Wet grinding carbonation technique: Achieving rapid carbon mineralization of concrete slurry waste under low CO2 flow rate
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Published:2024-08
Issue:
Volume:493
Page:152836
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ISSN:1385-8947
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Container-title:Chemical Engineering Journal
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language:en
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Short-container-title:Chemical Engineering Journal
Author:
He Xingyang,
Zeng JingyiORCID,
Yang JinORCID,
Su Ying,
Wang Yingbin,
Jin Zihao,
Zheng Zhengqi,
Tian Cong
Reference93 articles.
1. Readily implementable techniques can cut annual CO2 emissions from the production of concrete by over 20%;Miller;Environ. Res. Lett.,2016
2. Environmental impacts and decarbonization strategies in the cement and concrete industries;Habert;Nat. Rev. Earth. Env.,2020
3. D.H. Moon, S.S. Park, S.-P. Kang, W. Lee, K.T. Park, D.H. Chun, G.B. Rhim, S.- M. Hwang, M.H. Youn, S.K. Jeong, Determination of kinetic factors of CO2 mineralization reaction for reducing CO2 emissions in cement industry and verification using CFD modeling, Chem. Eng. J. 420 (2021) 129420, https://doi. org/10.1016/j.cej.2021.129420.
4. Biochar-augmented carbon-negative concrete;Chen;Chem. Eng. J.,2022
5. An overview of utilizing CO2 for accelerated carbonation treatment in the concrete industry;Li;J. CO2. Util.,2022
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