文摘
Kinetics of absorption of COb>2b> in an aqueous potassium carbonate (Kb>2b>COb>3b>) promoted by ethylaminoethanol (EAE) solution (hereafter termed as APCE solvent) was investigated in a glass stirred cell reactor by employing a fall in pressure technique. The reaction chemistry associated with the COb>2b>–APCE solvent system was described by the zwitterion mechanism. The solubility and diffusivity of COb>2b> in the APCE solvent were experimentally determined at different experimental conditions. Furthermore, the effect of the initial EAE concentration (0.6–2 kmol/m3) and reaction temperature (303–318 K) on the rate of absorption of COb>2b> was studied in detail. The experimental findings show that with the increase in the EAE concentration and reaction temperature, the rate of COb>2b> absorption in the APCE solvent also increases considerably. Kinetic measurements further confirm that the absorption of COb>2b> in the APCE solvent belongs to the fast reaction regime with first-order kinetics with respect to EAE and first-order kinetics with respect to COb>2b>. Due to the addition of EAE as a promoter in an aqueous Kb>2b>COb>3b>, significant improvement in the rate of absorption of COb>2b> was realized. The rate constant (kb>2b>) for the COb>2b>–APCE solvent system was observed to be higher as compared to monoethanolamine (MEA) promoted aqueous Kb>2b>COb>3b>. For instance, kb>2b> for the absorption of COb>2b> in the APCE solvent was observed to be equal to 45540 m3/kmol·s at 318 K. Furthermore, the activation energy for the COb>2b>–APCE solvent system was estimated to be 81.7 kJ/mol. The lumped parameter, , where Hb>COb>2b>b> is solubility of COb>2b> and Db>COb>2b>b> is diffusivity of COb>2b> in the APCE solvent, was calculated based on the kinetic measurements and observed to be equal to 1.2 × 10–6 kmol1/2/m1/2·s·kPa.