Wet-carbonation-based Mineral Extraction and CO2 Sequestration Using Concrete Waste Fines at a Low Temperature

Ngoc Kien Bui; Ryo Kurihara; Wei Wang; Manabu Kanematsu; Hikotsugu Hyodo; Miku Takano; Hiroshi Hirao; Takafumi Noguchi; Ippei Maruyama

doi:10.3151/jact.21.166

Wet-carbonation-based Mineral Extraction and CO₂ Sequestration Using Concrete Waste Fines at a Low Temperature

Ngoc Kien Bui, Ryo Kurihara, Wei Wang, Manabu Kanematsu, Hikotsugu Hyodo, Miku Takano, Hiroshi Hirao, Takafumi Noguchi, Ippei Maruyama

Department of Architecture

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

This study investigates the wet carbonation of concrete fines with CO₂ and natural air gas bubbling in a carbonation system at low temperatures. After the air- and CO₂-wet carbonations, the properties of a solution and hydrated cement paste powder are determined. In the air and CO₂-wet carbonations, more Ca is extracted into the solution at a low temperature of 5°C. This high Ca concentration in the solution through air-wet carbonation primarily originates from the portlandite and unhydrated phases of the cement paste. Even in solutions with high pH values, the rehydration process and C–S–H decomposition occur simultaneously in air-wet carbonation. Moreover, CO₂-wet carbonation indicates that the decalcification of C–S–H occurs rapidly, even in the presence of portlandite. Air-wet carbonation presents a potential method for the direct air capture of CO₂ using concrete waste fines in a short period.

Original language	English
Pages (from-to)	166-188
Number of pages	23
Journal	Journal of Advanced Concrete Technology
Volume	21
Issue number	3
DOIs	https://doi.org/10.3151/jact.21.166
Publication status	Published - 2023

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title = "Wet-carbonation-based Mineral Extraction and CO2 Sequestration Using Concrete Waste Fines at a Low Temperature",

abstract = "This study investigates the wet carbonation of concrete fines with CO2 and natural air gas bubbling in a carbonation system at low temperatures. After the air- and CO2-wet carbonations, the properties of a solution and hydrated cement paste powder are determined. In the air and CO2-wet carbonations, more Ca is extracted into the solution at a low temperature of 5°C. This high Ca concentration in the solution through air-wet carbonation primarily originates from the portlandite and unhydrated phases of the cement paste. Even in solutions with high pH values, the rehydration process and C–S–H decomposition occur simultaneously in air-wet carbonation. Moreover, CO2-wet carbonation indicates that the decalcification of C–S–H occurs rapidly, even in the presence of portlandite. Air-wet carbonation presents a potential method for the direct air capture of CO2 using concrete waste fines in a short period.",

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AU - Bui, Ngoc Kien

AU - Kurihara, Ryo

AU - Wang, Wei

AU - Kanematsu, Manabu

AU - Hyodo, Hikotsugu

AU - Takano, Miku

AU - Hirao, Hiroshi

AU - Noguchi, Takafumi

AU - Maruyama, Ippei

PY - 2023

Y1 - 2023

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AB - This study investigates the wet carbonation of concrete fines with CO2 and natural air gas bubbling in a carbonation system at low temperatures. After the air- and CO2-wet carbonations, the properties of a solution and hydrated cement paste powder are determined. In the air and CO2-wet carbonations, more Ca is extracted into the solution at a low temperature of 5°C. This high Ca concentration in the solution through air-wet carbonation primarily originates from the portlandite and unhydrated phases of the cement paste. Even in solutions with high pH values, the rehydration process and C–S–H decomposition occur simultaneously in air-wet carbonation. Moreover, CO2-wet carbonation indicates that the decalcification of C–S–H occurs rapidly, even in the presence of portlandite. Air-wet carbonation presents a potential method for the direct air capture of CO2 using concrete waste fines in a short period.

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JO - Journal of Advanced Concrete Technology

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ER -

Wet-carbonation-based Mineral Extraction and CO₂ Sequestration Using Concrete Waste Fines at a Low Temperature

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