TY - JOUR
T1 - Modeling and Simulation of Carbon Dioxide Gas Reactive Desorption Process with Piperazine Promoted Diethanolamine Solvent in Sieve Tray Column
AU - Nisa, Nur Ihda Farikhatin
AU - Balqis, Nabila Farras
AU - Mukhlish, Muhammad Anshorulloh
AU - Altway, Ali
AU - Mahfud, M.
N1 - Publisher Copyright:
Copyright © 2022 by Authors.
PY - 2022/12
Y1 - 2022/12
N2 - Carbon dioxide (CO2) is an acidic and corrosive gas, and the presence of this gas in the piping system can cause various problems in the industrial sector. Therefore, the CO2 must be separated from the gas stream. One of the CO2 gas separation processes from the gas stream is carried out in a CO2 removal unit, where a desorption unit serves as a solvent regeneration step. Therefore, this study aims to develop a rate-based model and simulation of the reactive desorption process of CO2 gas in a sieve tray column. The rate-based model in the reactive desorption process of CO2 gas is based on film theory, the liquid in the tray is assumed completely agitated due to gas bub-bling, the flow pattern of gas is plug flow, and the effect of the reaction on the mass transfer follows the enhance-ment factor concept. The number of trays used in this study was 20. In addition, the effect of several variables, such as: desorber pressure, rich amine temperature, rich amine flow rate, and reboiler load, was also assessed on the CO2 stripping efficiency. The accuracy of our prediction model is 1.34% compared with industrial plant data. Compared with the chemical engineering simulator simulation results, the average deviation is 4%.
AB - Carbon dioxide (CO2) is an acidic and corrosive gas, and the presence of this gas in the piping system can cause various problems in the industrial sector. Therefore, the CO2 must be separated from the gas stream. One of the CO2 gas separation processes from the gas stream is carried out in a CO2 removal unit, where a desorption unit serves as a solvent regeneration step. Therefore, this study aims to develop a rate-based model and simulation of the reactive desorption process of CO2 gas in a sieve tray column. The rate-based model in the reactive desorption process of CO2 gas is based on film theory, the liquid in the tray is assumed completely agitated due to gas bub-bling, the flow pattern of gas is plug flow, and the effect of the reaction on the mass transfer follows the enhance-ment factor concept. The number of trays used in this study was 20. In addition, the effect of several variables, such as: desorber pressure, rich amine temperature, rich amine flow rate, and reboiler load, was also assessed on the CO2 stripping efficiency. The accuracy of our prediction model is 1.34% compared with industrial plant data. Compared with the chemical engineering simulator simulation results, the average deviation is 4%.
KW - Desorption
KW - Diethanolamine
KW - Rate-based model
KW - Stripper
KW - Tray column
UR - http://www.scopus.com/inward/record.url?scp=85149900984&partnerID=8YFLogxK
U2 - 10.9767/bcrec.17.4.16245.798-810
DO - 10.9767/bcrec.17.4.16245.798-810
M3 - Article
AN - SCOPUS:85149900984
SN - 1978-2993
VL - 17
SP - 798
EP - 810
JO - Bulletin of Chemical Reaction Engineering and Catalysis
JF - Bulletin of Chemical Reaction Engineering and Catalysis
IS - 4
ER -