Direct Carbonation of Ca(OH)2 Using Liquid and Supercritical CO2: Implications for Carbon-Neutral Cementation
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- 作者:Kirk Vance ; Gabriel Falzone ; Isabella Pignatelli ; Mathieu Bauchy ; Magdalena Balonis ; Gaurav Sant
- 刊名:Industrial & Engineering Chemistry Research
- 出版年:2015
- 出版时间:September 16, 2015
- 年:2015
- 卷:54
- 期:36
- 页码:8908-8918
- 全文大小:630K
- ISSN:1520-5045
文摘
By invoking analogies to lime mortars of times past, this study examines the carbonation of portlandite (Ca(OH)2) by carbon dioxide (CO2) in the liquid and supercritical states as a potential route toward CO2-neutral cementation. Portlandite carbonation is noted to be rapid; e.g., >80% carbonation of Ca(OH)2 is achieved in 2 h upon contact with liquid CO2 at ambient temperatures, and it is only slightly sensitive to the effects of temperature, pressure, and the state of CO2 over the range of 6 MPa 鈮?p 鈮?10 MPa and 8 掳C 鈮?T 鈮?42 掳C. Additional studies suggest that the carbonation of anhydrous ordinary portland cement is slower and far less reliable than that of portlandite. Although cementation is not directly assessed, detailed scanning electron microscopy (SEM) examinations of carbonated microstructures indicate that the carbonation products formed encircle and embed sand grains similar to that observed in lime mortars. The outcomes suggest innovative directions for 鈥渃arbon-neutral cementation.鈥?/p>View: ACS ActiveView PDF | PDF | PDF w/ Links | Full Text HTML
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- Published In Issue September 16, year">2015
- Article ASAP September 01, year">2015
- Just Accepted Manuscript
August 26, 2015 - Received: June 28, year">2015
Accepted: August 26, year">2015
Revised: August 24, year">2015