A software package to determine the non-isothermal kinetic parameters of heterogeneous reactions has been developed. The dynamic
handle of conversion degree step and ranges, heating rates and kinetic models makes the evaluation of the activation parameters
much faster. The standard procedure: ‘model-free’ kineitc, IKP and Perez-Maqueda et al. methods, is applied for the determination of the kinetic triplet corresponding to thermal induced transformations. The software
is designed mainly for thermogravimetric, temperature programmed reduction and dilatometry data processing, but may also import
already transformed numeric data.
Advanced software (TKS-SP2.0 version) for thermal and kinetic analysis, for determining the non-isothermal kinetic parameters
of heterogeneous processes has been developed. The dynamic handle of conversion degree steps and ranges, heating rates and
kinetic models, makes the evaluation of the kinetic parameters much faster, for TG, TPR and dilatometry experiments. The standard
procedure for evaluating the kinetic triplet was implemented; several linear isoconversional methods (from generalized KAS
to FWO, Li-Tang and Friedmann methods), IKP method, Perez-Maqueda et al. criterion (both by Differential equation) and Master plots method. The software is designed mainly for data processing of
experimental files, but may also import other already transformed numeric data.