[논문]Activation energy calculation from a linearly‐increasing‐temperature experiment

Ingraham, T. R.; Marier, P.

doi:10.1002/cjce.5450420406

Activation energy calculation from a linearly‐increasing‐temperature experiment

The Canadian journal of chemical engineering, v.42 no.4, 1964년, pp.161 - 163

Ingraham, T. R. (Head, Research Section, Department of Mines & Technical Surveys, Ottawa, Ont.) , Marier, P. (Scientific Officer, Research Section, Department of Mines & Technical Surveys, Ottawa, Ont.)

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AbstractA simplified method has been developed for the determination of the activation energy of a heterogeneous reaction having linear kinetics.The thermal decomposition of calcium carbonate has been used as an example and it has been shown that when the logarithm of the weight loss per unit area of powder compacts is plotted against the reciprocal of absolute temperature, for a run done with a linear heating rate, a linear relationship is obtained. When the logarithms of the heating rate and the absolute temperature are included, results for a variety of heating rates can be completely correlated. Heating rates of less than 5 degrees per minute are recommended.An activation energy of 48.4 ± 2 kilocalories per mole has been estimated for the decomposition reaction and 7 ± 3 kilocalories per mole for the formation reaction.

Abstract

Une méthode simplifiée a été développée pour la détermination de L'énergie d'activation d'une réaction hétérogène obéissant à une équation de taux de réaction linéaire.La décomposition thermique du carbonate de chaux a été utilisée comme exemple et il a été démontré qu'un graphique du logarithme de la perte de masse par unité de surface de poudre en fonction de L'inverse de la température absolue conduit à une ligne droite dans le cas d'un chauffage à taux constant. Il devient alors possible de représenter les résultats expérimentaux correspondants à divers taux de chauffage jusqu'à 5° par minute en introduisant les logarithmes du taux de chauffage et de la température absolue.L'énergie d'activation de la réaction de décomposition a été estimée égale à 48.4 ± 2 kilocalories par mole tandis que celle de la réaction de formation a été trouvée égale à 7 ± 3 kilocalories par mole.

참고문헌 (9)

1 Ingraham , T. R. and Maner , P. , Can. J. Chem. Eng. 41 , 170 August ( 1963 ).

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2 Fishbeck and Snaidt , Z. Elektrochem. 38 , 199 ( 1932 ).
3 Garner , W. E. , “ Chemistry of the Solid State ”( Butterworths Scientific Publications , London , 1955 ), pp. 224 and 228 .
4 Baur , J. P. , Bridges , D. W. and Fassell , W. M. , J. Electrochem. Soc. 102 , 490 ( 1955 ).
5 Kofstad , P. , Nature (London) 179 , 1362 ( 1957 ).
6 Kubaschewski and Hopkins , “ Oxidation of Metals and Alloys ”( Butterworths Scientific Publications , London , 1962 ), pp. 199 – 201 .
7 Freeman , Eli Saul , Ph.D. Thesis, Rutgers Univ. ( 1961 ).
8 Laidler , K. J. , “ Chemical Kinetics ”( McGraw‐Hill Book Company Inc. , New York , ( 1950 ), p. 76 .
9 Kelley , K. K. and Anderson , C. T. , U.S. Dept. Interior Bur. Mines and Bull. 384 ( 1935 ).

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Activation energy calculation from a linearly‐increasing‐temperature experiment

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