Understanding your project’s carbon footprint, which measures the total greenhouse gas emissions from construction activities, is crucial.
This calculation impacts the environment and the project’s long-term viability and compliance with increasingly stringent global regulations.
While much attention has historically been focused on operational carbon emissions generated during a building's lifecycle, the significance of embodied carbon cannot be overstated.
Lafarge Canada shifts production to OneCem cement at its St-Constant Plant, reducing CO2 emissions by 60,000 tons in 2024, advancing sustainability goals.
Vitro Architectural Glass has unveiled a new digital tool called the Vitro emissions Carbon & Energy Calculator, which models energy consumption and embodied and operational carbon emissions in various standard buildings.
Statewide energy codes are important for several reasons—not the least of which are reduced energy consumption, mitigated greenhouse gas emissions, minimized building operational costs, and improved climate resilience. Yet, at the time of this writing, ten states do not have a statewide commercial energy code.
A new study revealed that U.S. emissions from the built environment have increased by 3 percent in the last decade - a trend that looks set to continue. Research by 3Keel and Kingspan found that reductions in greenhouse gas emissions from buildings are reversing in the U.S.
Increasing temperatures, population growth, urbanization and rising incomes are driving the increased need for cooling. According to the first ever Global Cooling Watch Report, launched at this year’s COP28, cooling demand could triple by 2050.
Two California bills were recently signed into law this month requiring companies to analyze and report on their GHG emissions—as well as their climate-related financial risks. Kathleen Hetrick, an Associate and Senior Sustainability Engineer with Buro Happol, recently sat down with us to discuss what these bills mean for architects.