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The typical way to measure carbon emissions is to think about it in terms of geography. You pick a particular place, such as a country or a city. You add up all the emissions that are taking place within its boundaries. And you're then left with a territorial carbon footprint. If you've done any research on carbon emissions or climate change, you've likely encountered this method of accounting for carbon.
But there's a flaw with this logic.
The problem with this method is that it considers each geography to being more or less independent. For example, let's say you live in Philadelphia and you happen to be the owner of something called a computer. With territorial accounting, the carbon emissions associated with you powering your computer would get attributed to Philadelphia and the emissions associated with the actual production of the computer would get attributed to wherever it was made. Let's say it was China.
One of the problems with this approach is that it penalizes the places that make a lot of stuff and it privileges the places that don't make as much stuff, even if they may actually be the consumers of far more stuff. This might make you feel better about your life decisions if you happen to live in a dense urban knowledge economy that doesn't really make anything physical -- but is it entirely accurate?
An alternative measurement approach is consumption-based carbon accounting. The goal here is to capture all lifecycle emissions associated with a particular good or service, and then attribute it back to the consumer that arguably triggered the emissions. In the case of our Philadelphia computer example, the emissions associated with the production, transportation, and consumption of the computer would also get attributed locally to Philadelphia, instead of to China.
This more complex method of carbon accounting -- which is something that the University of Pennsylvania has been working on over here (hence the Philadelphia computer example) -- can be instructive for a whole host of reasons. It also has some relevance to city building.
It is widely understood that building up is more sustainable than building out. Because when you build out, you end up doing things like forcing people into cars. But the other side of this equation is that cities tend to also house a lot of rich people, and household wealth is a massive driver of carbon emissions when you account for them based on consumption. Some would argue it is more important than urban density.
In my opinion, none of this is to suggest that dense urban environments are bad. The point here is that territorial carbon emissions don't fully capture the emissions caused by high consumers who might happen to live in an otherwise efficient urban environment. You can live in a compact apartment and walk to work, but what else are you consuming? And how might these consumption patterns change based on built form?
For more on this topic, check out this report by Daniel Cohen and Kevin Ummel (of the University of Pennsylvania) called, "The case for neighborhood-level carbon footprints."
Photo by Chris Henry on Unsplash
One of the co-founders of Juno -- a new mass-timber and modular housing company -- was recently
https://twitter.com/CarletonU_Arch/status/1349010011947741189?s=20
Next Tuesday, January 19, I am helping to teach the introductory class of a Certificate of Real Estate Development program that is jointly offered by Carleton University's Sprott School of Business and Azrieli School of Architecture & Urbanism. Here is a full list of the instructors and key note speakers that will be participating in the program. Obviously it is all being done online this time around.
One of the great things about this program is that it's a partnership between their school of architecture and their school of business. As you might expect given my background, I am biased in my view that this is a great way to teach real estate development. And it's one of the reasons why I enjoyed my time so much at the University of Pennsylvania. I was free to take classes at whatever "school" I wanted to.
When I later went on to study at the Rotman School, I actually tried to advocate for a better real estate development curriculum and for increased collaboration across the business and architecture schools (both alma maters). The response I got, at least back then, was that Rotman already had a real estate major and that it was fine just the way it was. Cool.
For more information or to register for Carleton's Certificate of Real Estate Development program, click here. I think there are only a few spots remaining.
The typical way to measure carbon emissions is to think about it in terms of geography. You pick a particular place, such as a country or a city. You add up all the emissions that are taking place within its boundaries. And you're then left with a territorial carbon footprint. If you've done any research on carbon emissions or climate change, you've likely encountered this method of accounting for carbon.
But there's a flaw with this logic.
The problem with this method is that it considers each geography to being more or less independent. For example, let's say you live in Philadelphia and you happen to be the owner of something called a computer. With territorial accounting, the carbon emissions associated with you powering your computer would get attributed to Philadelphia and the emissions associated with the actual production of the computer would get attributed to wherever it was made. Let's say it was China.
One of the problems with this approach is that it penalizes the places that make a lot of stuff and it privileges the places that don't make as much stuff, even if they may actually be the consumers of far more stuff. This might make you feel better about your life decisions if you happen to live in a dense urban knowledge economy that doesn't really make anything physical -- but is it entirely accurate?
