flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

A new study presses for measuring embodied carbon in industrial buildings

Industrial Facilities

A new study presses for measuring embodied carbon in industrial buildings

EC reductions are essential to meet global greenhouse gas emission targets.


By John Caulfield, Senior Editor | June 20, 2023
A new study presses for measuring embodied carbon in industrial buildings
Photo by White Field Photo on Unsplash

The embodied carbon (EC) intensity in core and shell industrial buildings in the U.S. averages 23.0 kilograms per sf, according to a recent analysis of 26 whole building life-cycle assessments. That means a 300,000-sf warehouse would emit 6,890 megatons of carbon over its lifespan, or the equivalent of the carbon emitted by 1,530 gas-powered cars driven for one year.

Those sobering estimates come from a new benchmark study, “Embodied Carbon U.S. Industrial Real Estate,” which advocates for the measuring and reducing of EC in core and shell industrial buildings, one of the more vibrant commercial construction sectors.

The report was produced by BranchPattern, a Kansas City-based building consultancy dedicated to creating a better built environment. BranchPattern’s study partners for this report include Prologis, Brookfield Properties, IDI Logistics, Bridge Industrial, and Affinius Capital.

An estimated 11% of global greenhouse gases come from the embodied carbon from building construction. But there has been relatively little EC measurement in industrial buildings. Charts: BranchPattern
An estimated 11% of global greenhouse gases come from the embodied carbon from building construction. But there has been relatively little EC measurement in industrial buildings. Chart: BranchPattern

“We are at a pivotal moment for owners and developers of real estate to look beyond the greenhouse gasses emitted during building operations,” says Chris Brown, IDI Logistics’ Solar Development and ESG Director. “Working with industry peers, key partners, and suppliers to create pathways to lower carbon materials, design and construction techniques is an integral part of reducing the impact of buildings have in climate change.”

Building operations and building construction account for 28% and 11%, respectively, of global greenhouse gas emissions, according to the International Energy Agency. As buildings have become more energy efficient, operational carbon has been reduced. Therefore, addressing EC emissions “will become increasingly critical to meet climate goals,” states BranchPattern’s report, especially given that the global building area for industrial typologies is projected to double by 2050.

Right now, most of the available EC data are derived from lifecycle assessments of multifamily and office buildings. But based on conservative assumptions, EC is projected to account for 17.4% of a typical industrial building’s total emissions over 60 years. The report calls for greater access to EC measurement tools and comparative data that can help the industrial sector making informed design and construction decisions.

Stakeholders play different roles in LCA impact
Stakeholders play different roles in lowering a building's EC over its life cycle. Chart: BranchPattern

Stakeholders within an industrial building project have varying responsibilities and financial interests in reducing EC in their buildings. The developer, for example, makes decisions about building materials and design. The tenant, on the other hand, might participate in improvements that include MEP systems and interior finishes.

A small but telling sample

In 2022, BranchPattern conducted 46 lifecycle assessments, of which 26 for nine separate real estate developers or owners in six geographic regions of the U.S. are included in its report.  The analyses were confined to Class A core and shell industrial warehouses of similar scope. The reference period for the lifetimes of the buildings was 60 years.

BranchPattern compared its EC intensity finding with a 2017 Carbon Benchmark Study of two buildings whose average EC intensity was 20.2 kg per sf.

The report concedes that its own sample isn’t large enough from which to draw definitive conclusions. “A larger, more robust dataset is required to determine regional variation with statistical significance,” the report states. That being said, BranchPattern’s study shows “a strong, positive, linear correlation” between a building’s size and its EC emissions.

The report finds that, on average, 55% of an industrial warehouse’s EC comes from its structure and enclosure, such as slab-on-grade, exterior walls, framing, and roofdeck. Consequently, an optimal EC reduction strategy addresses emissions from building materials like concrete and steel, which alone account for 11% and 10%, respectively, of global greenhouse gas emissions. For example, cement accounts for about 80% of the carbon emissions from a traditional concrete mix. Switching that mix from 100% ordinary Portland Cement to 50% fly ash/slag cement could reduce the mix’s carbon footprint by approximately 40%.

Where embodied carbon is most prevalent
More than half of a warehouse's embodied carbon is in its structure and closure. Chart: BranchPattern

Buildings might also be designed to reduce their overall concrete volume via alternate wall assemblies or insulated metal panels. BranchPattern’s report estimates that substituting mass timber for steel or concrete assemblies would reduce the carbon footprint from the building’s structure/enclosure by 50%. (Affinius Capital recently completed a 161,200-sf Class A warehouse with mass timber, resulting in a 60% reduction in EC compared to a concrete build.)  Even using Electric Arc Furnace-produced steel instead of basic oxygen furnace-produced steel cuts EC emissions by 40% to 60%.

