiWall, which is the latest technology for exterior wall panels. We think that's where there will be adaptive reuse of our project, but we're also adding nine storeys of mass timber structure.
For context, originally we had designed the structure in concrete and steel—traditionally—but given that the weight of concrete and steel is heavy, we could only get six storeys. With mass timber, which is lighter, we were able to move to nine storeys and add an additional 70 to 80 units to the project. It also will speed up the process and the timelines. I think that manufactured solutions with technology is something that needs to be focused on and adapted.
Just to let you know, with the strategy of adaptive reuse, where we take old buildings, we converted an 1896 YMCA into 136 rental units, and we completed another building from 1879 in Peterborough also. We have a practice where we take old buildings and convert them into residential units. We think that's another aspect of moving development along.
I would like to start by thanking this committee for giving me the opportunity to speak. It is an honour and a privilege for me to be here, and I commend the hard work you're collectively doing.
My name is Sabrina Fiorellino. I'm the CEO of Fero International Inc., a volumetric modular building company located in Stoney Creek, Ontario.
Fero operates a 300,000-square-foot manufacturing facility, the largest modular manufacturing plant under one roof in Canada. Fero delivers state-of-the-art volumetric modular infrastructure to the health care, educational, residential, industrial and commercial sectors. Europe and Asia have been using modular construction for over 50 years, and this technology has up to 80% market penetration in some countries. It is often under 3% across North America.
To build the modular industry in Canada, we need to begin by addressing three topics: procurement barriers, public perception barriers and speed barriers.
I'll start with procurement. Existing procurement practices are the single biggest barrier to the success of the industry. In Europe, at the inception of the modular industry, the government was the first to adapt the groundbreaking technology through the procurement of modular projects. The European modular sector is now booming, and the private sector has widely adopted its use. In Canada, there are very few modular construction projects procured by governments.
I was recently at a housing conference where a government official referenced the EV sector. They said that all levels of government work collaboratively to financially support the EV sector, because “Who would come here and spend tens of millions of dollars to build a factory with no support and no guarantee of orders?” Well, that's exactly what the modular industry has done. Our industry needs government to be more innovative in procurement so Canadian modular projects can answer current infrastructure challenges, such as housing. Doing so will greatly improve the timelines required to emerge from the crisis we currently face.
We recommend a modular-by-default procurement approach. Using this approach will send a signal to the market that governments are serious about seeing innovation and change. By creating a large pipeline of projects is created in all sectors, the housing sector will benefit in the long run and economies of scale for affordable housing will emerge.
In addition to modular-by-default, progressive procurement models that account for deposits, appropriate payment milestones, factory acceptance testing and more need to be considered. We believe these progressive procurement models make standardization of design less important, because they allow modular builders to be involved in the design process from the beginning. There are many architects and engineers who have over 30 years of experience. They are willing to work with those who are newer to the industry.
The need for industry support leads me to my next point: public perception. In Canada, there's a negative public perception that modular construction is inferior to traditional construction, a perception that does not exist in Europe or Asia. To educate the public, we believe governments need to send clear messages to Canadians regarding the benefits of modular, including speed, cost certainty, quality, sustainability and safety. One way to do this is governments being the initial adopters of the technology. This will have a domino effect. As more successful projects are delivered, more adoptions will occur in the marketplace, and secondary support industries will evolve in, for example, finance, insurance and surety. Additionally, Canada's modular construction industry should be considered an integral part of the mandates of economic development, job creation and trade across the country, in order to advance economic growth and innovation.
This brings me to my last point: speed. Speed is required to get us out of our current crisis. Modular can answer that call, but not alone. With productivity in the global construction industry declining as much as 8%, speed is even more critical. One of the biggest advantages of modular construction is speed, which inherently reduces costs, especially financing costs, in today's environment. With delays occurring outside of the control of modular manufacturers, the benefits of speed can be lost. These delays increase costs, which are ultimately passed on to the customer and in turn make housing unaffordable. In an environment where costs are already high, in part due to development charges and other fees, the need to keep costs down and maintain speed is critical.
