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Effects of several factors in accelerated carbonation on neutralization and carbon dioxide capture of alkaline sludges treated with paper sludge ash-based stabilizer

Nguyễn Đức Trung, Aya Sakaguchi, Kimitoshi Hayano, Hiromoto Yamauchi

2023Case Studies in Construction Materials10 citationsDOIOpen Access PDF

Abstract

Recently, a technology was developed in Japan to accelerate the carbonation of alkaline construction sludge and reduce its alkalinity. Alkaline construction sludge is treated in advance using a paper sludge ash-based stabilizer (PSAS) so that it becomes granular and well aerated. Subsequently, CO 2 gas is injected from the bottom to the top of the treated sludge layer in the underground pit. This technology can reduce the pH of alkaline sludge within short periods; however, the completion period of pH neutralization has often been predicted empirically. This may be due to the combined effects of density, water content, particle size, PSAS amount in the sludge, and CO 2 concentration in the accelerated carbonation on the pH neutralization process. However, there have been few studies on how these factors affect the pH neutralization and CO 2 capture of PSAS-treated alkaline sludges subjected to accelerated carbonation. Therefore, in this study, the effects of several accelerated carbonation factors on neutralization and CO 2 capture from alkaline sludge were experimentally investigated. PSAS-treated alkaline sludges with different densities, water contents, particle sizes, and amounts of PSAS were cured in incubators with controlled CO 2 concentrations. Based on the pH measurements, the pH neutralization completion period ( t N ) was evaluated for each alkaline sludge sample. The test results revealed that t N increased with increasing dry density and particle size and decreasing CO 2 concentration. The results also suggest that t N increases with increasing amounts of PSAS. However, the water content had a more significant effect on t N than the PSAS amount. There may be an optimum water content for pH neutralization if conditions other than the water content are the same. From the results of the carbonate content evaluation, the amounts of CO 2 captured in each specimen ( m CO2 ) and m CO2 at t N were determined for each alkaline sludge sample. The results revealed that the density, water content, particle size of the alkaline sludge, and CO 2 concentration in the incubators did not significantly affect the amount of CO 2 captured by the sludge ( m CO2 ) upon the completion of pH neutralization. However, the amount of PSAS significantly affects the captured CO 2 content. A higher amount of PSAS caused m CO2 to increase at t N .

Topics & Concepts

CarbonationNeutralizationCarbon dioxideStabilizer (aeronautics)Environmental sciencePulp and paper industryEnvironmental chemistryChemistryWaste managementEngineeringOrganic chemistryMechanical engineeringImmunologyAntibodyBiologyConcrete and Cement Materials ResearchLandfill Environmental Impact StudiesCO2 Sequestration and Geologic Interactions
Effects of several factors in accelerated carbonation on neutralization and carbon dioxide capture of alkaline sludges treated with paper sludge ash-based stabilizer | Litcius