Wet carbonation of recycled cement paste powder using a CO2-loaded monoethanolamine solvent as an internal CO2 source

IF 11.2 1区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Resources Conservation and Recycling Pub Date : 2024-09-13 DOI:10.1016/j.resconrec.2024.107901
Yuguang Mao , Xiang Hu , Sarra Drissi , Wei Chen , Caijun Shi
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Abstract

To address the challenge posed by the carbonation product layer formed on recycled cement paste powder (RCPP) on the efficiency and degree of carbonation, CO2-loaded monoethanolamine (MEA) “microcapsules” were used. The CO2 within MEA was released by heating after the formation of the dense carbonation products layer on RCPP to provide an additional internal CO2 source to penetrate into the uncarbonated layer. Results showed that using CO2 dissolved in 15 %, 30 %, and 45 % MEA aqueous solution increased the carbonation degree of RCPP by 10.8 %, 11.2 %, and 13.8 %, respectively, compared to RCPP wet carbonated in water. In addition to calcite, vaterite and aragonite were observed in the CO2-loaded MEA carbonated RCPP. The long-term compressive strength of cement pastes with 30 % CO2-loaded MEA carbonated RCPP increased, and the porosity decreased compared to cement paste with RCPP wet carbonated in water. However, MEA negatively affected the early compressive strength of the cement paste.

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使用二氧化碳负载单乙醇胺溶剂作为内部二氧化碳源对再生水泥浆粉进行湿式碳化
为了解决在再生水泥浆粉(RCPP)上形成的碳化产物层对碳化效率和程度造成的挑战,我们使用了装载二氧化碳的单乙醇胺(MEA)"微胶囊"。在 RCPP 上形成致密的碳化产物层后,通过加热释放 MEA 内的 CO2,为渗透到未碳化层提供额外的内部 CO2 源。结果表明,与在水中湿碳化的 RCPP 相比,使用溶解在 15%、30% 和 45% MEA 水溶液中的二氧化碳可使 RCPP 的碳化程度分别提高 10.8%、11.2% 和 13.8%。除方解石外,在含二氧化碳的 MEA 碳化 RCPP 中还观察到了醋酸盐和文石。与在水中湿碳化的 RCPP 水泥浆相比,30% CO2- 加载 MEA 碳化 RCPP 水泥浆的长期抗压强度提高了,孔隙率降低了。但是,MEA 对水泥浆的早期抗压强度有负面影响。
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来源期刊
Resources Conservation and Recycling
Resources Conservation and Recycling 环境科学-工程:环境
CiteScore
22.90
自引率
6.10%
发文量
625
审稿时长
23 days
期刊介绍: The journal Resources, Conservation & Recycling welcomes contributions from research, which consider sustainable management and conservation of resources. The journal prioritizes understanding the transformation processes crucial for transitioning toward more sustainable production and consumption systems. It highlights technological, economic, institutional, and policy aspects related to specific resource management practices such as conservation, recycling, and resource substitution, as well as broader strategies like improving resource productivity and restructuring production and consumption patterns. Contributions may address regional, national, or international scales and can range from individual resources or technologies to entire sectors or systems. Authors are encouraged to explore scientific and methodological issues alongside practical, environmental, and economic implications. However, manuscripts focusing solely on laboratory experiments without discussing their broader implications will not be considered for publication in the journal.
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