An alternative measurement approach is consumption-based carbon accounting. The goal here is to capture all lifecycle emissions associated with a particular good or service, and then attribute it back to the consumer that arguably triggered the emissions. In the case of our Philadelphia computer example, the emissions associated with the production, transportation, and consumption of the computer would also get attributed locally to Philadelphia, instead of to China.
This more complex method of carbon accounting -- which is something that the University of Pennsylvania has been working on over here (hence the Philadelphia computer example) -- can be instructive for a whole host of reasons. It also has some relevance to city building.
It is widely understood that building up is more sustainable than building out. Because when you build out, you end up doing things like forcing people into cars. But the other side of this equation is that cities tend to also house a lot of rich people, and household wealth is a massive driver of carbon emissions when you account for them based on consumption. Some would argue it is more important than urban density.
In my opinion, none of this is to suggest that dense urban environments are bad. The point here is that territorial carbon emissions don't fully capture the emissions caused by high consumers who might happen to live in an otherwise efficient urban environment. You can live in a compact apartment and walk to work, but what else are you consuming? And how might these consumption patterns change based on built form?
For more on this topic, check out this report by Daniel Cohen and Kevin Ummel (of the University of Pennsylvania) called, "The case for neighborhood-level carbon footprints."
Photo by Chris Henry on Unsplash
One of the co-founders of Juno -- a new mass-timber and modular housing company -- was recently
https://twitter.com/CarletonU_Arch/status/1349010011947741189?s=20
Next Tuesday, January 19, I am helping to teach the introductory class of a Certificate of Real Estate Development program that is jointly offered by Carleton University's Sprott School of Business and Azrieli School of Architecture & Urbanism. Here is a full list of the instructors and key note speakers that will be participating in the program. Obviously it is all being done online this time around.
One of the great things about this program is that it's a partnership between their school of architecture and their school of business. As you might expect given my background, I am biased in my view that this is a great way to teach real estate development. And it's one of the reasons why I enjoyed my time so much at the University of Pennsylvania. I was free to take classes at whatever "school" I wanted to.
When I later went on to study at the Rotman School, I actually tried to advocate for a better real estate development curriculum and for increased collaboration across the business and architecture schools (both alma maters). The response I got, at least back then, was that Rotman already had a real estate major and that it was fine just the way it was. Cool.
For more information or to register for Carleton's Certificate of Real Estate Development program, click here. I think there are only a few spots remaining.
The third is Apple really challenged us to think about the way we deliver the project more like the way they deliver products through a kind of owner-furnished direct source supply chain model.
And that actually spurred a lot of investigation as to how to translate that work from a product into this industry [real estate development], which is really kind of not focused on that.
So that really was a big, big focus.
The company recently announced that they have broken ground on their first project in Austin, Texas. It is a five storey 24-unit residential project that is being positioned as "middle-income, market-rate" housing. They've reduced the building down to about 33 standardized parts and are using a secret type of mass timber that is manufactured in the US. Supposedly it's better than cross-laminated timber, but the company is keeping it as part of their secrete sauce right now.
Juno is not the first company to identify this gaping problem in the development and construction space. The typical construction process is antiquated, inefficient, and filled with far too much waste. Which is why modular / pre-fabricated housing has been a goal of architects, builders and others for generations. Eventually we will figure out how to better productize the delivery of new housing and bring down its costs. And in my view that will be a great thing for consumers.
Rendering by Engraff Studio via Dezeen
The third is Apple really challenged us to think about the way we deliver the project more like the way they deliver products through a kind of owner-furnished direct source supply chain model.
And that actually spurred a lot of investigation as to how to translate that work from a product into this industry [real estate development], which is really kind of not focused on that.
So that really was a big, big focus.
The company recently announced that they have broken ground on their first project in Austin, Texas. It is a five storey 24-unit residential project that is being positioned as "middle-income, market-rate" housing. They've reduced the building down to about 33 standardized parts and are using a secret type of mass timber that is manufactured in the US. Supposedly it's better than cross-laminated timber, but the company is keeping it as part of their secrete sauce right now.
Juno is not the first company to identify this gaping problem in the development and construction space. The typical construction process is antiquated, inefficient, and filled with far too much waste. Which is why modular / pre-fabricated housing has been a goal of architects, builders and others for generations. Eventually we will figure out how to better productize the delivery of new housing and bring down its costs. And in my view that will be a great thing for consumers.
Rendering by Engraff Studio via Dezeen
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