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Modeling and Simulation of Chemical Absorption Methods for CO2 Separation from Cement Plant Flue Gases

Zafar Turakulov, Azizbek Kamolov, Jaloliddin Eshbobaev, Abror Turakulov, Adham Norkobilov, Ravshan Boboyorov

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Abstract

Climate change, especially global warming, is observed due to greenhouse gases released on an industrial scale. For this reason, progress is being made around the world to reduce CO2 emissions and transition to sustainable energy sources. One of the most mature methods of capturing CO2 from flue gases in industrial sectors is chemical absorption. This work analyzed the absorption process involved in capturing CO2 from the flue gases of a 1 Mt cement plant. The Aspen Plus modeling package was used to simulate the flue gas pre-treatment; absorption column; and regeneration unit. As a result of the modeling, the optimal values of column sizes; heat duty; and solvent make-up that require the least capital and operational costs for capturing CO2 in the flue gases of this plant were determined. When a 40% MEA solution was used, and the CO2 loading in the absorption-stripping process was 0.25 mol/mol, the reboiler heat duty was 4.06 MJ/kg CO2.

Topics & Concepts

Flue gasReboilerGreenhouse gasFlueEnvironmental scienceAbsorption (acoustics)Waste managementFlue-gas emissions from fossil-fuel combustionWaste heatWork (physics)Process engineeringStripping (fiber)Materials scienceEnvironmental engineeringHeat exchangerMechanical engineeringEngineeringBiologyComposite materialEcologyCarbon Dioxide Capture TechnologiesMembrane Separation and Gas TransportGreen IT and Sustainability