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While increasing the sustainability of concrete has understandably been a key focus for the construction industry, it鈥檚 not the only one. There鈥檚 also been a lot of discussion about the the industry produces worldwide. It鈥檚 a growing problem that hasn鈥檛 shown signs of slowing down. And it鈥檚 led industry professionals to talk more about solutions.

After all, the number of resources being used up and left for waste is quickly outstripping how much material the planet can regenerate.

To prove this, the non-profit organization showed that each country would need multiple Earths to use up to cope with the amount of consumption occurring. The United States of America (USA) would be the highest, requiring at least 5.1 Earths. Just under that were Australia and Russia, which would require 4.5 and 3.4 Earths respectively.

But circular economy solutions can combat this concern. They provide people in all industries with an approach that centers the need for waste and pollution elimination and repurposing used materials.

While it does require an overhaul to how many construction projects are handled, it could be to do so. For instance, Holcim鈥檚 CEO, Jan Jenisch, notes that it could reduce more than 30% of building carbon emissions and increase the number of job opportunities.

It鈥檚 an appealing thought. But how could those of us in concrete construction contribute to making it happen?

A rectractable measuring tape has been pulled out near safety glasses, a hard hat, and paper. All of which are lying across blueprints for a construction project that will use circular economy solutions.

The Best Way to Start Is at the Beginning

How you approach your construction design from the very start will dictate how well your project will meet circular economy standards.

While Compelling, the Typical Starting Approach Won鈥檛 Cut It

Under the current construction climate, the typical approach is more about making a structure as durable as possible with sustainable products.

The hope there is that the structure will last for a lifetime and that when it does need to be demolished, it provides at least some items that can be reused. But that leaves repurposing materials to the end of its design, allowing more waste to be created than there needs to be.

It鈥檚 not an approach that all professionals want to adhere to, of course. But there are a number of barriers in place making it harder to change. A 2021 study on the USA region from the highlights some of them:

  • Lack of awareness of circular economy solutions
  • Poor clarity on what circular economy solutions are
  • Obstacles from existing codes and regulations
  • Concerns surrounding the durability and resiliency of reused materials
  • Time and cost concerns
  • Lack of leverage to change a project鈥檚 approach
  • No standardization and transportability of building components
  • Difficulty with comparing the circular economy to other sustainable strategies

In short, it鈥檚 a systemic issue. The USA construction industry as a whole has yet to incorporate circular economy solutions into their standards.

They鈥檙e not alone either. With the rate of waste the construction industry produces worldwide, it鈥檚 clear that circular economy solutions have not yet been adopted globally.

Because of that, the industry鈥檚 current approach is more accessible. There鈥檚 less uncertainty about its execution or the time and cost involved with it. And none of the current codes and regulations will interfere with it.

But that fact ignores that all industry changes take a little getting used to and that the amount of construction waste currently created is unsustainable.

What鈥檚 more, a circular economy approach could very well in the end. After all, with its focus on eliminating waste at the start of construction, it minimizes the money spent on waste removal.

It鈥檚 true that getting to that point will be challenging initially. But once it鈥檚 standardized, it will be a much less significant concern. Someone just has to take that first step.

Consider a Design for Disassembly Approach

One of the best ways to ensure waste reduction doesn鈥檛 fall to the wayside of your construction is with a approach. It鈥檚 a concept that emphasizes designing and planning a building from the start with deconstruction in mind so that its materials can be easily reused for future construction.

While DfD is not fully standardized, there are on how to achieve it. These include the following actions:

  • Select quality durable materials that last long and can withstand disassembly
  • Make sure they have recycling potential if they won鈥檛 be reused
  • Ask the suppliers about take-back programs or cradle-to-cradle certification
  • Use salvaged goods in structural and finishing materials
  • Archive information on project building materials for reference
  • Choose screwed or nailed bolted connections over glues or sealants
  • Look for fasteners and connection points that have simpler forms
  • Pick fasteners that can be disassembled easily with standard tools
  • Ensure fasteners can be easily accessed
  • Design the project so materials don鈥檛 rely on each other much
  • Separate mechanical, electrical, and plumbing systems from walls and other materials

As you can see, these are all tangible steps that would make reusing construction materials that much easier.

And if you choose to make use of one or more of them, your construction project will almost certainly benefit from that. Not only will your team have to spend less money on waste removal, but you鈥檒l also reduce your project鈥檚 environmental impact. It won鈥檛 create as much waste, and it will even help reduce raw material consumption in the future.

Rows of shelves in a concrete warehouse are filled with building materials.

A Key Part of That Is Choosing the Right Materials

When tackling the design of construction with DfD, you鈥檒l find the choice of materials becomes extremely significant. That remains the case no matter where you are in the construction hierarchy.

For a better idea of what that looks like specifically for concrete construction, let鈥檚 look at some sustainable material options.

