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Quantifying the global warming potential of low carbon concrete mixes: Comparison of existing life cycle analysis tools

Andrew Witte, Nishant Garg

2023Case Studies in Construction Materials43 citationsDOIOpen Access PDF

Abstract

One of the most feasible approaches to reduce the carbon footprint of concrete, a critical contributor to global CO2 emissions, is to consider the high-volume replacement of cement with supplementary cementitious materials (SCMs). However, this approach currently has two issues: 1) low early-age strength, 2) inconsistent carbon accounting. To address these issues, we investigate the micro- and macro-scale performance of a series of low-carbon concrete mixes and analyze their global warming potential (GWP) using 5 unique LCA tools. We report that the cumulative heat, when normalized to the total water content, exhibits correlations with key performance metrics such as open porosity (R2 = 0.83) and compressive strength (R2 = 0.92). In addition, all LCA tools suggest that high-SCM mixes (55-70% replacement), broadly, can reduce the GWP values for concrete by ~50% (from ~450 to ~240 kg CO2-eq/m3). However, depending on the mix and the LCA tool used, for GWP values, the relative variation can be as high as 30% (~50-80 kg CO2-eq/m3). Finally, we normalize the compressive strength to the GWP metric using an ‘Integrated Strength Eco-Efficiency’ (I-SEE) coefficient, which can be a potential parameter for simultaneously assessing concrete’s performance and environmental impact.

Topics & Concepts

Global-warming potentialLife-cycle assessmentGlobal warmingCarbon fibersEnvironmental scienceCarbon cycleGreenhouse gasClimate changeMaterials scienceGeologyEcologyEconomicsProduction (economics)Composite materialEcosystemMacroeconomicsComposite numberBiologyOceanographyConcrete and Cement Materials ResearchConcrete Corrosion and DurabilityInnovative concrete reinforcement materials
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