Life cycle assessment of next generation non‐metallic bridges

Abstract: Employments of highly durable low carbon technologies are crucial for mitigation of climate change ensuring sustainable infrastructures. In this perspective, a challenging initiative for ultra-high durability low carbon prestressed concrete bridges utilizing sustainable zero cement concrete (STC-ZERO) and nonmetallic reinforcement is undertaken. STC-ZERO exhibiting high strength, low shrinkage, and low creep reduces carbon emission up to 70% compared to the conventional concrete as cement is entirely replaced.… Show more

“…A case study comparing the CO 2 emissions of conventional and new technologies using AASHTO girder is presented (Figure 12). 18 The low‐carbon technology with zero‐cement concrete and aramid FRP tendons emits 0.4 tCO 2 /m 3 at the product stages A1 to A3. Therefore, CO 2 emissions can be reduced by 70% compared to the conventional technology of 1.3 tCO 2 /m 3 .…”

Impact of carbon neutrality on structural concrete—Not a risk but an opportunity

“…A case study comparing the CO 2 emissions of conventional and new technologies using AASHTO girder is presented (Figure 12). 18 The low‐carbon technology with zero‐cement concrete and aramid FRP tendons emits 0.4 tCO 2 /m 3 at the product stages A1 to A3. Therefore, CO 2 emissions can be reduced by 70% compared to the conventional technology of 1.3 tCO 2 /m 3 .…”

Impact of carbon neutrality on structural concrete—Not a risk but an opportunity

“…[1][2][3] However, Ordinary Portland cement (OPC), which is an important ingredient in concrete is responsible for high energy consumption and release of carbon dioxide (CO 2 ) resulting from the calcination of limestone during its production. 4,5 Cement production alone accounts for 8 to 10% of global anthropogenic (caused by human activities) CO 2 emissions. 6,7 The World Business Council for Sustainable Development (WBCSD) expects direct carbon emissions from the cement industry to increase by 4% by 2050.…”

“…Concrete is the most widely used building material and the second most abundant material on earth after water 1–3 . However, Ordinary Portland cement (OPC), which is an important ingredient in concrete is responsible for high energy consumption and release of carbon dioxide (CO 2 ) resulting from the calcination of limestone during its production 4,5 . Cement production alone accounts for 8 to 10% of global anthropogenic (caused by human activities) CO 2 emissions 6,7 .…”

Mechanical properties and life cycle assessment of sugarcane bagasse and corn cob ashes‐based geopolymer concrete to promote circular economy