首页|An integrated technology for the absorption and utilization of CO2 in alkanolamine solution for the preparation of BaCO3 in a high-gravity environment

An integrated technology for the absorption and utilization of CO2 in alkanolamine solution for the preparation of BaCO3 in a high-gravity environment

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In this study,an integrated technology is proposed for the absorption and utilization of CO2 in alka-nolamine solution for the preparation of BaCO3 in a high-gravity environment.The effects of absorbent type,high-gravity factor,gas/liquid ratio,and initial BaCl2 concentration on the absorption rate and amount of CO2 and the preparation ofBaCO3 are investigated.The results reveal that the absorption rate and amount of CO2 follow the order of ethyl alkanolamine(MEA)>diethanol amine(DEA)>N-meth-yldiethanolamine(MDEA),and thus MEA is the most effective absorbent for CO2 absorption.The ab-sorption rate and amount of CO2 under high gravity are higher than that under normal gravity.Notably,the absorption rate at 75 min under high gravity is approximately 2 times that under normal gravity.This is because the centrifugal force resulting from the high-speed rotation of the packing can greatly increase gas-liquid mass transfer and micromixing.The particle size of BaCO3 prepared in the rotating packed bed is in the range of 57.2-89 nm,which is much smaller than that prepared in the bubbling reactor(>100.3 nm),and it also has higher purity(99.6%)and larger specific surface area(14.119 m2.g-1).It is concluded that the high-gravity technology has the potential to increase the absorption and utilization of CO2 in alkanolamine solution for the preparation of BaCO3.This study provides new insights into carbon emissions reduction and carbon utilization.

High-gravity technologyWet absorptionCO2 captureEnhanced mass transferCO2 utilizationBarium carbonate

Kangrui Nie、Ruize Shang、Fuming Miao、Liuxiang Wang、Youzhi Liu、Weizhou Jiao

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Shanxi Province Key Laboratory of Chemical Process Intensification and School of Chemistry and Chemical Engineering,North University of China,Taiyuan 030051,China

Research Project Supported by Horizon Europe Framework ProgrammeShanxi Scholarship Council of ChinaNational Natural Science Foundation of ChinaFundamental Research Program of Shanxi ProvinceSmall and mediumsized oriented scientific and technological enterprises innovation ability improvement project of Shandong Provi

1011830922023-12822208328202103021246182023TSGC0004

2024

10.1016/j.cjche.2024.04.012

中国化学工程学报(英文版)
中国化工学会

中国化学工程学报(英文版)

CSTPCDEI
影响因子:0.818
ISSN:1004-9541
年,卷(期):2024.72(8)