Prakash D. Vaidya scite author profile

Alkanolamines are the most popular absorbents used to remove CO 2 from process gas streams. Therefore, the CO 2 reaction with alkanolamines is of considerable importance. The aim of this article is to provide an overview on the kinetics of the reaction of CO 2 with aqueous solutions of alkanolamines. The various reaction mechanisms that are used to interpret experimental kinetic data -zwitterion, termolecular and base-catalyzed hydration -are discussed in detail. Recently published data on reaction kinetics of individual amine systems and their mixtures are considered. In addition, the kinetic behavior of several novel aminebased solvents that have been proposed in the literature is analyzed. Generally, the reaction of CO 2 with primary, secondary and sterically hindered amines is governed by the zwitterion mechanism, whereas the reaction with tertiary amines is described by the base-catalyzed hydration of CO 2 .

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Insight into steam reforming of ethanol to produce hydrogen for fuel cells

Vaidya

Rodrigues

2006

Chemical Engineering Journal

596

346

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Catalytic carbon dioxide hydrogenation to methanol: A review of recent studies

Jadhav

Vaidya

Bhanage

et al. 2014

Chemical Engineering Research and Design

546

279

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Glycerol Reforming for Hydrogen Production: A Review

2009

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Glycerol, which is obtained as a by‐product in biodiesel production, represents a candidate source of hydrogen that is renewable. Its conversion into hydrogen can be achieved by a reforming process. In this article, the glycerol reforming reaction is reviewed. Different reforming processes for hydrogen production, viz. steam, aqueous, and autothermal reforming, are described in brief. The thermodynamic analyses, which enable comparison with experimental studies, are considered. A discussion on experimental investigations over several catalysts is presented, too. Many reaction pathways are possible and some of them are dependent on the properties of the catalyst used. Generally, Ni, Pt, and Ru catalysts facilitate hydrogen production. The same catalysts are also effective for the reforming reaction of ethanol – another renewable resource for hydrogen. While ethanol steam reforming has been comprehensively reviewed by now, an overview on glycerol reforming is still missing. In this paper, an evaluation of the published studies is given to close this gap.

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Kinetics of Carbon Dioxide Removal by Aqueous Alkaline Amino Acid Salts

Vaidya

Konduru

Vaidyanathan

et al. 2010

Ind. Eng. Chem. Res.

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Aqueous solutions containing alkaline salts of carboxylic or sulfonic amino acids represent candidate solvents with good potential for carbon dioxide (CO2) capture. In the present work, the CO2 reactions with potassium salts of glycine (aminoacetic acid) and taurine (2-aminoethanesulfonic acid) in aqueous solutions are investigated using a stirred-cell reactor. The reaction pathways are comprehensively described using the zwitterion and the termolecular mechanism. The investigated reactions belong to the fast pseudo-first-order reaction regime systems. The second-order rate constant for the CO2 reaction with potassium glycinate is determined, and its value at 303 K is evaluated to be 6.29 m3/(mol s). The liquid-side mass-transfer coefficient is estimated, and its value (0.006 cm/s) is consistent with those typical for stirred-cell reactors. Finally, it is determined that potassium glycinate promotes the activity of tertiary amines (e.g., N,N-diethylethanolamine).

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Prakash D. Vaidya

CO₂‐Alkanolamine Reaction Kinetics: A Review of Recent Studies

Insight into steam reforming of ethanol to produce hydrogen for fuel cells

Catalytic carbon dioxide hydrogenation to methanol: A review of recent studies

Glycerol Reforming for Hydrogen Production: A Review

Kinetics of Carbon Dioxide Removal by Aqueous Alkaline Amino Acid Salts

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Prakash D. Vaidya

CO2‐Alkanolamine Reaction Kinetics: A Review of Recent Studies

Insight into steam reforming of ethanol to produce hydrogen for fuel cells

Catalytic carbon dioxide hydrogenation to methanol: A review of recent studies

Glycerol Reforming for Hydrogen Production: A Review

Kinetics of Carbon Dioxide Removal by Aqueous Alkaline Amino Acid Salts

Contact Info

Product

Resources

About

CO₂‐Alkanolamine Reaction Kinetics: A Review of Recent Studies