[1] Z. Liang, K. Fu, R. Idem, P. Tontiwachwuthikul, Review on current advances, future challenges and consideration issues for post-combustion CO2 capture using amine-based absorbents, Chin. J. Chem. Eng. 24(2016) 278-288.[2] A.M. Chakma, A. Meisen, Identification of methyl diethanolamine degradation products by gas chromatography and gas chromatography-mass spectrometry, J. Chromatogr. 457(1988) 287-297.[3] M. Appl, H.J. Henrici, U. Wagner, K. Keussner, K. Volkamer, E. Fuerst, Removal of CO2 and/or H2S and/or COS from gases containing these constituents, Canadian Patent 1(1980) 90-98.[4] Q. Zhi, G. Kai, Modeling and kinetic study on absorption of CO2 by aqueous solutions of N-methyldiethanolamine in a modified wetted wall column, Chin. J. Chem. Eng. 17(2009) 571-579.[5] N. Verma, A. Verma, Amine system problems arising from heat stable salts and solutions to improve system performance, Fuel Process. Technol. 90(2009) 483-489.[6] L.D. Polderman, C.P. Dillon, A.B. Steele, Why monoethanolamine solution breaks down in gas-treating service, Oil Gas J. 54(1955) 180-183.[7] B.R. Strazisar, R.R. Anderson, C.M. White, Degradation pathways for monoethanolamine in a CO2 capture facility, Energy Fuel 17(2003) 1034-1039.[8] H. Liu, X. Luo, Z. Liang, P. Tontiwachwuthikul, Determination of vapor-liquid equilibrium (VLE) plots of 1-dimethylamino-2-propanol solutions using the pH method, Ind. Eng. Chem. Res. 54(17) (2015) 4709-4716.[9] C.J. Kim, G. Sartori, Kinetics and mechanism of diethanolamine degradation in aqueous solutions containing carbon dioxide, In. J. Chem. Kinet. 16(1984) 1257-1266.[10] A. Chakma, A. Meisen, Degradation of aqueous DEA solutions in a heat transfer tube, Can. J. Chem. Eng. 65(1987) 264-273.[11] M.L. Kennard, A. Meisen, Gas chromatographic technique for analyzing partially degraded diethanolamine solutions, J. Chromatogr. 267(1983) 373-380.[12] M.L. Kennard, A. Meisen, Mechanisms and kinetics of diethanolamine degradation, Ind. Eng. Chem. Res. Fundam. 24(1985) 129-140.[13] C.S. Hsu, C.J. Kim, Diethanolamine (DEA) degradation under gas treating conditions, Ind. Eng. Chem. Prod. Res. Dev. 24(1985) 630-635.[14] A. Chakma, E. Chornet, R.P. Overend, W.H. Dawson, Absorption of CO2 by aqueous diethanolamine (DEA) solutions in a high shear jet absorber, Can. J. Chem. Eng. 68(1990) 592-598.[15] P.E.C. Holub, W.-Y. Su, Amine degradation chemistry in CO2 service, 48th Annual Laurance Reid Gas Conditioning Conference, Norman, Oklahoma 1998, pp. 146-160.[16] A. Chakma, A. Meisen, Methyl-diethanolamine degradation-Mechanism and kinetics, Can. J. Chem. Eng. 75(5) (1997) 861-871.[17] H. Gao, Z. Liang, H. Liao, R.O. Idem, Thermal degradation of aqueous DEEA solution at stripper conditions for post-combustion CO2 capture, Chem. Eng. Sci. 135(2015) 330-342.[18] P.D.D. Clark, P.M. Davis, Introduction to sulphur chemistry and sulphur handling, Sulphur 2004 Conference, Barcelona (Spain), October 24, 2004.[19] O.F. Dawodu, A. Meisen, Degradation of aqueous diethanolamine solutions by carbon disulphide, Gas Sep. Purif. 10(1996) 1-11.[20] O.F. Dawodu, A. Axel Meisen, Mechanism and kinetics of COS-induced diethanolamine degradation, Ind. Eng. Chem. Res. 33(1994) 480-487.