One example of where speed has deteriorated is in codes and regulations. In Europe, where some manufacturers can produce a module every 37 minutes, the building codes are, for the most part, uniform. Canada has varying building codes federally and provincially, as well as additional conditions imposed by municipalities. As improvements are made to create greater consistency, we also need to determine how these standards are applied uniformly by inspection agencies. Other barriers to speed include zoning bylaw amendments, site plan approvals and building permits. These often take three years or more to obtain, and landowners incur additional carrying costs on lands. Overall red tape and complex legislation, such as transportation legislation, make it difficult to achieve any efficiencies in modular building.
It is only when modular is used to its full potential that we can take true advantage of this new technology, including AI and automation, and we realize all the benefits that modular construction can provide to create greater affordability.
Thank you.
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Good morning, everyone, and thank you for having me. I'd like to thank the committee for allowing me to appear and speak on the advancements in home building technologies.
My name is Ian Arthur, and I am the founder of nidus3D and PrinterBuilder Consulting. I oversaw the construction of Canada's first 3-D printed homes, as well as the first two- and three-storey printed structures in North America.
Our buildings are strong, resilient and beautiful, and built to net-zero ready standards. Our goal is to transform the build process and in doing so, dramatically increase the speed of delivery of affordable, beautiful homes. Using a first principles approach, we are stripping away unnecessary complexity and rethinking every aspect of the process of how we build homes.
This is because, while we need to look at every avenue possible to increase supply, at the heart of our housing crisis is a process issue. We will not be able to subsidize our way out of this crisis. We build homes with hundreds of materials, thousands of components and tens of thousands of process steps. Each step is performed by dozens of different labourers working for many different companies. Each part of this drives up costs, timelines and inefficiencies. The structure of the sector is fragmented and, by this very nature, conservative and resistant to change. It prevents a whole-of-building approach and resists the introduction of new methods and technologies. As a result, it is one of the least technologically disrupted sectors on the planet.
We are, though, beginning to have an opportunity to change this if we move decisively. Global demand for housing is spurring innovations that have the potential to meaningfully increase the supply of housing with rapid, repeatable processes. By using advanced automation and 3-D printing, we can cut through the complexity issues, reducing material requirements, labour costs and, most importantly, process steps.
I'm starting with 3-D printing, although honestly, I'm technology agnostic. I would use any tool that allows me to advance the speed and quality of home delivery. 3-D printing, though, is the first technology I've found that fundamentally begins to address this process complexity issue, and we must act soon. Canada is already behind in the development and implementation of new building technologies. We are lagging behind the U.S., Europe and Asia, and it gets worse every single day. We are slow to look at disruptive technologies, and we tend to have a wait-and-see attitude until it's proven elsewhere before attempting it here.
There is a near infinite amount of support for small-scale pilots in Canada. We love them. They're great headlines. They're fairly easy to pull off. What we are missing to meaningfully move the needle on housing supply is helping companies scale production to the level that will actually increase the supply of housing in Canada.
Exacerbating this issue is the political desire for solutions that fit into election cycles. The crisis is incredibly complex and has millions of moving parts. What we need from the government is consistent policy that extends from mandate to mandate and from party to party, and allows us to bring in new technologies that are complex, expensive and hard to deliver initially, although they have a huge amount of promise in the long run.
An example of this is a near singular focus on modular. While I believe it has a role to play in the future of housing, we need to not put all our eggs in one basket. We need to apply “best fit” technologies where they're best used. I think 3-D printing, modular and other forms of robotic, automated construction are all part of that solution.
I will briefly address two of the common points of resistance that are often brought forward when automation and 3-D printing are brought up, particularly in the realm of housing.
One is the potential loss of jobs commonly associated with automation. While automation construction will disrupt the sector, it will continue to grow as a key employment industry. The scarcity of skilled labour and the demand for housing underpin the need to aggressively recruit into this sector. The tools may change—we used to dig holes with shovels, and now we use excavators—and a 3-D printer is, honestly, just a bigger tool. It still needs incredibly smart, skilled operators to run it. I believe the jobs will change, and I believe the introduction of new building technologies is actually a wonderful opportunity to recruit new people into the skilled trades and convince a new generation of youth that this is a fantastic career path they can pursue.
The other point of resistance I will briefly address while I have time is this. Because I use concrete as my building material of choice—the embodied carbon of the material itself—I would urge the members to understand the need to separate the technology from the product that is actually being extruded.