Cement Producers Can Help by Replacing Their Use of Traditional Fossil Fuels

Concrete wouldn鈥檛 be the same without its main component: cement. But producing that material can be quite carbon-intensive. In fact, doing so contributes to around 8% of the world鈥檚 total carbon emissions.

Part of the reason for that is the that heats up the kiln for cement production. Traditionally, it often consists of fossil fuels like coal and petcoke. These produce a significant amount of carbon emissions.

But there are circular economy solutions for this: alternative fuels. For instance, it鈥檚 possible to use industrial by-products, such as used tires. That reuses materials that would have gone into a landfill otherwise and provides a less carbon-intensive fuel.

But if that鈥檚 not readily available, cement producers could also use instead. If enough producers shifted to such options, they could end up decreasing the carbon emissions of global cement production by 9% by 2050.

There Are Also Industrial By-Products Out There That Can Enhance Concrete Mixes

While you can mitigate the emissions of cement production, you can鈥檛 eliminate them entirely. So another way to reduce carbon emissions and eliminate waste is by partially replacing cement with different materials.

A variety of SCMs are layered against one another.

The Most Well-Known Are Supplementary Cementitious Materials

Often by-products from other industries, such as fly ash and ground-granulated blast-furnace slag, are a go-to solution for industry professionals. Not only can they partially replace cement used in concrete, but they can also offer a number of other advantages:

  • Greater later-age concrete strengths
  • Reduced permeability
  • Improved concrete durability
  • Better resistance to sulfates
  • Less heat of hydration
  • More LEED points

That all depends on the SCMs used in some cases of course. Each one has their own particular properties. And they aren鈥檛 always compatible with every type of concrete mix.

It鈥檚 why 蜜桃社区 Technical Director Alireza Biparva recently wrote for the publication about the care needed for mixing SCMs with permeability-reducing admixtures (PRAs) in concrete.

If professionals aren鈥檛 careful, they could end up with SCMs and a PRA that both require calcium hydroxide to activate. With calcium hydroxide being a limited resource in concrete, that could cause both materials to perform poorly. But many SCMs need it. So it might be better to use a PRA that does not need calcium hydroxide to react. For example, there鈥檚 our , which only reacts to water and unhydrated cement particles.

It all goes to show that while SCMs are great sustainable circular economy solutions, they still need to be chosen and applied with care.

A construction worker is throwing in a bag of Hard-Cem admixture into a concrete mix during batching.

There Is an Admixture That Could Be of Use Too

Another circular economy solution to consider is the integral hardening admixture . It is manufactured with industrial by-products that would have normally ended up in the landfill, and its purpose is to make concrete more resistant to abrasion and erosion.

But how exactly does that work?

Well, once added to a concrete mix, the hardening admixture permeates it with a finely ground mineral-metal alloy.

This material comes with a unique chemical microstructure that makes up for the weaknesses in the concrete鈥檚 cement paste. On its own, the paste is made up of interconnected pores and capillaries. These are strong in compression. But they are weak to abrasive and erosive forces. Hard-Cem鈥檚 material fixes that by adding an amorphous quality to the paste鈥檚 structure. That makes it tougher and more stable, increasing its ability to resist deformation.

This not only doubles the wear life of the concrete even under harsh conditions. But it also eliminates the need to add extra cement for more durable concrete.

Chunks of recyclable concrete are piled together as a show of one kind of circular economy solution.

And Don鈥檛 Forget That Concrete Can Be Recycled

Concrete is the second-most widely used material in the world, so it鈥檚 important to consider that . With a finite life span like any material, structures made with it will eventually need to be demolished. But the concrete can be removed and broken down into what is known as recycled concrete aggregate.

Much of this is best-suited for creating pavement. But it can also be added to a new concrete mix to help develop future structures.

A construction worker is adding KIM admixture into a concrete mix during batching.

Just Ensure That It Uses the Right Waterproofing

Of course, when producing recycled concrete aggregate, there needs to be a quality control of sorts. Not all concrete can be recycled. Only concrete that hasn鈥檛 been contaminated. So that means removing other materials like reinforcing steel, asphalt, soil and clay balls, chlorides, glass, gypsum board, sealants, paper, plaster, wood, and roofing materials.

It also means you need to be careful about your concrete鈥檚 waterproofing. After all, many externally applied waterproofing products such as membranes contain crude oil products like asphalt. So using them can prevent your concrete from being recycled.

That鈥檚 why you are likely better off using integral waterproofing like KIM, which protects your concrete from water ingress while ensuring it can still be recycled in the end.

A male and female architect are looking at the blueprints for a structure on-site as construction is ongoing underneath a clear blue sky.

These Are All Circular Economy Solutions to Encourage in Construction

Concrete construction has a lot to offer when it comes to sustainability. And it鈥檚 no different when you consider circular economy solutions. It just takes a shift in focus. With the right approach, materials, and waterproofing, concrete construction can reuse more than it wastes.

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