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Application potential analysis of biochar as a carbon capture material in cementitious composites: A review

生物炭 胶凝的 复合材料 材料科学 碳纤维 废物管理 热解 水泥 复合数 工程类
作者
Jun Liu,Guang Liu,Weizhuo Zhang,Zhenlin Li,Feng Xing,Luping Tang
出处
期刊:Construction and Building Materials [Elsevier BV]
卷期号:350: 128715-128715 被引量:96
标识
DOI:10.1016/j.conbuildmat.2022.128715
摘要

• Biochar is a carbon capture material with high potential. • The application of biochar in cementitious materials was reviewed. • The carbon dioxide adsorption performance of various types of biochar was analyzed. • Carbon sequestration performance can be effectively improved with addition of biochar. In recent years, emissions of carbon dioxide in the atmosphere have been increasing, leading to increasingly severe global warming. In the construction industry, the increase in cement production is one of the main sources of CO 2 emissions. Cementitious composites can sequester CO 2 in calcium carbonate precipitates through carbonation reactions, but their carbon sequestration efficiency is very low due to the slow diffusion rate of CO 2 in the cement matrix. To reduce the net CO 2 emissions during concrete production, a feasible option is to enhance its carbon capture performance through accelerated carbonation curing (ACC) and CO 2 capture and storage (CCS) technologies. Biochar has a strong adsorption capacity for CO 2 , its production process is green and low-carbon, and its production cost is low, which has high economic benefits. Many studies have applied biochar as cementitious composites in the construction industry to improve the mechanical properties, durability and functionality of cementitious composites. Additionally, biochar is a potential carbon capture material that can effectively improve the carbon sequestration performance of cementitious composites. In this review, the latest research progress of biochar in cementitious composites in recent years is reviewed, and the mechanical properties, durability and carbon sequestration performance of biochar-cementitious composites were analyzed. Additionally, the mechanism of the synergistic effect of biochar and the carbonization reaction in concrete and the effect on the carbon capture ability of cementitious composites were also investigated.
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