[1] Naami A. Mass transfer studies of carbon dioxide absorption into aqueous solutions of 4-
(diethylamine)-2-butanol, blended monoethanolamine with 4-(diethylamine)-2-butanol, and
blended monoethanolamine with methyldiethanolamine. [Doctoral dissertation]. Regina: University
of Regina; 2013.
[2] Khajeh M, Ghaemi A. Exploiting response surface methodology for experimental modeling and
optimization of CO2 adsorption onto NaOH-modified nanoclay montmorillonite. Journal of
Environmental Chemical Engineering. 2020 Apr 1;8(2):103663.
[3] Ramezanipour Penchah H, Ghaemi A, Ganadzadeh Gilani H. Benzene-based hyper-cross-linked
polymer with enhanced adsorption capacity for CO2 capture. Energy & Fuels. 2019 Nov
6;33(12):12578-86.
[4] Edali M, Idem R, Aboudheir A. 1D and 2D absorption-rate/kinetic modeling and simulation of
carbon dioxide absorption into mixed aqueous solutions of MDEA and PZ in a laminar jet apparatus.
International Journal of Greenhouse Gas Control. 2010 Mar 1;4(2):143-51.
[5] Pashaei H, Zarandi MN, Ghaemi A. Experimental study and modeling of CO2 absorption into
diethanolamine solutions using stirrer bubble column. Chemical Engineering Research and Design.
2017 May 1;121:32-43.
[6] Kazemi S, Ghaemi A, Tahvildari K. Chemical absorption of carbon dioxide into aqueous piperazine
solutions using a stirred reactor. Iranian Journal of Chemistry and Chemical Engineering (IJCCE).
2019 May 11.
[7] Ghaemi A, Jafari Z, Etemad E. Prediction of CO2 mass transfer flux in aqueous amine solutions
using artificial neural networks. Iranian Journal of Chemistry and Chemical Engineering (IJCCE).
2018 Jul 18.
[8] Pashaei H, Zarandi MN, Ghaemi A. Experimental study and modeling of CO2 absorption into
diethanolamine solutions using stirrer bubble column. Chemical Engineering Research and Design.
2017 May 1;121:32-43.
[9] Campbell JM, and Maddox RN, Gas conditioning and processing vol. 1: The Basic Principles. Campbell Petroleum Series, 1970.
[10] Kohl AL, and Nielsen R. Gas purification: Gulf Professional Publishing, 1997.
[11] Pashaei H, Ghaemi A, Nasiri M. Experimental investigation of CO2 removal using Piperazine solution in a stirrer bubble column. International Journal of Greenhouse Gas Control. 2017 Aug 1;63:226-40.
[12] Mirzaei F, Ghaemi A. An experimental correlation for mass transfer flux of CO2 reactive absorption into aqueous MEA‐PZ blended solution. Asia‐Pacific Journal of Chemical Engineering. 2018 Nov;13(6):e2250.
[13] Ramachandran N, Aboudheir A, Idem R, Tontiwachwuthikul P. Kinetics of the absorption of CO2 into mixed aqueous loaded solutions of monoethanolamine and methyldiethanolamine. Industrial & Engineering Chemistry Research. 2006 Apr 12;45(8):2608-16.
[14] Chakravarty T, Phukan UK, Weilund RH. Reaction of acid gases with mixtures of amines. Chemical Engineering Progress;(United States). 1985 Apr 1;81(4).
[15] Mandal BP, Guha M, Biswas AK, Bandyopadhyay SS. Removal of carbon dioxide by absorption in mixed amines: modelling of absorption in aqueous MDEA/MEA and AMP/MEA solutions. Chemical Engineering Science. 2001 Nov 1;56(21-22):6217-24.
[16] Austgen DM, Rochelle GT, Chen CC. Model of vapor-liquid equilibria for aqueous acid gas-alkanolamine systems. II, Representation of H2S and CO2 solubility in aqueous MDEA and CO2 solubility in aqueous mixtures of MDEA qwith MEA or DEA. Industrial & Engineering Chemistry Research. 1991;30(3):543-55.
[17] Shen KP, Li MH. Solubility of carbon dioxide in aqueous mixtures of monoethanolamine with methyldiethanolamine. Journal of chemical and Engineering Data. 1992 Jan;37(1):96-100.
[18] Hagewiesche DP, Ashour SS, Al-Ghawas HA, Sandall OC. Absorption of carbon dioxide into aqueous blends of monoethanolamine and N-methyldiethanolamine. Chemical Engineering Science. 1995 Apr 1;50(7):1071-9.
[19] Norouzbahari S, Shahhosseini S, Ghaemi A. Chemical absorption of CO 2 into an aqueous piperazine (PZ) solution: development and validation of a rigorous dynamic rate-based model. RSC Advances. 2016;6(46):40017-32.
[20] Lawal AO, Idem RO. Effects of Operating Variables on the Product Distribution and Reaction Pathways in the Oxidative Degradation of CO2-Loaded Aqueous MEA− MDEA Blends during CO2 Absorption from Flue Gas Streams. Industrial & Engineering Chemistry Research. 2005 Feb 16;44(4):986-1003.
[21] Lawal AO, Idem RO. Kinetics of the oxidative degradation of CO2 loaded and concentrated aqueous MEA-MDEA blends during CO2 absorption from flue gas streams. Industrial & Engineering Chemistry Research. 2006 Apr 12;45(8):2601-7.
[22] Edali M, Aboudheir A, Idem R. 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. 2009 Sep 1;3(5):550-60.
