Thermoactivated cement from construction and demolition waste for pavement base stabilization: A case study in Brazil

Pereira, Valdir M; Baldusco, Raphael; Silva, Patricia B; Quarcioni, Valdecir A; Motta, Rosângela S; Suzuki, Seiiti; Angulo, Sergio C

doi:10.1177/0734242x241227370

Waste Manag Res

2024

DOI: 10.1177/0734242x241227370

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Thermoactivated cement from construction and demolition waste for pavement base stabilization: A case study in Brazil

Valdir M Pereira,

Raphael Baldusco,

Patricia B Silva

et al.

Abstract: Construction and demolition waste (CDW) worldwide generation accounts 10 billion tonnes yearly. The major fraction is landfilled requiring innovative recycling methods to reduce the associated environmental impacts and to increase its circularity. Our study demonstrated the feasibility of using different CDW fines to develop recycled cements and optimized the content of CDW recycled cements with well-graded crushed stone (WGCS) for use as pavement base layer. We scaled up the study obtaining CDW cement and agg… Show more

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Cited by 5 publications

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Fabrication and characterization of recycled construction waste bricks modified with sisal fibers

Zhang,

Zheng,

Wang

et al. 2024

Alexandria Engineering Journal

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Fabrication and characterization of recycled construction waste bricks modified with sisal fibers

Zhang,

Zheng,

Wang

et al. 2024

Alexandria Engineering Journal

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High activity pozzolan obtained from selection of excavation soils in a Construction and Demolition Waste landfill

Pereira,

Baldusco,

Nobre

et al. 2024

Journal of Building Engineering

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Engineered Blended Thermoactivated Recycled Cement: A Study on Reactivity, Water Demand, Strength-Porosity, and CO₂ Emissions

Zanovello,

John,

White

et al. 2024

ACS Sustainable Chem. Eng.

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Annually, 1 Gt of cement waste is produced, constituting one-fourth of recent cement production and surpassing the availability of most supplementary cementitious materials (SCMs). It is known that the thermoactivation of cement waste (heating to 500 °C to drive off water molecules and hydroxyl units) recovers cement reactivity. However, from literature we show that this reactivity is insufficient for adequate strength gain due to the high surface area and, hence, high water demand of thermoactivated recycled cement (RC). Instead, as proposed herein, RC used as the dominant component (>75% wt) within an optimized particle packing system (<20% wt of micronized Portland cement) yields an engineered recycled cement (eRC) with comparable early-and lateage strength gain behavior to ordinary Portland cement (OPC). Evaluation of CO 2 emissions reveals that eRC emits 198−320 kgCO 2 /t, which is substantially lower than that of scalable blended Portland cements. Deploying this technology together with other strategies, such as CO 2 capture by carbonation of cement waste, can mitigate 61% of projected 2050 CO 2 emissions of the cement industry (2.31 Gt of CO 2 /year).

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Thermoactivated cement from construction and demolition waste for pavement base stabilization: A case study in Brazil

Cited by 5 publications

References 36 publications

Fabrication and characterization of recycled construction waste bricks modified with sisal fibers

Fabrication and characterization of recycled construction waste bricks modified with sisal fibers

High activity pozzolan obtained from selection of excavation soils in a Construction and Demolition Waste landfill

Engineered Blended Thermoactivated Recycled Cement: A Study on Reactivity, Water Demand, Strength-Porosity, and CO₂ Emissions

Contact Info

Product

Resources

About

Thermoactivated cement from construction and demolition waste for pavement base stabilization: A case study in Brazil

Cited by 5 publications

References 36 publications

Fabrication and characterization of recycled construction waste bricks modified with sisal fibers

Fabrication and characterization of recycled construction waste bricks modified with sisal fibers

High activity pozzolan obtained from selection of excavation soils in a Construction and Demolition Waste landfill

Engineered Blended Thermoactivated Recycled Cement: A Study on Reactivity, Water Demand, Strength-Porosity, and CO2 Emissions

Contact Info

Product

Resources

About

Engineered Blended Thermoactivated Recycled Cement: A Study on Reactivity, Water Demand, Strength-Porosity, and CO₂ Emissions