Journal ArticleDOI
Thermal decomposition of spherically granulated malachite: physico-geometrical constraints and overall kinetics
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In this paper, the authors investigated the specific kinetic features of the reaction in samples in granular form toward the improvement of the thermal processing of malachite as a precursor of functional CuO.Abstract:
The thermal decomposition of spherically granulated malachite particles was investigated to unveil the specific kinetic features of the reaction in samples in granular form toward the improvement of the thermal processing of malachite as a precursor of functional CuO. Granular malachite underwent thermal decomposition via a partially overlapping two-step mass loss process upon heating the sample in a stream of dry N2 gas. Morphologically, the process was characterized by swelling of the granular particles and cleavage divisions of the surface layer. The kinetics of the thermal decomposition was investigated through step-by-step kinetic analyses of the systematically recorded thermoanalytical curves. Finally, the kinetics of the component reaction steps was separately characterized by performing a kinetic deconvolution analysis. The first reaction step, which contributed approximately 25% to the overall reaction and followed pseudo-first-order kinetics, was attributed to the thermal decomposition of the granular particle surface. The as-produced surface product layer impeded the diffusional removal of the gaseous products, i.e., CO2 and water vapor, from the interior of the granular particles, which caused swelling of the granular particles owing to an increase in the internal gaseous pressure and the cleavage division of the surface product layer by crack formation. The second mass loss step occurred inside the granular particles under significant variations in the self-generated reaction conditions and geometrical constraints and reached its maximum rate midway through the reaction. Possible causes of the observed specific rate behavior are discussed from the viewpoint of physico-geometrical kinetics in the solid–gas system.read more
Citations
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Physico-geometrical kinetics of the thermal dehydration of sodium carbonate monohydrate as a compacted composite of inorganic hydrate comprising crystalline particles and matrix.
TL;DR: In this article , the authors investigated the thermal dehydration of compacted composite grains of Na2CO3·H2O (SC-MH) comprising columnar SC-MH crystalline particles and an SC-MC matrix.
Journal ArticleDOI
Individual effects of atmospheric water vapor and carbon dioxide on the kinetics of the thermal decomposition of granular malachite.
Yuta Aoki,Nobuyoshi Koga +1 more
TL;DR: In this article , the effects of atmospheric water vapor and CO2 on the thermal decomposition of granular malachite as a model process was examined in a dry N2 gas stream.
Journal ArticleDOI
Physico-geometrical kinetic insight into multistep thermal dehydration of calcium hydrogen phosphate dihydrate.
Masami Hara,Nobuyoshi Koga +1 more
TL;DR: In this paper , the origin of the multistep thermal dehydration of calcium hydrogen phosphate dihydrate (dibasic calcium phosphate di hydrate (DCPD) to form γ-calcium diphosphate (γ-ccium pyrophosphate(γ-CPP)) via calcium hydrogen phosphorus anhydride (DCPA) via DCPA was investigated from a specific viewpoint of physico-geometrical constraints generated during the reaction.
References
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Kinetics of Phase Change. I General Theory
TL;DR: In this paper, the theory of phase change is developed with the experimentally supported assumptions that the new phase is nucleated by germ nuclei which already exist in the old phase, and whose number can be altered by previous treatment.
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Kinetics of Phase Change. II Transformation‐Time Relations for Random Distribution of Nuclei
TL;DR: In this article, a relation between the actual transformed volume V and a related extended volume V1 ex is derived upon statistical considerations, and a rough approximation to this relation is shown to lead, under the proper conditions, to the empirical formula of Austin and Rickett.
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The Scherrer Formula for X-Ray Particle Size Determination
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A New Method of Analyzing Thermogravimetric Data
TL;DR: In this paper, a new method of obtaining the kinetic parameters from thermogravimetric curves has been proposed, which is simple and applicable to reactions which can not be analyzed by other methods.
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Granulation, Phase Change, and Microstructure Kinetics of Phase Change. III
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