Kinetics of absorption of carbon dioxide in aqueous MDEA solutions with carbonic anhydrase at 298 K
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[1] F. Larachi. Kinetic Model for the Reversible Hydration of Carbon Dioxide Catalyzed by Human Carbonic Anhydrase II , 2010 .
[2] Raymond Davy,et al. Development of catalysts for fast, energy efficient post combustion capture of CO2 into water; an alternative to monoethanolamine (MEA) solvents , 2009 .
[3] A. Benamor,et al. An experimental investigation on the rate of CO2 absorption into aqueous methyldiethanolamine solutions , 2007 .
[4] P. W. J. Derks,et al. Kinetics of absorption of carbon dioxide in aqueous piperazine solutions , 2006 .
[5] P. W. J. Derks,et al. Carbon dioxide absorption in piperazine activated N-methyldiethanolamine , 2006 .
[6] S. Bandyopadhyay,et al. Physical Solubility and Diffusivity of N2O and CO2 into Aqueous Solutions of (2-Amino-2-methyl-1-propanol + Monoethanolamine) and (N-Methyldiethanolamine + Monoethanolamine) , 2004 .
[7] Gary T. Rochelle,et al. Absorption of carbon dioxide in aqueous piperazine/methyldiethanolamine , 2002 .
[8] A. Jamal. Absorption and desorption of CO2 and CO in alkanolamine systems , 2002 .
[9] Peter Harriott,et al. Chemical Reactor Design , 2002 .
[10] G. Versteeg,et al. Solubility and Diffusivity of Acid Gases (CO2, N2O) in Aqueous Alkanolamine Solutions , 2001 .
[11] J. Carson,et al. Enthalpy of solution of carbon dioxide in (water + monoethanolamine, or diethanolamine, orN-methyldiethanolamine) and (water + monoethanolamine + N-methyldiethanolamine) atT = 298.15 K , 2000 .
[12] S. Lindskog,et al. The catalytic mechanism of mammalian carbonic anhydrases. , 2000, EXS.
[13] N. Carter,et al. Introduction to the carbonic anhydrases. , 2000, EXS.
[14] S. Lindskog. Structure and mechanism of carbonic anhydrase. , 1997, Pharmacology & therapeutics.
[15] Geert Versteeg,et al. ON THE KINETICS BETWEEN CO2 AND ALKANOLAMINES BOTH IN AQUEOUS AND NON-AQUEOUS SOLUTIONS. AN OVERVIEW , 1996 .
[16] Geert Versteeg,et al. Mass Transfer Accompanied With Complex Reversible Chemical Reactions In Gas-Liquid Systems: An Overview , 1992 .
[17] N. Mulder,et al. Gas/Liquid mass transfer in a four-phase stirred fermentor : Effects of organic phase hold-up and surfactant concentration , 1992 .
[18] D. Silverman,et al. Carbonic Anhydrase Kinetics and Molecular Function , 1991 .
[19] C. Supuran,et al. Carbonic anhydrases , 2019, Carbonic Anhydrases.
[20] G. Versteeg,et al. Kinetics of Carbon Dioxide with tertiary Amines in aqueous solution , 1990 .
[21] Ryszard Pohorecki,et al. Kinetics of reaction between carbon dioxide and hydroxyl ions in aqueous electrolyte solutions , 1988 .
[22] Geert Versteeg,et al. Solubility and diffusivity of acid gases (carbon dioxide, nitrous oxide) in aqueous alkanolamine solutions , 1988 .
[23] Geert Versteeg,et al. On the kinetics between CO2 and alkanolamines both in aqueous and non-aqueous solutions—II. Tertiary amines , 1988 .
[24] K. Westerterp,et al. Chemical reactor design and operation , 1983 .
[25] W. Deckwer,et al. Kinetics of absorption of CO2 into buffer solutions containing carbonic anhydrase , 1980 .
[26] T. Yamane,et al. Oxygen Absorption into Oil-in-Water Emulsions. A Study on Hydrocarbon Fermentors , 1970 .
[27] D. Kern. The hydration of carbon dioxide , 1960 .
[28] L. Pearson,et al. The kinetics of combination of carbon dioxide with hydroxide ions , 1956 .