A rate based model of a packed column for CO2 absorption using aqueous monoethanolamine solution

Aboudheir, 2003, Kinetic of reactive absorption of carbon dioxide in high CO2-loaded, concentrated aqueous monoethenolamine solutions, Chemical Engineering Science, 58, 5195, 10.1016/j.ces.2003.08.014 Alatiqi, 1994, Steady-state rate-based modelling for CO2/amine absorption–desorption systems, Gas Separation & Purification, 8, 3, 10.1016/0950-4214(94)85002-X Asprion, 2006, Nonequilibrium rate-based simulation of reactive systems: simulation model, heat transfer, and influence of film discretization, Industrial & Engineering Chemistry Research, 45, 2054, 10.1021/ie050608m Austgen, D.M., 1989. A model of vapor–liquid equilibria for acid gas–alkanolamine–H2O systems. Ph.D. dissertation, http://www.che.utexas.edu/rochelle_group/Pubs/Austgen%20Diss.pdf. Bedell, 2011, Amine autoxidation in flue gas CO2 capture – mechanistic lessons learned from other gas treating processes, International Journal of Greenhouse Gas Control, 5, 1, 10.1016/j.ijggc.2010.01.007 Bravo, 1982, Generalized correlation for mass transfer in packed distillation columns, Industrial & Engineering Chemistry Process Design and Development, 21, 162, 10.1021/i200016a028 Brooke, 1996 Chakravarty, 1985, Reaction of acid gases with mixtures of amines, Chemical Engineering Progress, 81, 32 deMontigny, 2006, Modelling the performance of a CO2 absorber containing structured packing, Industrial & Engineering Chemistry Research, 45, 2594, 10.1021/ie050567u Dugas, R., 2006. Pilot plant study of carbon dioxide capture by aqueous monoethanolamine. M.S.E. Thesis, http://www.che.utexas.edu/rochelle_group/Pubs/Dugas_DOE_2006.pdf. Drud, 1992 Edali, 2009, Kinetics of carbon dioxide absorption into mixed aqueous solutions of MDEA and MEA using a laminar jet apparatus and a numerically solved 2D absorption rate/kinetics model, International Journal of Greenhouse Gas Control, 3, 550, 10.1016/j.ijggc.2009.04.006 Faramarzi, 2010, Absorber model for CO2 capture by monoethanolamine, Industrial & Engineering Chemistry Research, 49, 3751, 10.1021/ie901671f Freguia, S., 2002. Modeling of CO2 removal from flue gases using MEA. M.S. thesis, University of Texas at Austin, http://www.che.utexas.edu/rochelle_group/Pubs/FreguiaPubThesis.pdf. Greer, T., 2008. Modeling and Simulation of Post Combustion CO2 Capturing. Ph.D. thesis, Telemark University College, Faculty of Technology, Porsgrunn, Norway. Hilliard, M.D., 2008. A predictive thermodynamic model for an aqueous blend of potassium carbonate, piperazine and monoethanolamine for carbon dioxide capture from flue gas. Ph.D. dissertation, University of Texas of Austin. Kister, 1992 Kucka, 2002, Kinetics of the gas–liquid reaction between carbon dioxide and hydroxide ions, Industrial & Engineering Chemistry Research, 41, 5952, 10.1021/ie020452f Kucka, 2003, On the modeling and simulation of sour gas absorption by aqueous amine solutions, Chemical Engineering Science, 58, 3571, 10.1016/S0009-2509(03)00255-0 Lawal, 2009, Dynamic modelling of CO2 absorption for post combustion capture in coal-fired power plants, Fuel, 88, 2455, 10.1016/j.fuel.2008.11.009 Lepaumier, 2009, New amines for CO2 capture. I. Mechanisms of amine degradation in the presence of CO2, Industrial & Engineering Chemistry Research, 48, 9061, 10.1021/ie900472x Lepaumier, 2009, New amines for CO2 capture. II. Oxidative degradation mechanisms, Industrial & Engineering Chemistry Research, 48, 9068, 10.1021/ie9004749 Lepaumier, 2010, New amines for CO2 capture. III. Effect of alkyl chain length between amine functions on polyamines degradation, Industrial & Engineering Chemistry Research, 49, 4553, 10.1021/ie902006a Liu, 1999, Representing vapor–liquid equilibrium for an aqueous MEA-CO2 system using the electrolyte nonrandom-two-liquid model, Industrial & Engineering Chemistry Research, 38, 2080, 10.1021/ie980600v Mccabe, 2005 Mindrup, 2010, Computational comparison of the reactions of substituted amines with CO2, Chemistry and Sustainability ChemSusChem Energy and Materials, 3, 931 Onda, 1968, Mass transfer coefficients between gas and liquid phases in packed columns, Journal of Chemical Engineering of Japan, 1, 52, 10.1252/jcej.1.56 Oyenekan, B., 2007. Modeling of strippers for CO2 capture by aqueous amines. Ph.D. dissertation, University of Texas at Austin. Perry, 1997 Peng, 1976, A new two constant equation of state, Industrial Engineering Chemical Fundamentals, 15, 59, 10.1021/i160057a011 Qin, 2010, Kinetics of CO2 absorption in aqueous ammonia solution, International Journal of Greenhouse Gas Control, 4, 729, 10.1016/j.ijggc.2010.04.010 van Loo, 2007, Removal of carbon dioxide with activated solutions of methyl-diethanol-amine, Journal of Petroleum Science and Engineering, 55, 135, 10.1016/j.petrol.2006.04.017 Sexton, 2011, Reaction products from the oxidative degradation of monoethanolamine, Industrial & Engineering Chemistry Research, 50, 667, 10.1021/ie901053s Simon, 2011, Rate based modeling and validation of a carbon-dioxide pilot plant absorption column operating on monoethanolamine, Chemical Engineering Research and Design, 89, 1684, 10.1016/j.cherd.2010.10.024 Taylor, 1993 -Tontiwachwuthikul, 1992, CO2 absorption by NaOH, monoethanolamine, and 2-amino-2-methyl-1-propanol solutions in a packed column, Chemical Engineering Science, 47, 381, 10.1016/0009-2509(92)80028-B Wilson, I., 2004. Gas liquid contact area of random and structured packing. M.S. thesis, University of Texas at Austin. Zhang, 2009, Rate-based process modeling study of CO2 capture with aqueous monoethanolamine solution, Industrial & Engineering Chemistry Research, 48, 9233, 10.1021/ie900068k