A kinetic study of the dehydrations of the alums KCr(SO4)2. 12H2O and KAl(SO4)2. 12H2O

Galwey, Andrew K.; Guarini, G. G. T.

doi:10.1098/rspa.1993.0063

Proc. R. Soc. Lond. A

1993

DOI: 10.1098/rspa.1993.0063

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A kinetic study of the dehydrations of the alums KCr(SO₄)₂. 12H₂O and KAl(SO₄)₂. 12H₂O

Andrew K. Galwey¹,

G. G. T. Guarini

Abstract: A kinetic study of the dehydrations of the alums KCr(SO 4 ) 2 . 12H 2 O and KAl(SO 4 ) 2 . 12H 2 O in water vapour atmospheres is reported. The product-yield-time data are described by the Avrami-Erofe’ev ( n = 2) and contracting cube equations. The observed kinetic behaviour differed from expectation for this reaction, which is known to proceed… Show more

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Cited by 27 publications

References 28 publications

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Structures and functions of reaction interfaces developed during solid-state dehydrations

Brown

Galwey

Guarini

1997

Journal of Thermal Analysis

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The literature reveals that the mechanisms of some solid-state dehydrations are more complicated than has been generally accepted. Reactions at a thin advancing reactant-product interface provide the geometric models on which the most widely employed rate equations are based. For some systems, this "thin interface" model is a simplification of observed behaviour. Elimination of water from crystallographic sites may occur to a significant extent within a much thicker zone of reactant towards which the active interface is progressing. Consequently the region of chemical change may not coincide with the region of structural transformation. Limited initial dehydration may occur across all crystal faces prior to the onset of a nucleation and growth process that is usually regarded as the dominant rate process in the dehydrations of many large crystals. Experimental observations for solid-state dehydrations are discussed and reaction mechanisms with different rate controlling processes are distinguished. Studies of dehydrations have contributed substantially to the theory of solid-state reactivity, and advances in understanding may have wider application to other solid-state reactants.

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Structures and functions of reaction interfaces developed during solid-state dehydrations

Brown

Galwey

Guarini

1997

Journal of Thermal Analysis

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The thermal decomposition of NaHCO3 powders and single crystals

Guarini

Dei

Sarti

1995

Journal of Thermal Analysis

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Thermal reactions of selected solids including reactants that melt during chemical change

Galwey

1994

Journal of Thermal Analysis

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A kinetic study of the dehydrations of the alums KCr(SO₄)₂. 12H₂O and KAl(SO₄)₂. 12H₂O

Cited by 27 publications

References 28 publications

Structures and functions of reaction interfaces developed during solid-state dehydrations

Structures and functions of reaction interfaces developed during solid-state dehydrations

The thermal decomposition of NaHCO3 powders and single crystals

Thermal reactions of selected solids including reactants that melt during chemical change

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