We need to decarbonize the concrete sector. It's one of the worst polluters on the planet, and there are incredibly smart people working on this. I am working with companies from across Canada and around the world to deliver materials that are significantly lower in terms of embodied carbon, and there is a path to carbon neutrality. The process, though, of using 3-D printing to construct housing should and can be agnostic of the material that goes into it.
With that, I'll conclude my remarks, and I look forward to questions from the committee. Thank you very much.
Thank you to all the witnesses.
That was great stuff and very interesting. We've heard a lot about the amazing new technologies. We've heard about 3-D printing. We've heard a lot about modular housing. I've had the opportunity myself to visit some of these factories, and they're amazing.
I'd like to start with Fero International, and Ms. Fiorellino. You spoke about the biggest delays. I couldn't agree more with you that we need to ramp up and scale up the development, which could really increase production in your facility, I'm sure. You specifically mentioned codes, regulations, zoning bylaws and the development approvals process.
I'm wondering if you could speak a bit more to the cost of the delays. You could build a lot more homes, but you don't have a place to put them. That's a big issue. How much could you reduce the cost of every unit, for example, if the development approvals process, which includes huge fees like development charges, was reduced? What are those costs? What's the impact on the cost of every unit?
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If you take our square footage cost and then add development charges, fees and the cost of land, etc., our costs end up ultimately being less than a third of the overall cost. The longer the process draws out, the more the rest of the ancillary fees accumulate, and then it also slows down production in our plant.
I can give you an example, and we're probably not proud of this, but we built an outpatient clinic in western Canada. We finished the entire building at the request of the health authorities, and it sat in our plant with no building permit for months. Ultimately, the building permit issue got resolved. The building was delivered in five days, craned off the trucks in one day and operational very soon after that.
Delays naturally add costs and customers' incurring additional storage fees and additional fees for the general contractor who's waiting, and they're asking for standby fees. You can see how costs balloon in every instance, whether it's housing or health care or other infrastructure, when things slow down at the permitting level.
Thank you to the witnesses.
Our study is on advancements in home building technologies. I would note that we've already conducted a study on the impact of artificial intelligence technologies on the labour force in Canada.
Mr. Arthur, you talked about labour. If I understood you correctly, Canada is lagging behind in advancements in building technologies, which will have an impact on the labour force, but future developments will enable us to recruit new workers. However, the workers' representatives we heard from said that workers are also part of the solution and that training is an important element.
How do you think the current workforce will help bring about change in the construction sector?
Thank you to all of the witnesses for being here.
Just before I begin, I want to say that based on the motion that the NDP member, Ms. Zarrillo, put forward, I'm really glad to hear that she's supporting a Conservative bill from last June called the fairness for flight attendants act by MP . Conservatives take action, so I was really glad to hear that the NDP member is supporting our Conservative legislation.
I'll now move on to questioning. My first questions are for Hans Jain. You wrote an op-ed for Toronto Star last year entitled “Creating of affordable rental properties requires better financing”. In it, you wrote that “Developers...are challenged by the low predictability of outcomes when applying under CMHC's funding initiatives”, and that the CMHC policies are “inconsistent with the norms of real estate financing.”
At a time when building starts are actually down, and innovation in home building is required, do you believe red tape and bureaucracy from the federal housing agency are making it harder for builders like you to build affordable homes?
Welcome to all the witnesses.
I'll start with Ms. Fiorellino.
Ms. Fiorellino, I'd like to pick up where you left off with regard to the guarantee of orders and the commitment of all levels of government to invest in modular housing in order to drive innovation. I look at our rapid housing initiative, which was born out of the pandemic. You referenced procurement, and the procurement process for the RHI required that non-profits and municipalities build those units within a 12-month to 18-month time frame. Through three rounds of that program, I think we're up to almost 16,000 units, the majority of which are modular.
I see that almost as the only program in the country that's invested money into the modular industry through municipalities and non-profits. I can't think of another provincial program. Can you provide recommendations to us here at the committee that kind of speak to that issue in terms of a guarantee of orders, driving innovation, and driving the purchase of modular units through your business and others?