[21] O. Dawodu, A. Meisen, The effects of operating conditions on COS-induced degradation of aqueous diethanolamine solutions, Gas Sep. Purif. 6(1992) 115-124.[22] O. Dawodu, A. Meisen, Identification of products resulting from carbonyl sulphideinduced degradation of diethanolamine, J. Chromatogr. 587(1991) 237-246.[23] G. Versteeg, H. Oyevaar, The reaction between CO2 and diethanolamine at 298 K, Chem. Eng. Sci. 44(1989) 1264-1268.[24] H. Lepaumier, S. Martin, D. Picq, B. Delfort, P.-L. Carrette, New amines for CO2 capture. Ⅲ. Effect of alkyl chain length between amine functions on polyamines degradation, Ind. Eng. Chem. Res. 49(2010) 4553-4560.[25] H. Lepaumier, D. Picq, P.-L. Carrette, New amines for CO2 capture. Ⅱ. Oxidative degradation mechanisms, Ind. Eng. Chem. Res. 48(2009) 9068-9075.[26] A.J. Sexton, G.T. Rochelle, Catalysts and inhibitors for oxidative degradation of monoethanolamine, Int. J. Greenhouse Gas Control 3(2009) 704-711.[27] E.J. Stewart, R.A. Lanning, Reduce amine plant solvent losses, Hydrocarb. Process. 73(1994).[28] R. Kadnar, Determination of amines used in the oil and gas industry (upstream section) by ion chromatography, J. Chromatogr. A 850(1999) 289-295.[29] M. Kaminski, D. Jastrzebski, A. Przyjazny, R. Kartanowicz, Determination of the amount of wash amines and ammonium ion in desulfurization products of process gases and results of related studies, J. Chromatogr. A 947(2002) 217-225.[30] O. Mrklas, A. Chu, S. Lunn, Determination of ethanolamine, ethylene glycol and triethylene glycol by ion chromatography for laboratory and field biodegradation studies, J. Environ. Monit. 5(2003) 336-340.[31] F. Closmann, T. Thu Nguyen, G.T. Rochelle, MDEA/Piperazine as a solvent for CO2 capture, Energy Procedia 1(2009) 1351-1357.[32] F. Barzagli, F. Mani, M. Peruzzini, Continuous cycles of CO2 absorption and amine regeneration with aqueous alkanolamines:A comparison of the efficiency between pure and blended DEA, MDEA and AMP solutions by 13C NMR spectroscopy, Energy Environ. Sci. 3(6) (2010) 772-779.[33] M. Hasib-ur-Rahman, M. Siaj, F. Larachi, CO2 capture in alkanolamine/roomtemperature ionic liquid emulsions:A viable approach with carbamate crystallization and curbed corrosion behavior, Int. J. Greenhouse Gas Control 6(2012) 246-252.[34] O. Lawal, A. Bello, R. Idem, The role of methyl diethanolamine (MDEA) in preventing the oxidative degradation of CO2 loaded and concentrated aqueous monoethanolamine (MEA)-MDEA blends during CO2 absorption from flue gases, Ind. Eng. Chem. Res. 44(6) (2005) 1874-1896.[35] J.G. Thompson, R. Frimpong, J.E. Remias, J.K. Neathery, K. Liu, Heat stable salt accumulation and solvent degradation in a pilot-scale CO2 capture process using coal combustion flue gas, Aerosol Air Qual. Res. 14(2) (2014) 550-558.[36] D.K. Lee, Mechanism and kinetics of the catalytic oxidation of aqueous ammonia to molecular nitrogen, Environ. Sci. Technol. 37(24) (2003) 5745-5749.[37] S. Bazhenov, V. Vasilevsky, A. Rieder, S. Unterberger, E. Grushevenko, V. Volkov, A. Volkov, Heat stable salts (HSS) removal by electrodialysis:Reclaiming of MEA used in post-combustion CO2-capture, Energy Procedia 63(2014) 6349-6356. |