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Environmental assessment of cement production with added graphene

Raphael Ricardo Zepon Tarpani, Akilu Yunusa‐Kaltungo, Meini Su, Patrick Manu, Clara Cheung, Michael Watson, Paul Ladislaus, Alejandro Gallego‐Schmid

2024Cleaner Environmental Systems18 citationsDOIOpen Access PDF

Abstract

Cement production significantly contributes to climate change, necessitating alternatives to mitigate the environmental impacts of this essential construction material. This study evaluates 18 environmental impacts of producing Ordinary Portland Cement (OPC) and Graphene (Gr) using life cycle assessment (LCA). Additionally, we explore whether mixing OPC and Gr can lower the life cycle environmental impacts of the final product (OPCGr). Our results show that OPC production in the United Kingdom generates 775 kg CO2 eq./t, 57% only from geogenic CO2 emissions. Gr production via electrochemical exfoliation in Australia results in 121,000–143,000 kg CO2 eq./t, primarily due to electricity generation. Using hydro and nuclear power (e.g., in Brazil and France) can sharply reduce these impacts (global warming potential in the range of 11,000–35,000 kg CO2 eq./t). Adding 0.02 wt% of Gr in powder form (Grpowder) from Australia to the OPC and assuming a 16.5% reduction in its usage due to increased strength, results in 674 kg CO2 eq./t OPCGr (a 13% reduction). However, some impact categories like marine eutrophication and freshwater ecotoxicity potentials increase sharply (>28%). Using Grpowder from Brazil and France further reduces the OPCGr global warming potential and the overall environmental footprint.

Topics & Concepts

Life-cycle assessmentEnvironmental scienceEcotoxicityCarbon footprintEnvironmental impact assessmentCementEcological footprintEutrophicationGlobal warmingElectricity generationProduction (economics)Global-warming potentialPortland cementElectricityEnvironmental engineeringGreenhouse gasEnvironmental protectionClimate changeSustainabilityMaterials scienceEngineeringEcologyChemistryNutrientMetallurgyPhysicsMacroeconomicsToxicityQuantum mechanicsOrganic chemistryBiologyPower (physics)EconomicsElectrical engineeringRecycling and Waste Management TechniquesRecycled Aggregate Concrete PerformanceEnvironmental Impact and Sustainability
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