Process modelling and analysis of intensified CO2 capture using monoethanolamine (MEA) in rotating packed bed absorber

• Main Authors: Borhani, T.N (Author), Oko, E. (Author), Wang, M. (Author)
• Format: Article
• Language: English
• Published: Elsevier Ltd 2018
• Subjects: Carbon capture; Carbon dioxide; Chemical absorption; Ethanolamines; Kinetic theory; Orthogonal array design; Orthogonal array designs; Packed beds; Process engineering; Process intensification; Process modelling; Rotating packed bed; Rotors
• Online Access: View Fulltext in Publisher

 Rotating packed bed (RPB) absorber using monoethanolamine (MEA) as the solvent to capture CO2 is modelled at steady state condition in this study according to the first principles in gPROMS®. The effect of eight different kinetic reaction models and five enhancement factors is examined based on the newly developed model. Selection of kinetic model has a significant effect on the carbon capture level (CCL) but the effect of enhancement factor relation is not important. The steady state process model is validated against the experimental data and showed good agreement. The average absolute relative deviation for 12 case-runs is 3.5%. In addition, process analysis is performed to evaluate the effect of four factors namely rotor speed, MEA concentration in lean MEA solution, lean MEA solution temperature and lean MEA solution flow rate on CCL. Finally, the orthogonal array design (OAD) method is applied to analyse the simultaneous effect of the above-mentioned factors in the CCL and motor power of RPB absorber by considering 25 scenarios. The result of using OAD revealed that rotor speed has the most important effect on CCL, and after that lean MEA solution flow rate has the second importance. In addition, the OAD method is used to find the proper combination of four factors that resulted in about 90% CCL with low motor power. © 2018