Please enter verification code
Simulation of Loading Capacity of MDEA and DEA for Amine-Based CO2 Removal Using Hysys
American Journal of Chemical Engineering
Volume 3, Issue 2-1, March 2015, Pages: 41-46
Received: Feb. 22, 2015; Accepted: Mar. 17, 2015; Published: May 9, 2015
Views 7836      Downloads 380
I. J. Otaraku, Department of Chemical Engineering, University of Port Harcourt, Port Harcourt, Nigeria
F. O. Esemuze, Department of Chemical Engineering, University of Port Harcourt, Port Harcourt, Nigeria
Article Tools
Follow on us
Besides meeting international stringent LNG product specification, this work will address the problem of off-spec product, high operational cost of acid gas (CO2) removal and pollution-free product, which is currently a huge global challenge. This work studied other ways by which amine unit can best be optimized to produce LNG gas with low CO2-content and high cost of acid gas removal. MDEA instead of DEA solvent-absorption method was chosen for the optimization using HYSYS 3.1 process simulator to predict the CO2 removal through the establishment of process operating conditions. A base case of amine-based CO2 removal process was used to create a steady-state and dynamic simulation using HYSYS 3.1 simulator. The differences between the values of acid gas loading capacity and CO2 content of the existing DEA operational value and HYSYS simulations were 0.00005 and 4.98 respectively. This established the advantage and accuracy of the HYSYS simulator and the developed models. The simulation results showed that the proposed MDEA had higher CO2 removal capacity of 89% to 55.02% for DEA and lower CO2 content of 0.0012 mole of CO2 in sweet gas to 0.014 mole of CO2 in DEA. MDEA had higher solvent recovery of 83% to 60% recovery for DEA. The pump size required to recycle MDEA with molar flow rate of 1877 Kg mol/hr. was smaller and less expensive than that required for DEA at 2371 Kg mol./hr. resulting in lower production cost.
Absorber, Absorption, DEA, HYSYS, MDEA, Optimization, Regenerator, and Stripping
To cite this article
I. J. Otaraku, F. O. Esemuze, Simulation of Loading Capacity of MDEA and DEA for Amine-Based CO2 Removal Using Hysys, American Journal of Chemical Engineering. Special Issue: Developments in Petroleum Refining and Petrochemical Sector of the Oil and Gas Industry. Vol. 3, No. 2-1, 2015, pp. 41-46. doi: 10.11648/j.ajche.s.2015030201.15
Simmonds M., Hurst P., Wilkinson M.B., Reddy S. and Khambaty S., 2003, Amine-based CO2 Capture from Gas Turbines, 2nd Annual Conference on Carbon Sequestration, Alexandria, USA.
Veawab A., Tontiwachwuthikul P., Aroonwilas A. and Chakma A., 2003, Greenhouse Gas Control Technologies, vol. 1, Eds. Gale J. and Kaya Y., Elsevier, Amsterdam.
Oi L.E., 2007, Aspen HYSYS Simulation of CO2 Removal by Amine Absorption from a Gas Based Power Plant, 48th Scandinavian Conference on Simulation and Modeling, Goteborg, Sweden.
Singh D., Croiset E., Douglas P.L. and Douglas M.A., 2003, Techno-economic study of CO2 capture from an existing coal-fired power plant: MEA scrubbing vs. O2/CO2 recycle combustion, Energy Conversion and Management 44, pp 3073-3091.
Alie C., Backham L., Croiset E. and Douglas P.L., 2005, Simulation of CO2 capture using MEA scrubbing: a flow sheet decomposition method, Energy Conversion andManagement 46, pp 475-487.
Mofarahi M., Khojasteh Y., Khaledi H. and Farahnak A., 2008, Design of CO2 absorption plant for recovery of CO2 from flue gases of gas turbine, Energy 33, pp 1311-1319
Jamal A., Meisen A. and Jim Lim C.: Kinetics of carbon dioxide absorption and desorption in aqueous alkanolamine solutions using a novel hemispherical contactor. I. Experimental apparatus and mathematical modeling. Chem. Eng. Sci., 2006, 61, 6571-6589.
Benamor A. and Aroua M.K.: An experimental investigation on the rate of CO2 absorption into aqueous methyldiethanolamine solutions. Kore. J. Chem. Eng., 2007, 24(1), 16-23.
Vaidya P.D. and Kenig E.Y.: CO2-alkanolamine reaction kinetics: A review of recent studies. Chem. Eng.Tech., 2007, 30(11), 1467-1474.
Donaldson T.L. and Nguyen Y.N.: Carbon dioxide reaction and transport into aqueous amine membranes.Ind. Eng. Chem. Fundam., 1980, 19, 260-266
Hubbard, R. (2009): The Role of Gas Processing in the Natural-Gas Value Chain, JPT, August, 65-71
Science Publishing Group
1 Rockefeller Plaza,
10th and 11th Floors,
New York, NY 10020
Tel: (001)347-983-5186