Determination and Measurements of Mass Transfer Kinetics of CO2 in Concentrated Aqueous Monoethanolamine Solutions by a Stirred Cell

The gas liquid reaction rate was determined with a stirred cell from the fall in pressure and the reaction rate constant was determined by two data treatment methods, viz. a differential and an integral method. The liquid-side mass transfer coefficient without chemical reaction in the stirred cell reactor was determined via the pressure drop method. The kinetics of the reaction of carbon dioxide with aqueous monoethanolamine (MEA) solutions over a wide concentration range from 0.5 to 12 M at a temperature range from 298.15 to 323.15 K were studied using a stirred cell absorber with a plane gas-liquid interface. Low CO2 partial pressure (3-4 kPa) was employed to satisfy the criterion for a pseudo-first-order reaction. Very low inert gas pressures of N-2 and solution vapor were kept, and the stirrer was sped up to reduce the gas-phase resistance. The results showed that the investigated reactions took place in the pseudo-first-order fast reaction regime. The reaction rate constant obtained for MEA with CO2 at 298.15 K agrees with literature. The reaction activation energy (E-a) of aqueous MEA + CO2 is 44.89 kJ mol(-1), and the pre-exponential factor value is 4.14 x 10(11). The enhanced mass transfer coefficient in the liquid phase, k(L)E, initially increases with the concentration of MEA solutions but decreases when the molarity of MEA is higher than 8 M.