Intensifying the Absorption of CO<sub>2</sub> in Water Using a Static Mixer. Part I: Effect of Measurement Technique
Gabi Antoine Altabash, Mahmoud Al‐Hindi, Fouad Azizi
Abstract
This study investigates the use of a novel static mixer to intensify the physical absorption of CO2 in water. To assess the efficiency of this tubular reactor, the temporal variation of absorbed CO2 was tracked along the reactor using three methods, namely, inline pH measurements, direct CO2 measurements using a CO2 analyzer, and titration. The effect of varying the liquid and gas flow rates on the mass transfer performance was investigated and analyzed. This article focuses on a comparison between the three methods of measurements to highlight differences in their results and sources of error. The findings demonstrated the reliability of the titration technique in quantifying dissolved CO2 concentrations when compared to the other two methods. In addition, it was found that the measured volumetric mass transfer coefficients, kLa, for this reactor were several orders of magnitude larger than those reported using conventional reactors such as mechanically agitated tanks and bubble columns. The values of kLa reached a maximum of 0.83 s–1 at low specific energy consumption rates (≈0.016 kWh/t) within 0.35 s of residence time in the reactor/contactor.