The more procurement there is in general, even outside of housing, the better it is for the modular industry as a whole. When the rapid housing initiative came out, Fero was in its infancy, so we weren't able to bid on that. I think some of our other witnesses referenced the point that we don't need pilots but that we need big procurement projects to prime the pump. I mentioned that Fero has 300,000 square feet of manufacturing space. We can build hundreds of thousands of square feet of infrastructure, year over year. When every level of government looks at procurement, they look at it from a modular-by-default lens. My recommendation is to say “Why not modular?” versus “Why modular?”.
We have a lot of builders across the country, especially some of our larger infrastructure builders, that are full for the next five years and have no more capacity to build. We need to look at alternatives. You mentioned something about scale and technology. You can only really look at the real benefits of the technology at full scale. We have automation equipment. We use AI in our processes. However, if we're not operating our plant at full capacity, we don't also get the full benefit of that, which is more speed and, obviously, more affordability.
I would argue that today we have more of an affordability crisis in housing than a supply crisis. We can build; we just can't build at a cost that's feasible for people to buy. The more work we get, the more we can drive costs down.
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Thank you for your question.
I think the interest-free loan program that FedDev issued is very helpful. Like our previous witness said, we had to provide private sector funding alongside government funding, so there was 60% more private sector funding with a plan, metrics and testing to ensure that we are meeting the plan; otherwise, funding could be scaled back. That was very important.
Also, having orders.... I go back to priming the pump again. It's not just about scaling the plant. We can build big, beautiful plants and hire a lot of employees, but without work, none of it matters. Therefore, our targets for funding also related to how many orders we could put through the plant or the scaling of revenue in addition to the scaling of the labour force.
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Thank you, Mr. Chairman.
Honourable committee members, thank you for this opportunity.
My name is Carol Phillips. I'm a partner at Moriyama Teshima Architects. Our work centres on designs that celebrate community identity, embrace sustainability and create pride in our built environment.
For the past seven years of my 30-year career, I have been embedded in realizing large-scale projects that prioritize mass timber construction and net-zero carbon emissions and leverage the potential of prefabricated building components.
These include a 10-storey college at Toronto's waterfront and a commercial headquarters building on a ravine, and these have led to an 11-storey rental housing project proposed on top of an abandoned federal post office and modular elementary school projects, among others.
Of these many advanced technologies, I would like to particularly focus on mass timber and how it can play a role as Canada addresses its housing shortage while also supporting our environmental, economic and social goals.
Mass timber is an engineered wood product that offers a structural alternative to, and can work in concert with, concrete and steel. It is manufactured by laminating standard lumber pieces into massive beams, columns and floor and wall panels.
First emerging in Europe in the 1990s, the technology has been in use there pervasively for 25 years. It is durable, lightweight and, crucially, it stores carbon rather than emitting it, making it an effective way to reduce the environmental footprint of new buildings.
Canada already has a growing capacity to produce mass timber using locally sourced wood from provinces like British Columbia, Alberta, Quebec and Ontario, positioning us to be a global leader as demand grows and embodied carbon reduction in our materials is required.
This industry is uniquely suited to Canada, which is 40% forests, and where 90% of our forests are on Crown lands, managed and regulated provincially and by territorial governments. These forests, as the fires demonstrate, need management while industry needs supply. There is an opportunity, then, for a mutually sustainable human-nature relationship.
In mass timber buildings, architects and engineers work collaboratively with builders and manufacturers, leveraging the potential of digital technologies for direct communication between design and fabrication software to produce building components that literally click together.
Mass timber is factory produced and accurate within a millimetre of tolerance. Its lightness makes it an ideal candidate to intensify by adding to existing buildings, and for quality control, its kit-of-parts approach allows for rapid deployment and risk reduction. It's a natural for the six- to 18-storey residential building scale, which is the missing part of many urban centres and one that suits many growing communities. It's beautiful and renewable, and, just as our trees are not the same across Canada, timber construction allows for the possibility of a regional expression in our diverse nation.
To unlock mass timber's full potential, we need to address some things.
One is procurement practices in public buildings. The design, bid and build approach doesn't support the flexibility needed for mass timber projects. Embracing collaborative methods, such as construction management, streamlines project delivery.
The second is inter-ministerial coordination. Greater collaboration across federal, provincial and even municipal levels could drive timber adoption. A national, multi-level task force could align policies and lead to the necessary standardization that is required to truly scale the industry.
