Biochar affects compressive strength of Portland cement composites: a meta-analysis

IF 13.1 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Biochar Pub Date : 2024-03-06 DOI:10.1007/s42773-024-00309-2
Zhihao Zhao, Ali El-Naggar, Johnson Kau, Chris Olson, Douglas Tomlinson, Scott X. Chang
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Abstract

One strategy to reduce CO2 emissions from cement production is to reduce the amount of Portland cement produced by replacing it with supplementary cementitious materials (SCMs). Biochar is a potential SCM that is an eco-friendly and stable porous pyrolytic material. However, the effects of biochar addition on the performances of Portland cement composites are not fully understood. This meta-analysis investigated the impact of biochar addition on the 7- and 28-day compressive strength of Portland cement composites based on 606 paired observations. Biochar feedstock type, pyrolysis conditions, pre-treatments and modifications, biochar dosage, and curing type all influenced the compressive strength of Portland cement composites. Biochars obtained from plant-based feedstocks (except rice and hardwood) improved the 28-day compressive strength of Portland cement composites by 3–13%. Biochars produced at pyrolysis temperatures higher than 450 °C, with a heating rate of around 10 C min-1, increased the 28-day compressive strength more effectively. Furthermore, the addition of biochar with small particle sizes increased the compressive strength of Portland cement composites by 2–7% compared to those without biochar addition. Biochar dosage of < 2.5% of the binder weight enhanced both compressive strengths, and common curing methods maintained the effect of biochar addition. However, when mixing the cement, adding fine and coarse aggregates such as sand and gravel affects the concrete and mortar's compressive strength, diminishing the effect of biochar addition and making the biochar effect nonsignificant. We concluded that appropriate biochar addition could maintain or enhance the mechanical performance of Portland cement composites, and future research should explore the mechanisms of biochar effects on the performance of cement composites.

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生物炭影响波特兰水泥复合材料的抗压强度:一项荟萃分析
减少水泥生产过程中二氧化碳排放量的策略之一是用胶凝补充材料(SCM)替代硅酸盐水泥,从而减少硅酸盐水泥的生产量。生物炭是一种潜在的 SCM,它是一种环保、稳定的多孔热解材料。然而,人们对生物炭的添加对波特兰水泥复合材料性能的影响还不完全了解。本荟萃分析基于 606 项配对观察结果,研究了生物炭添加量对波特兰水泥复合材料 7 天和 28 天抗压强度的影响。生物炭原料类型、热解条件、预处理和改性、生物炭用量和固化类型都会影响波特兰水泥复合材料的抗压强度。从植物原料(大米和硬木除外)中获得的生物炭可将波特兰水泥复合材料的 28 天抗压强度提高 3-13%。生物炭的热解温度高于 450°C,加热速度约为 10°C min-1,能更有效地提高 28 天抗压强度。此外,与未添加生物炭的硅酸盐水泥复合材料相比,添加小粒径生物炭可将其抗压强度提高 2-7%。占粘结剂重量 2.5% 的生物炭用量可提高两种抗压强度,而普通的固化方法可保持生物炭添加的效果。然而,在搅拌水泥时,加入砂和砾石等细骨料和粗骨料会影响混凝土和砂浆的抗压强度,削弱生物炭的添加效果,使生物炭效果不显著。我们的结论是,适当添加生物炭可以保持或提高波特兰水泥复合材料的力学性能,未来的研究应探索生物炭对水泥复合材料性能的影响机制。
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来源期刊
Biochar
Biochar Multiple-
CiteScore
18.60
自引率
10.20%
发文量
61
期刊介绍: Biochar stands as a distinguished academic journal delving into multidisciplinary subjects such as agronomy, environmental science, and materials science. Its pages showcase innovative articles spanning the preparation and processing of biochar, exploring its diverse applications, including but not limited to bioenergy production, biochar-based materials for environmental use, soil enhancement, climate change mitigation, contaminated-environment remediation, water purification, new analytical techniques, life cycle assessment, and crucially, rural and regional development. Biochar publishes various article types, including reviews, original research, rapid reports, commentaries, and perspectives, with the overarching goal of reporting significant research achievements, critical reviews fostering a deeper mechanistic understanding of the science, and facilitating academic exchange to drive scientific and technological development.
期刊最新文献
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