B. King scite author profile

Spray columns can potentially be utilized for absorbing CO 2 from large point sources such as flue gas exhausted by power plants. Low gas phase pressure drop, and the lack of internals which are susceptible to corrosion, make spray columns well suited for aqueous amine absorption. Design practices for spray columns are highly empirical and application specific. There is a paucity of data on absorption of CO 2 in aqueous amine sprays. Mass transfer data for CO 2 -amine systems is required for robust design of spray columns. Further, the absorption efficiency of sprays is greatly influenced by the surface area of drops, which in turn depends on the droplet size distribution. However, experimental data for droplet size distributions inside aqueous amine sprays is non-existent. Measurement of droplet size distributions is critical in providing a fundamental insight into spray absorption. This work presents molar flux data coupled with droplet size distribution data for CO 2 absorption into Monoethanolamine (MEA) spray. Both the molar flux measurements and the droplet size measurements are made inside a 0.2 m glass column. The droplet size distributions are measured using a Phase Doppler Interferometer (PDI). Further, a novel method is utilized to quantify the available surface area from the droplet size distribution measurements. The effect of MEA concentration on molar flux, droplet size, and surface area is presented. Nomenclature Across sectional area, m 2 A plume cross sectional area of spray plume, m 2 L solvent liquid rate, kmol/s N CO2 flux of CO 2 , kmol/s S surface area, m 2 V volume, m 3 V spray total volume of liquid sprayed, m 3Greek α solvent loading, mol CO 2 / mol alkalinity α lean solvent loading before CO 2 pickup, mol CO 2 / mol alkalinity α rich solvent loading after CO 2 pickup, mol CO 2 / mol alkalinity Subscript AX axial plane MEA Monoethanolamine i number of concentric circular zone

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B. King

Spray absorption of CO2 into monoethanolamine: Mass transfer coefficients, dropsize, and planar surface area

XX. Absorption problems in radioactivity

Characterization of liquid entrainment in a counter flowing gas using Phase Doppler Interferometry

Interfacial area measurements and surface area quantification for spray absorption

Aqueous Amine Spray Absorption and Droplet Distribution Data for CO2 Capture Applications

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