Next is building codes. Shifting from prescriptive to performance-based building codes would allow mass timber to be used more freely.
The final thing is incentives. To innovate is to do something that you or others have not done before. Governmentally shared incentives, such as tax credits, paid premiums for prototypical projects or grants, could accelerate industry innovation by funding manufacturing or growing professional skills.
Mass timber construction is also about fostering a safer, more inclusive and resilient construction industry. Prefabrication leads to safer work environments; opens more accessible job opportunities, including for women; and creates pathways for engagement with indigenous communities and sustainable forestry and manufacturing. It is faster and quieter, which means it has less impact on communities while addressing the housing shortage.
Finally, mass timber's benefits resonate with a broad spectrum of priorities, providing a pathway to meet climate and environmental goals while supporting Canadian-made industrial solutions that strengthen our economy. It is aligned with job creation, worker safety and social equity, and it is a Canadian solution that is rooted in leadership, notably in Quebec and from coast to coast.
Thank you.
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Good afternoon, Mr. Chair.
I'm David Moses, principal and founder of Moses Structural Engineers in Toronto.
As structural engineers, our role is to support architects and builders during design and construction. Our company's focus has been to bring new products and technologies into the market that can provide alternatives to traditional methods of construction in many types of buildings, including single-family homes, apartments and condominiums.
Over the years, we have had the privilege of working with government and industry partners to develop guidelines and training programs for architects, builders and even other engineers. We have a demonstrated commitment to the next generation of designers and builders with our cross-Canada student design competition called TimberFever that we've run for 10 years now, which is aimed at breaking down barriers between the design consultants and the people who build our buildings.
I have two points to make today. My first is that it does take a long time in our industry to make changes, especially when it comes to new technologies and getting them into the market. Testing and approvals are required to limit the risk to public safety and also to limit the potential for liability for damages if the technology does not work. Building codes and testing approvals provide us with the reassurance we need, since buildings must work the first time they are built.
As a regulated profession, engineers have a duty to hold public welfare paramount, so we prefer known and approved products and systems; however, the building standards do allow engineers to design novel systems, provided that we can demonstrate that they perform safely and meet the foundations of the building code. To echo my friend Ms. Phillips, mass timber is a very good example to prove that point, although there are others.
I worked on the first cross-laminated mass timber building in Canada, which was built for the 2010 winter Olympics in Vancouver. This was before there were any Canadian manufacturers of the product, so the product came from Europe. We worked closely with European engineers, reviewing their methods of analysis and reviewing the research that they had done for many years, but the regulatory approvals in Canada didn't come until 2020, 10 years after that first building was completed. Regulatory changes are slow and incremental.
In 2012, a joint Canada-U.S. standard was released for CLT, cross-laminated timber. In 2013, a Canadian design guide was created. In 2016, a CSA standard was released. Finally, in 2020, 10 years later, the national building code adopted the changes that included cross-laminated timber.
Ten years seems to be the cycle that we are seeing. However, even though that code may take a while, many buildings were built in that period thanks to the government investments in commercial and academic research in that time as well as the efforts of many companies like our own who were willing to put their time and money into research and development. Once the building code does change, of course, the doors open for many others to adopt these new ideas with less cost and less risk.
My second point is that strategic investments by government do work. For example, easy access to research and development funding for manufacturers and consultants does have a direct impact on getting the products to market before the codes change. Demonstration projects do make a difference when the funding comes in a timely manner, because those demonstration projects become inspiration for others, and they become a living example that other people can visit, touch and see for themselves.
In addition, interim government policies between code cycles can also speed the adoption of new ideas and new technologies into the market much faster than the codes can.
I believe we can also improve speed by starting to pay the engineers who are members of these standards committees who volunteer their time on a part-time basis to get them to focus on the matter at hand and bring these changes much faster.
Another area that we could consider as well would be to fund design assist activities where suppliers can get their products in front of the decision-makers early on in the design process.
Finally, although not in my direct area of concern but a broader concern that we heard here just a few minutes ago is for modular building construction where perhaps we could consider creating a government pool of funding that would guarantee cash flow for modular factories during the construction cycle to help ride the ebbs and flows within their industry and not lose the precious investments in those facilities.
I'll leave it there and I look forward to your questions.
