Douglas C. Barnes scite author profile

Douglas C. Barnes

4Publications

4Citation Statements Received

44Citation Statements Given

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284

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University of Leeds

Publications

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CO2 Capture using phenoxide salts; alternatives to amine-based capture agents, and comparative speciation studies as components in solvent blends

Wheatley

Bala

Barnes

et al. 2019

International Journal of Greenhouse Gas Control

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Amine blends represent the leading absorbents for post-combustion CO2 capture, yet they still have considerable issues associated with their use, such as high energy requirements, corrosivity, cost and toxicity. At least one amine component is usually considered to operate as base, and on this hypothesis phenol (pKa 9.95), as its conjugate base, can potentially act as an amine-free alternative in such blends. We report the first detailed study using phenoxide based capture reagents, including different blends of ethanolamine and potassium phenoxide. CO2 absorption rate and speciation of these solutions was compared with that of comparable amine blends, and whilst potassium phenolate alone showed poor kinetics, its use in combination with monoethanolamine (MEA) showed interesting and potentially beneficial properties. This work is the first to use phenoxides as a base in CO2 capture solvents and demonstrates the viability of this diverse family of compounds for industrially relevant CO2 capture solvents.

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Synthetic Organic Chemistry in Supercritical Fluids

Rayner

Rose

Barnes

2010

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The sections in this article are Introduction Hydrogenation in Supercritical Fluids Asymmetric Hydrogenation and Related Reactions Hydroformylation and Related Reactions in Supercritical Fluids Oxidation Reactions in Supercritical Fluids Palladium‐mediated Coupling Reactions in Supercritical Fluids Miscellaneous Catalytic Reactions in Supercritical Fluids Metal‐catalyzed Processes Base‐catalyzed Processes Acid‐Catalyzed Processes Cycloaddition Reactions in Supercritical Fluids Photochemical Reactions in Supercritical Fluids Radical Reactions in Supercritical Fluids Biotransformations in Supercritical Fluids Conclusion Acknowledgments

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The effect of biomass ashes and potassium salts on MEA degradation for BECCS

Clery

Mason

Barnes³

et al. 2021

International Journal of Greenhouse Gas Control

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ChemInform Abstract: Synthetic Organic Chemistry in Supercritical Fluids

2011

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Douglas C. Barnes

CO2 Capture using phenoxide salts; alternatives to amine-based capture agents, and comparative speciation studies as components in solvent blends

Synthetic Organic Chemistry in Supercritical Fluids

The effect of biomass ashes and potassium salts on MEA degradation for BECCS

ChemInform Abstract: Synthetic Organic Chemistry in Supercritical Fluids

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