An Experimental Investigation of Reactive Absorption of Carbon Dioxide into an Aqueous …

Ahmadi, M., Gomes, V. G., and Ngian, K., Advanced Modelling in Performance Optimization for Reactive Separation in Industrial CO2 Removal, Separation and Purification Technology, Vol. 63, No. 107, 2008.

Brettschneider, O., Thiele, R., Faber, R., Thielert, H., and Wozny, G., Experimental Investigation and Simulation of a Chemical Absorption in a Packed Column for a System NH3–CO2–H2S–NaOH–H2O, Separation and Purification Technology, Vol. 39, p. 139, 2004.

Beutier, D. and Renon, H., Representation of NH3-H2S-H2O, NH3-CO2-H2O, and NH3-SO2 -H2O Vapor-liquid Equilibria, Industrial Engineering Chemical Processing Design and Development, Vol. 17, p. 220, 1978.

Edwards, T. J., Maurer, G., Newman, J., and Prausnitz, J. M., Vapor-liquid Equilibria in Multicomponent Aqueous Solutions of Volatile Weak Electrolytes, AIChE Journal, Vol. 24, p. 966 1978.

Etemad, E., Ghaemi A., and Shirvani M., Rigorous Correlation for CO2 Mass Transfer Flux in Reactive Absorption Processes, International Journal of Greenhouse Gas Control, Vol. 42, p. 288, 2015.

Gaspar, J. and Cormos A.M., Dynamic Modeling and Validation of Absorber and Desorber Columns for Post-combustion CO2 Capture, Computer Chemical Engineering, Vol. 35, p. 2044, 2011.

Ghaemi, A., Shahhosseini, Sh, and Ghannadi M., Experimental Investigation of Reactive Absorption of Ammonia and Carbon Dioxide by Carbonated Ammonia Solution, Iranian Journal of Chemistry and Chemical Engineering Research, Vol. 30, p. 2, 2011.

Ghaemi, A., Sh., Shahhosseini, and Ghannadi M., Nonequilibrium Dynamic Modeling of Carbon Dioxide Absorption by Partially Carbonated Ammonia Solutions, Chemical Engineering Journal, Vol. 149, p. 110, 2009.

Ghaemi, A., Torab-Mostaedi M., and Ghannadi, M., Nonequilibrium Dynamic Modeling of Simultaneous Reactive Absorption of Gases, Journal of Taiwan Institute Chemical Engineering, Vol. 42, p. 173, 2011b.

Ghaemi, A., Ghannadi, M., and Mostaedi, M., Kinetics and Absorption Rate of CO2 into Partially Carbonated Ammonia Solutions, Chemical Engineering Communication, Vol. 198, p. 1169, 2011c.

Noeres, C., Kenig, E. Y., and Gorak A., Modeling of Reactive Separation Processes: Reactive Absorption and Reactive Distillation, Chemical Engineering Processing, Vol. 42, p. 157, 2003.

Norouzbahari, S., S. Shahhosseini, and Ghaemi A., Chemical Absorption of CO2 into an Aqueous Piperazine (PZ) Solution: Development and Validation of a Rigorous Dynamic Rate-based Model, RSC Advances, Vol. 6, p. 240017, 2016.

Norouzbahari, S., Shahhosseini S., and Ghaemi A., CO2 Chemical Absorption into Aqueous Solutions of Piperazine: Modeling of Kinetics and Mass Transfer Rate, Journal of Natural Gas Science and Engineering, Vol. 26, p. 1059, 2015.

Kamps, A., Sing, R., Rumpf, B., and Maurer, G., Influence of NH4Cl, NH4NO3, and NaNO3 on a Simultaneous Solubility of Ammonia and Carbon Dioxide in Water, Journal of  Chemical Engineering Data, Vol. 45, p. 796, 2000.

Khan, F. M., Krishnamoorthi V., and Mahmud T., Modeling Reactive Absorption of CO2 in Packed Columns for Post-combustion Carbon Capture Applications, Chemical Engineering Research and Design, Vol. 89, p. 1600, 2011.

Kontogeorgis, G. M., and Folas, G. K., Thermodynamic Models for Industrial Applications: from Classical and Advanced Mixing Rules to Association Theories: Wiley, 2009.

Pacheco, M. A. and Rochelle G. T., Rate-based Modeling of Reactive Absorption of CO2 and H2S into Aqueous Methyldiethanolamine, Industrial Engineering Chemical Research, Vol. 37, p. 4107, 1998.

Pashaei, H., Ghaemi A., and Nasiri M., Experimental Investigation of CO2 Removal Using Piperazine Solution in a Stirrer Bubble Column, International Journal of Greenhouse Gas Control, Vol. 63, p. 226, 2017.

Pashaei, H., Ghaemi A., and Zarandi M.N., Modeling and Experimental Study on a Solubility and Mass Transfer of CO2 into Aqueous DEA Solution Using a Stirrer Bubble Column, RSC Advances, Vol. 6, p. 108075, 2016.

Pitzer, K. S., Thermodynamics of Electrolytes. I. Theoretical Basis and General Equations, Journal of Physics and Chemistry, Vol. 77, p. 268, 1973.

Pitzer, K. S. and Mayorga, G., Thermodynamics of Electrolytes II: Activity and Osmotic Coefficients for Strong Electrolytes with One or Both Ions Univalent, Journal of Physics and Chemistry, Vol. 77, p. 2300,1973.

Schneider, R., Sander, F., and Gorak A., Dynamic Simulation of Industrial Reactive Absorption Processes, Chemical Engineering Processing, Vol. 42, p. 955, 2003.

 

Article source: http://ijogst.put.ac.ir/article_50696_5204.html

پاسخ دهید

نشانی ایمیل شما منتشر نخواهد شد. بخش‌های موردنیاز علامت‌گذاری شده‌اند *

*

شما می‌توانید از این دستورات HTML استفاده کنید: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>