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Thank you Mr. Chair and thank you to both witnesses.
I was going to say, very quickly, Ms. Phillips, that I'm familiar with some of your projects and they're beautiful. It's a treat to meet somebody who's designed something like that.
I'm sorry, Mr. Moses. I'm not familiar with your projects, but I'm sure they're beautiful as well.
I want to focus on the challenges that we face approving new technologies. You've both spoken about this. I'm a big fan of mass timber. In my previous life, I spent a lot of time with the forestry industry that supports this kind of mass timber stuff. I love it; I think it's great.
Kevin Lee was here speaking very specifically about housing and the challenges related to the Canadian Construction Materials Centre and how slow it is to approve new technologies.
I'll ask you both if you can briefly speak to this.
What specific reforms do you think could be introduced to the Canadian Construction Materials Centre to reduce the time and cost required for new technologies to be recognized as acceptable code solutions while maintaining safety and quality standards?
I'll start with you, Ms. Phillips, if you could give me your top two things that you'd change.
Mr. Chair, before I begin my questions, I'd like to put forward a motion that I provided notice for on October 22.
Canadians 65 years of age and older currently represent 19% of our population, and by 2043 it's estimated they will be around 25% of the population. That represents an increase from approximately eight million seniors to 11 million seniors.
The major demographic shift is always causing, and continues to cause, further strain on Canada's social and health services, which seniors especially rely on as they age. Further, according to CMHC, seniors are increasingly living in their existing homes longer as they age, ultimately contributing to the rise of naturally occurring retirement communities, and I believe the rise of naturally occurring retirement communities, or NORCs as they are known, provide an opportunity for the government to adapt, innovate, and support care delivery systems for seniors that both meet seniors' needs and enable extended aging in place and help provide early indicators that result in health care cost savings for governments.
Now, as an example of the potential savings involved in adapting programs to service NORCs, I'll reference a case study of a NORC-based home care model piloted in Waterloo, Ontario.
The NORC Innovation Centre estimates there is a 44% productivity gain for personal support workers. In Ontario, if they were to move to a NORC-based home care model and achieved half of the productivity gains of the Waterloo pilot, the organization indicates that it would translate into 755,000 hours or $26.7 million in PSW services for Ontario home care systems annually, which would allow for more clients to be served within the budget constraints.
With that in mind, I would like to move the following motion:
Considering that Naturally Occurring Retirement Communities (NORCs) allow seniors to age well at home and with dignity, the committee agrees to undertake a comprehensive study on NORCs. The study will examine the benefits to seniors’ health and social well-being and pay particular attention to the cost-savings for care delivery; the study will further examine how the government can help address the existing Canadian research gap with regard to NORCs and their impact; support existing NORCs; adapt and/or develop programs and strategies to support care delivery to NORCs; and that the committee invite to testify leading subject matter experts; that the committee hold a minimum of three meetings; and that the committee reports its findings and recommendations to the House; and that pursuant to Standing Order 109, the committee request that the government table a comprehensive response to the report.
I know that this was put on notice, and I would like to move an amendment to this motion.
Basically, when we saw this go on notice, we had to look up what this was. It's very niche, and I think that's probably the whole purpose of it. However, we'd like to broaden it a little more, while also including this as the priority. We can circulate the amendment.
I'd like to move the following amendment, that we add after "Considering that", the wording “retirement housing options for seniors, including” in the first sentence, and then at the end of that first sentence that we would add the words “including how they compare to other options.”
I'll read what the first sentence would look like. It's not to remove any of what you have. It would read:
Considering that retirement housing options for seniors, including Naturally Occurring Retirement Communities (NORCs), allow seniors to age well at home and with dignity, the committee agrees to undertake a comprehensive study on NORCs, including how they compare to other options.
I think it's a very reasonable request, and I would hope that we could easily move forward with that, as it would actually encompass looking at how these fit in on the bigger retirement options.
Mr. Chair, we've circulated the amendment.
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Yes, I understand that we are now debating the amendment. I don't necessarily oppose the amendment, but I must say, with all due respect, that I am against Mr. Van Bynen's motion.
This is indeed a very specific topic. I don't see how such a study would enrich or support our committee's work. Let me explain.
