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A multi-approach study on CO2 absorption in packed beds: Theoretical, experimental, and CFD perspectives on gas phase pulsationA multi-approach study on CO2 absorption in packed beds: Theoretical experimental, and CFD perspectives on gas phase pulsation

Other Titles
A multi-approach study on CO2 absorption in packed beds: Theoretical experimental, and CFD perspectives on gas phase pulsation
Authors
Pattnaik, ChaturmukhaKumar, RameshKhan, Moonis AliPahari, PallabiBanik, AnirbanJeon, Byong-HunBanerjee, ShirsenduChakrabortty, SankhaTripathy, Suraj K
Issue Date
Jun-2025
Publisher
한국공업화학회
Keywords
Bed height and diameter; Computational Fluid Dynamics; Gas liquid absorption; Pulsation; Regular packed bed
Citation
Journal of Industrial and Engineering Chemistry, v.146, pp 641 - 655
Pages
15
Indexed
SCIE
SCOPUS
KCI
Journal Title
Journal of Industrial and Engineering Chemistry
Volume
146
Start Page
641
End Page
655
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212611
DOI
10.1016/j.jiec.2024.11.046
ISSN
1226-086X
1876-794X
Abstract
This work seeks to improve CO2 absorption efficiency in packed bed columns by substituting amine-based solvents with sodium hydroxide and implementing gas phase pulsation to enhance mass transfer coefficients. Experimental analysis and computational fluid dynamics modeling were employed to investigate the impact of pulsation on absorption efficiency under various conditions. Essential parameters comprised superficial liquid velocity (1.2–4.6 cm/s), pulsation frequency (0–10 Hz), amplitude (0–20 mm), and NaOH concentration (0.25 N to 2 N), while maintaining a constant superficial gas velocity of 120 cm/s and a solute gas concentration of 13 %. Three packing materials—glass spheres, ceramic Raschig rings, and ceramic Pall rings—were evaluated. The results demonstrated that ceramic Pall rings exhibited the greatest efficiency. Pulsation, namely at 9.06 Hz and 20 mm amplitude, enhanced the volumetric mass transfer coefficient by as much as 4.53 times for Pall rings. Increased column diameters (from 7.00 cm to 11.5 cm) enhanced performance. The findings show advancement of more efficient CO2 absorption (by switching from chemical absorption using amine based solvents to classical chemical absorption using aqueous NaOH solution) for industrial applications, aiding climate change mitigation initiatives.
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서울 공과대학 > 서울 자원환경공학과 > 1. Journal Articles

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COLLEGE OF ENGINEERING (DEPARTMENT OF EARTH RESOURCES AND ENVIRONMENTAL ENGINEERING)
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