A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Sustainable Concrete: Impacts of Existing and Emerging Materials and Technologies on the Construction Industry
Cement production generates about 5 percent of global manmade carbon dioxide (CO2) emissions (ca. 1 ton of CO2 per ton of cement made) and is the second-largest industrial process-related source of CO2 emissions in the United States. In response to environmental concerns related to global warming, the cement and concrete industry has been gradually shifting towards more sustainable materials and technologies. The primary objective of this paper is to provide an overview of the main directions of sustainable concrete technology; namely, reduction of the CO2 footprint of concrete materials, adaptation of performance-based specifications, and utilization of high-performance concrete. Specific methods of CO2 reduction in concrete, some of which are still under development, include supplementary cementitious materials, limestone filler, binder content reduction through optimization of aggregate gradation, "low CO2" cements, and cement-free binders (geopolymer concrete). In view of emerging environment-conscious policies and regulatory changes gradually being adopted by owners and specifiers, the concrete construction industry is facing significant challenges.
Sustainable Concrete: Impacts of Existing and Emerging Materials and Technologies on the Construction Industry
Cement production generates about 5 percent of global manmade carbon dioxide (CO2) emissions (ca. 1 ton of CO2 per ton of cement made) and is the second-largest industrial process-related source of CO2 emissions in the United States. In response to environmental concerns related to global warming, the cement and concrete industry has been gradually shifting towards more sustainable materials and technologies. The primary objective of this paper is to provide an overview of the main directions of sustainable concrete technology; namely, reduction of the CO2 footprint of concrete materials, adaptation of performance-based specifications, and utilization of high-performance concrete. Specific methods of CO2 reduction in concrete, some of which are still under development, include supplementary cementitious materials, limestone filler, binder content reduction through optimization of aggregate gradation, "low CO2" cements, and cement-free binders (geopolymer concrete). In view of emerging environment-conscious policies and regulatory changes gradually being adopted by owners and specifiers, the concrete construction industry is facing significant challenges.
Sustainable Concrete: Impacts of Existing and Emerging Materials and Technologies on the Construction Industry
Radlinski, M. (author) / Harris, N. J. (author) / Moncarz, P. D. (author)
Architectural Engineering Conference (AEI) 2011 ; 2011 ; Oakland, California, United States
AEI 2011 ; 252-262
2011-03-22
Conference paper
Electronic Resource
English
Sustainable Construction Materials and Technologies
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