Robert Rowland scite author profile

The significant and rapid reduction of greenhouse gas emissions is recognized as necessary to mitigate the potential climate effects from global warming. The postcombustion capture (PCC) and storage of carbon dioxide (CO2) produced from the use of fossil fuels for electricity generation is a key technology needed to achieve these reductions. The most mature technology for CO2 capture is reversible chemical absorption into an aqueous amine solution. In this study the results from measurements of the CO2 absorption capacity of aqueous amine solutions for 76 different amines are presented. Measurements were made using both a novel isothermal gravimetric analysis (IGA) method and a traditional absorption apparatus. Seven amines, consisting of one primary, three secondary, and three tertiary amines, were identified as exhibiting outstanding absorption capacities. Most have a number of structural features in common including steric hindrance and hydroxyl functionality 2 or 3 carbons from the nitrogen. Initial CO2 absorption rate data from the IGA measurements was also used to indicate relative absorption rates. Most of the outstanding performers in terms of capacity also showed initial absorption rates comparable to the industry standard monoethanolamine (MEA). This indicates, in terms of both absorption capacity and kinetics, that they are promising candidates for further investigation.

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Comparison of the rate of CO2 absorption into aqueous ammonia and monoethanolamine

Puxty

Rowland

Attalla

2010

Chemical Engineering Science

210

154

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CO2 capture by aqueous amines and aqueous ammonia–A Comparison

et al. 2009

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Modeling CO₂ Mass Transfer in Amine Mixtures: PZ-AMP and PZ-MDEA

Puxty

Rowland

2011

Environ. Sci. Technol.

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The most common method of carbon dioxide (CO(2)) capture is the absorption of CO(2) into a falling thin film of an aqueous amine solution. Modeling of mass transfer during CO(2) absorption is an important way to gain insight and understanding about the underlying processes that are occurring. In this work a new software tool has been used to model CO(2) absorption into aqueous piperazine (PZ) and binary mixtures of PZ with 2-amino-2-methyl-1-propanol (AMP) or methyldiethanolamine (MDEA). The tool solves partial differential and simultaneous equations describing diffusion and chemical reaction automatically derived from reactions written using chemical notation. It has been demonstrated that by using reactions that are chemically plausible the mass transfer in binary mixtures can be fully described by combining the chemical reactions and their associated parameters determined for single amines. The observed enhanced mass transfer in binary mixtures can be explained through chemical interactions occurring in the mixture without need to resort to using additional reactions or unusual transport phenomena such as the "shuttle mechanism".

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Robert Rowland

Carbon Dioxide Postcombustion Capture: A Novel Screening Study of the Carbon Dioxide Absorption Performance of 76 Amines

Comparison of the rate of CO2 absorption into aqueous ammonia and monoethanolamine

CO2 capture by aqueous amines and aqueous ammonia–A Comparison

Modeling CO₂ Mass Transfer in Amine Mixtures: PZ-AMP and PZ-MDEA

Contact Info

Product

Resources

About

Robert Rowland

Carbon Dioxide Postcombustion Capture: A Novel Screening Study of the Carbon Dioxide Absorption Performance of 76 Amines

Comparison of the rate of CO2 absorption into aqueous ammonia and monoethanolamine

CO2 capture by aqueous amines and aqueous ammonia–A Comparison

Modeling CO2 Mass Transfer in Amine Mixtures: PZ-AMP and PZ-MDEA

Contact Info

Product

Resources

About

Modeling CO₂ Mass Transfer in Amine Mixtures: PZ-AMP and PZ-MDEA