The Role of Methyl Diethanolamine (MDEA) in Preventing the Oxidative Degradation of CO2Loaded and Concentrated Aqueous Monoethanolamine (MEA)−MDEA Blends during CO2Absorption from Flue Gases

Abstract

The products and pathway for the oxidative degradation of CO2-loaded and concentrated aqueous solution of monoethanolamine (MEA)/methyl diethanolamine (MDEA) mixture (i.e., MEA−MDEA−H2O−CO2 system) were evaluated and compared with those for the MEA−H2O−CO2 system in a stirred cell reactor at temperatures in the range of 55−120 °C, overall amine concentration in the range of 5−9 mol/L, MDEA/MEA ratio of 0−0.4, CO2 loading in the range of 0−0.53 mol/mol of total amine, and O2 pressure of 250 kPa in order to determine the role of MDEA in preventing MEA degradation. The results showed that fewer degradation products were obtained for the MEA−H2O−O2 system for both the CO2-loaded and CO2-free cases as compared with the MEA−MDEA−H2O−O2 system. However, the addition of MDEA drastically reduced the extent of MEA degradation as well as the amount of nonenvironmentally benign degradation products. Our overall results indicate that, under our experimental conditions, MDEA is more prone to oxidative degradation and, ...