Naturally occurring retirement communities are a very specific formula that exist in very specific places. For my part, I can talk about seniors living in residences, regardless of the type of housing involved. The term is different in Quebec. Regardless, all these issues really fall under provincial jurisdiction.
Studies have been done on those communities and on the benefits of keeping people at home as long as possible in terms of health care.
Honestly, with all due respect, I don't know where such a study would get us.
Yes, an amendment to the motion has been moved, but I disagree with the substance of the matter.
:
I think there are some really good things that are happening right now in the availability of funding for parts of the sector. I know that the consultants rely heavily on the SR and ED—the scientific research and experimental development program—to help with the self-education that's happening. Without that, the process would be much slower.
I think that, if we were just talking about funding and not a study, demonstration funding makes a big difference for developers who are considering using a new technology because it helps take the edge off the risk, knowing that there's going to be some buffer that might offset the incremental cost for them. Currently, demonstration funding is occasional. It's not reliable, and if there were just a permanent pool of money available to allow for these innovations to take place—and, obviously, through a vetting process and with certain criteria—having that would make it more permanent and predictable. Right now, when these funding programs happen, they happen for just a very short period of time, but the life cycle of a building, from the time that somebody thinks of the building until it's completed, is years. The current programs, if they happen to be timed correctly for that project, they'll get it, and that's just too much of a risk for most building developers to consider.
:
I'm sorry; I lost a bit of the interpretation, but I think the question had to do with roles and job opportunities throughout the industry.
Certainly, I'm an architect, but the way we are working now in these innovative fields is that we have to work more like an ecology. We have to work with the tradespeople, we have to work with the skilled trades and we have to work with the builders. We don't necessarily, in a way, see ourselves as just providing the professional services; we actually are part of a much bigger network of individuals who understand the technology.
Within our practice alone, certainly the skills of being able to use the evaluation software, such as LCA and LCCA—life-cycle analysis and life-cycle cost analysis—helps us speak to our clients and helps them make decisions when it comes to choosing the right materials for their process. Streamlining the process and getting the design right in the first place involves us working directly with engineers, builders and the skilled trades to understand where our designs might have limitations for manufacturing. This has directly to do with understanding how we all work together.
Certainly, as others have said, there is a major lack in the skilled trades right now. With automation, with robotics and with more software-driven manufacturing methodologies, there is room for everyone, including those who don't necessarily have the physical attributes to actually work in the trades in the way that they used to.
Thank you.
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I would say that perhaps the most sustainable building is the building that already exists. If we can adaptively reuse some of our assets and improve upon them, expand them and change their function, that is probably the most direct approach to achieving our most sustainable approaches in buildings.
While of course we want to innovate and build new, and our standards have obviously changed, when we have quality construction that already exists, if we can adaptively reuse that construction, that is one of the most important things that we should be looking at first, rather than demolishing and filling our landfills with more debris.
In the case of the project that I'm involved in right now, this is a federal post office that has good bones. It has a steel structure. Because of the use of timber, we are able to add to it without improving upon the foundations. There's a little bit of strategic work that needs to be done to reinforce some of those foundations, but it is actually quite limited. The lightness of timber allows us to actually build on top.
I think this has huge potential. Certainly, I am from Toronto and I can look down main streets that have two-storey buildings and I have to wonder whether or not those can take another two or four storeys on top of them to intensify our city, so that we have more of a six- or eight-storey fabric all through our main streets rather than having two storeys and then 40 storeys. I think that there is what I call a missing middle and the project that I'm working on right now has that potential.
I also think that when we take away our built heritage, we take away the history of those communities. We take away the fabric that was there that gave those communities identity. When we have heritage buildings that actually help to give identity to a community, but because we can't find a way to reuse them we end up taking them down, we erase something of our history.
Certainly, in this day there are parts of our history that we really need to relook at, but I don't think that a post office is necessarily one of those areas that we need to completely rethink. If it gives character and if it gives history of the people who worked and lived in those communities—there are stories embedded in that community—it gives identity and a sense of pride to communities if you can continue to keep that built heritage and continue to grow upon it while providing needs for others.
We have learned that by using innovative technologies, such as not only mass timber, but also prefabricated wall panels, we are able to come in close to heritage buildings and be able to actually adaptively reuse them. We have quality control that is built off-site and then just simply craned into place.
