Physiochemical characterization of agricultural waste biochars for partial cement replacement

Ofori-Boadu, Andrea Nana; Bryant, De Andria; Bock-Hyeng, Christian; Assefa, Zerihun; Aryeetey, Frederick; Munkaila, Samira; Fini, Elham H.

doi:10.1108/ijbpa-04-2020-0026

Cited by 4 publications

(1 citation statement)

References 66 publications

(96 reference statements)

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“…X. proposed biochar as amendment agent for alkali-activated slags to further improve coral sands in soils. Some other findings support high substitution levels with an equal or higher strength development capability (Castillo et al, 2022;Ofori-Boadu et al, 2021), positioning biochar as a potential SCM or filler, with either pozzolanic or hydraulic potential. Biochar has also been proposed as a key component of pervious concrete (Qin et al, 2021;Tan et al, 2022;Xie et al, 2021), while some authors have proposed pyrolyzed char as bacteria carriers in autogenous-healing concretes or cement-based materials (Kanwal, Khushnood, Khaliq, et al, 2022;.…”

Section: Discussion and Opportunities For Future Researchmentioning

confidence: 90%

Suitability of biochar as supplementary cementitious material (SCM) or filler: waste revalorization, a critical review

Nahuat-Sansores

Cruz

Gurrola

et al. 2022

JCE

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For decades, researchers on materials science have highlighted the potential of biochar as a CO2 adsorption medium and the possibility of its incorporation into other materials to reduce the overall carbon footprint. This present study is a critical review of a selection of articles about biochar potential as a material on the construction industry. Biochar is a promising material in order to mitigate GHG emissions when added to cementitious materials, reducing its carbon footprint through a dual effect: CO2 sorption and replacement of cement or aggregates. Literature evidenced that replacement ratios of around 2-8 of cement wt% improved or leveled with conventional cementitious composites. However, some recent studies have shown that the incorporation of biochar up to >10% replacement ratios have the potential to improve the composites. Based on this premise, the present review emphasizes on the durability and long-term properties of biochar cementitious composites by providing up-to-date discussions of the studies on the matter and the future perspectives of the research in order to develop more eco-efficient concretes or mortars.

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