Jaroslav Šesták scite author profile

A new, fast and simple numerical method is proposed for modelling data of thermogravimetric analysis under arbitrary temperatureÈtime relationships. The algorithm searches for activation energies and rate constants by means of minimisation of the average square of deviation, D, between computed and experimental curves on a scale of the logarithm of reduced time that, in turn, is expressed as the integral of the Arrhenius exponential. The algorithm tests phenomenological relations by considering the process mechanism. Eighteen known models corresponding to di †erent physical and chemical processes are included as the basic set in the algorithm. Sequential analysis of the 18 variants and arrangement of values of D1@2 in ascending order allow a selection of the best of models. The less D1@2 is, the nearer is the calculated activation energy to the correct value. Then one can detect that satisfactory models provide a good approximation of the original kinetic curves.

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Jaroslav Šesták

Study of the kinetics of the mechanism of solid-state reactions at increasing temperatures

Some Fundamental and Historical Aspects of Phenomenological Kinetics in the Solid State Studied by Thermal Analysis

Kinetic compensation effect as a mathematical consequence of the exponential rate constant

Modelling of nonisothermal kinetics in thermogravimetry

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