One of the projects that I'm working on in Toronto is a 225,000-square-foot building. Its entire structure was erected by seven people and one crane at a rate of about 10,000 square feet a week. That doesn't mean that's reducing jobs because those jobs have just moved to safer environments. They're now in the factory. They're not out in the weather and in the wind. You're actually producing things in controlled environments. It speaks to quality and safety, and then a much cleaner and easier erection of the structure. It doesn't plug up the city and it doesn't act—
I'm done. Thank you.
:
We can certainly refer to a number of studies.
David, you may know a little bit more about that.
There are a number of studies—some that originate in Finland and others that are in Japan—that speak to a phenomenon called biophilia where we, as human beings, actually have positive responses to natural materials. It lowers our stress levels.
There is a study that I've heard of—I don't know the source; perhaps you can find it. It was done by the Department of Defense in the U.S. This is a very interesting study because they were looking at stress reduction specifically in the military personnel, which is a huge issue. They were looking at mass timber and natural materials in your everyday environment and how it actually helps to reduce levels of stress in your daily occupancy.
These are studies that perhaps I can help to source. Definitely there are studies out there that speak to wellness, which actually contribute to that.
We talk about mass timber; it's something we've specialized in, but we see a lot of other products in steel and concrete that are coming forward that are really providing good solutions as well. And now we're looking at combining them all and making these hybrid structures.
If we want to talk specifically about timber, I think we have dispelled a lot of these myths. If you want to talk about fire, we have excellent fire engineering that happens now, which just didn't exist before. But we have existing over a hundred-year-old buildings. One of my office buildings we're in is just over 100 years old, and it's all timber. It's nail-laminated timber, which has worked just fine all of these years, but we went away from it. Now it's a renaissance and we're coming back to it. But when they built those, they didn't have the same technologies we do now. We talk about encapsulation. We have active fire sprinkler systems and other technologies. That part of it, I'm comfortable with. That's where a lot of the research and energy has gone into developing it.
As for the other items, yes, we are always concerned about moisture during construction, but that's also countered by our surrounding the building and closing it in it rains during construction. Let's close it in faster. These prefabricated systems actually address that because the buildings go together so much faster.
And I'm sorry, were there other—
I think it would be good for that to be in the record of the report, because it's important that it has come a long way over the last few decades, to become such a resilient resource.
Ms. Phillips, you talked about its being a Canadian solution, which I think is a great thing. Every province and territory having their own approach to it and uniqueness, I think, is also a good thing.
You talked a little bit about setting up this committee. Every province and territory, as you know, has different codes and different standards. We've heard from witnesses who talked about how even procurement approval for design, permitting processes and codes are all over the place in the country.
The committee that you mentioned, this task force, would it be made up of different members throughout all of the provinces and territories, different municipalities, the federal government? How do you envision its being organized?
:
Thank you for the question.
I think it could happen at a couple of levels.
In a province, if you look at the tiers of government.... I can give you an example. For instance, if you pick a sector, right now, we're looking at a kit-of-parts elementary school. The provincial standards for space allotments that dictate how much space per child is given to a school don't speak directly to exactly what David was talking about—the economically viable manufacturing dimensions. It comes down to numbers and space. You are precluding technology being advanced, because you're embedding inefficiencies in that. You've given a certain kind of dimension to a room that just doesn't work with the manufacturing in an economic way. If you can get those conversations happening with the manufacturers, you could also get the provincial regulations speaking to the municipal, and understand the federal initiatives, as well.
I think it could work within a province, but there needs to be interprovincial dialogue to help the different industries across the country. There are new factories coming up now in New Brunswick and Nova Scotia, and there is certainly an embedded, robust industry in Quebec and a robust industry in British Columbia. How do we bridge right across...? Is ask this because the forest bridges right across the country. There is potential in that economic engine, and it's renewable.
We have less than two minutes. Is it the will of the committee to adjourn?
Some hon. members: Agreed.
The Chair: Okay. It's the will of the committee to adjourn. The committee will meet again on Thursday.
With that, I want to thank the witnesses.
Thank you, Ms. Phillips and Mr. Moses, for your testimony before the committee today. I really liked your testimony on old buildings. We seem to have a notion in Canada that it's no good unless we tear down and build totally new.
The committee is adjourned.