Abstract
Carbon dioxide was absorbed into the aqueous nanometer-sized colloidal silica solution of 0–31 wt% and diisopropanolamine of 0–2 kmol/m 3 in a flat-stirred vessel with the impeller of various sizes and speeds at 25 °C and 0.101 MPa to measure the absorption rate of CO 2. The volumetric liquid-side mass transfer coefficient ( k L a) of CO 2 was used to obtain the empirical correlation formula containing the rheological behavior of the aqueous colloidal silica solution. Reduction of the measured k L a was explained by the viscoelastic properties of the aqueous colloidal silica solution. The theoretical value of the absorption rate of CO 2 was estimated from the model based on the film theory accompanied by chemical reaction and compared with the measured value.
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