[23] Sema T, Naami A, Fu K, Edali M, Liu H, Shi H, Liang Z, Idem R, Tontiwachwuthikul P. Comprehensive mass transfer and reaction kinetics studies of CO2 absorption into aqueous solutions of blended MDEA–MEA. Chemical Engineering journal. 2012 Oct 15;209:501-12.
[24] Adeosun A, El Hadri N, Goetheer E, Abu-Zahra MR. Absorption of CO2by Amine Blends Solution: An Experimental Evaluation. International Journal of Engineering and Science. 2013;3(9):12-23.
[25] Naami A, Sema T, Edali M, Liang Z, Idem R, Tontiwachwuthikul P. Analysis and predictive correlation of mass transfer coefficient KGav of blended MDEA-MEA for use in post-combustion CO2 capture. International Journal of Greenhouse Gas Control. 2013 Nov 1;19:3-12.
[26] Koronaki IP, Prentza L, Papaefthimiou V. Modeling of CO2 capture via chemical absorption processes− An extensive literature review. Renewable and Sustainable Energy Reviews. 2015 Oct 1;50:547-66.
[27] Heydarifard M, Pashaei H, Ghaemi A, Nasiri M. Reactive absorption of CO2 into Piperazine aqueous solution in a stirrer bubble column: Modeling and experimental. International Journal of Greenhouse Gas Control. 2018 Dec 1;79:91-116.
[28] Majeed H. Reactive absorption of CO2 in single and blended amine systems. [Master's thesis]. Trondheim: Institutt for Kjemisk Prosessteknologi; 2013.
[29] Kierzkowska-Pawlak H. Determination of kinetics in gas-liquid reaction systems. An overview. Ecological Chemistry and Engineering S. 2012 Jan 1;19(2):175-96.
[30] Hogendoorn JA, Bhat RV, Kuipers JA, Van Swaaij WP, Versteeg GF. Approximation for the enhancement factor applicable to reversible reactions of finite rate in chemically loaded solutions. Chemical Engineering Science. 1997 Dec 1;52(24):4547-59.
[31] Hoftyzer PJ, Van Krevelen DW. Applicability of the results of small-scale experiments to the design of technical apparatus for gas absorption. InTransactions of the Institution of Chemical Engineers, Supplement (Proceedings of the Symposium on Gas Absorption 1954 (Vol. 32, pp. S60-S67).
[32] Last W, Stichlmair J. Determination of mass transfer parameters by means of chemical absorption. Chemical Engineering & Technology. 2002 Apr;25(4):385-91.
[33] Wenmakers PW, Hoorn JA, Kuipers JA, Deen NG. Gas–liquid mass transfer enhancement by catalyst particles, a modelling study. Chemical Engineering Science. 2016 May 12;145:233-44.
[34] Hikita H. Gas absorption with (m, n)-th order irreversible chemical reaction. International Chemical Engineering. 1964;4:332-40.
[35] Li X, Zhu C, Lu S, Ma Y. Mass transfer of SO2 absorption with an instantaneous chemical reaction in a bubble column. Brazilian Journal of Chemical Engineering. 2013 Sep;30(3):551-62.
[36] Alhseinat E, Mota-Martinez M, Peters C, Banat F. Incorporating Pitzer equations in a new thermodynamic model for the prediction of acid gases solubility in aqueous alkanolamine solutions. Journal of Natural Gas Science and Engineering. 2014 Sep 1;20:241-9.
[37] Sun WC, Yong CB, Li MH. Kinetics of the absorption of carbon dioxide into mixed aqueous solutions of 2-amino-2-methyl-l-propanol and piperazine. Chemical Engineering Science. 2005 Jan 1;60(2):503-16.
[38] Awais M. Determination of the mechanism of the reaction between CO2 and alkanolamines [Master's thesis] Trondheim: Institutt for Kjemisk Prosessteknologi; 2013.
[39] Etemad E, Ghaemi A, Shirvani M. Rigorous correlation for CO2 mass transfer flux in reactive absorption processes. International Journal of Greenhouse Gas Control. 2015 Nov 1;42:288-95.
[40] Pashaei H, Ghaemi A, Nasiri M. Modeling and experimental study on the solubility and mass transfer of CO 2 into aqueous DEA solution using a stirrer bubble column. RSC Advances. 2016;6(109):108075-92.
[41] Sadegh N, Stenby EH, Thomsen K. Acid gas removal from natural gas with alkanolamines: a modeling and experimental study. Kgs. Lyngby: Technical University of Denmark. 2013.
[42] Faramarzi L, Kontogeorgis GM, Thomsen K, Stenby EH. Extended UNIQUAC model for thermodynamic modeling of CO2 absorption in aqueous alkanolamine solutions. Fluid Phase Equilibria. 2009 Aug 25;282(2):121-32.
[43] Sadegh N, Stenby EH, Thomsen K. Thermodynamic modeling of CO2 absorption in aqueous N-Methyldiethanolamine using Extended UNIQUAC model. Fuel. 2015 Mar 15;144:295-306.
[44] Sanchez IC, Svendsen HF. Carbon dioxide solubility and mass transfer in aqueous amines for carbon capture. [Doctoral dissertation]. Austin: University of Texas; 2015.
[45] Lagarias JC, Reeds JA, Wright MH, Wright PE. Convergence properties of the Nelder--Mead simplex method in low dimensions. SIAM Journal on Optimization. 1998;9(1):112-47.
[46] Puxty G, Rowland R, Attalla M. Describing CO2 mass transfer in amine/ammonia mixtures—No shuttle mechanism required. Energy Procedia. 2011 Jan 1;4:1369-76.
[47] Samanta A, Bandyopadhyay SS. Absorption of carbon dioxide into piperazine activated aqueous N-methyldiethanolamine. Chemical Engineering Journal. 2011 Jul 15;171(3):734-41.