Electric Arc Furnace steel is more likely to have a higher recycled content. Recycled materials in general typically have lower EC than virgin materials. However, the report observes that conventional demolition is still cheaper than recovering materials, especially wood. “A building designed for disassembly may have greater residual value, as the integrity of more materials is preserved.”

A call to action

Materials choices can lower a building's EC
Materials choices can have a positive impact on lowering a building's embodied carbon. Chart: BranchPattern

The Paris Climate Accords have set a goal of reducing greenhouse gas emissions 40% by 2030, compared to 1990 emissions. To achieve that goal, “we must now focus on embodied carbon,” the BranchPattern report states. That will require transparent and clear carbon accounting methods that support stakeholder engagement. “To reduce, we must measure,” asserts the report.

Government funding and policy changes are increasing the development and implementation of low-carbon construction solutions. Green building certification programs “will continue to play a significant role mainstreaming embodied carbon knowledge within various building sectors,” the report predicts. The availability of lower-carbon materials will increase and be cost competitive. Engineering solutions in areas like carbon capture, utilization and storage will advance.

“Embodied carbon related emission reductions are possible, necessary, and promising,” the report concludes.

Related Stories

| Jul 28, 2014

Reconstruction Sector Construction Firms [2014 Giants 300 Report]

Structure Tone, Turner, and Gilbane top Building Design+Construction's 2014 ranking of the largest reconstruction contractor and construction management firms in the U.S.

| Jul 28, 2014

Reconstruction Sector Engineering Firms [2014 Giants 300 Report]

Jacobs, URS, and Wiss, Janney, Elstner top Building Design+Construction's 2014 ranking of the largest reconstruction engineering and engineering/architecture firms in the U.S.

| Jul 28, 2014

Reconstruction Sector Architecture Firms [2014 Giants 300 Report]

Stantec, HDR, and HOK top Building Design+Construction's 2014 ranking of the largest reconstruction architecture and architecture/engineering firms in the U.S.

| Jul 27, 2014

Maturing ‘plug and play’ sector could take market share from AEC Giants [2014 Giants 300 Report]

The growth of modular and containerized data center solutions may eventually hinder the growth of traditional data center construction services.

| Jul 27, 2014

Top Data Center Construction Firms [2014 Giants 300 Report]

Holder, Turner, and DPR head Building Design+Construction's 2014 ranking of the largest data center contractors and construction management firms in the U.S.

| Jul 27, 2014

Top Data Center Engineering Firms [2014 Giants 300 Report]

Fluor, Jacobs, and Syska Hennessy top Building Design+Construction's 2014 ranking of the largest data center engineering and engineering/architecture firms in the U.S.

| Jul 27, 2014

Top Data Center Architecture Firms [2014 Giants 300 Report]

Gensler, Corgan, and HDR head Building Design+Construction's 2014 ranking of the largest data center architecture and architecture/engineering firms in the U.S.

| Jul 23, 2014

Architecture Billings Index up nearly a point in June

AIA reported the June ABI score was 53.5, up from a mark of 52.6 in May.

| Jul 21, 2014

Economists ponder uneven recovery, weigh benefits of big infrastructure [2014 Giants 300 Report]

According to expert forecasters, multifamily projects, the Panama Canal expansion, and the petroleum industry’s “shale gale” could be saving graces for commercial AEC firms seeking growth opportunities in an economy that’s provided its share of recent disappointments.

| Jul 18, 2014

Contractors warm up to new technologies, invent new management schemes [2014 Giants 300 Report]

“UAV.” “LATISTA.” “CMST.” If BD+C Giants 300 contractors have anything to say about it, these new terms may someday be as well known as “BIM” or “LEED.” Here’s a sampling of what Giant GCs and CMs are doing by way of technological and managerial innovation.

boombox1
boombox2
native1

More In Category


Warehouses

California bill would limit where distribution centers can be built

A bill that passed the California legislature would limit where distribution centers can be located and impose other rules aimed at reducing air pollution and traffic. Assembly Bill 98 would tighten building standards for new warehouses and ban heavy diesel truck traffic next to sensitive sites including homes, schools, parks and nursing homes.



halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021