Andy Zwoster scite author profile

The kinetics of the absorption of CO2 into two nonaqueous CO2-binding organic liquid (CO2 BOL) solvents were measured at T=35, 45, and 55 °C with a wetted-wall column. Selected CO2 loadings were run with a so-called "first-generation" CO2 BOL, comprising an independent base and alcohol, and a "second-generation" CO2 BOL, in which the base and alcohol were conjoined. Liquid-film mass-transfer coefficient (k'g ) values for both solvents were measured to be comparable to values for monoethanolamine and piperazine aqueous solvents under a comparable driving force, in spite of far higher solution viscosities. An inverse temperature dependence of the k'g value was also observed, which suggests that the physical solubility of CO2 in organic liquids may be making CO2 mass transfer faster than expected. Aspen Plus software was used to model the kinetic data and compare the CO2 absorption behavior of nonaqueous solvents with that of aqueous solvent platforms. This work continues our development of the CO2 BOL solvents. Previous work established the thermodynamic properties related to CO2 capture. The present paper quantitatively studies the kinetics of CO2 capture and develops a rate-based model.

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A single-component water-lean post-combustion CO₂capture solvent with exceptionally low operational heat and total costs of capture – comprehensive experimental and theoretical evaluation

Zheng

Barpaga

Mathias

et al. 2020

Energy Environ. Sci.

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Andy Zwoster

Improving the regeneration of CO2-binding organic liquids with a polarity change

Measuring the Absorption Rate of CO₂ in Nonaqueous CO₂‐Binding Organic Liquid Solvents with a Wetted‐Wall Apparatus

A single-component water-lean post-combustion CO₂capture solvent with exceptionally low operational heat and total costs of capture – comprehensive experimental and theoretical evaluation

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Andy Zwoster

Improving the regeneration of CO2-binding organic liquids with a polarity change

Measuring the Absorption Rate of CO2 in Nonaqueous CO2‐Binding Organic Liquid Solvents with a Wetted‐Wall Apparatus

A single-component water-lean post-combustion CO2capture solvent with exceptionally low operational heat and total costs of capture – comprehensive experimental and theoretical evaluation

Contact Info

Product

Resources

About

Measuring the Absorption Rate of CO₂ in Nonaqueous CO₂‐Binding Organic Liquid Solvents with a Wetted‐Wall Apparatus

A single-component water-lean post-combustion CO₂capture solvent with exceptionally low operational heat and total costs of capture – comprehensive experimental and theoretical evaluation