Kinetic Studies on the Steam Gasification of Chars Derived from Coals by Different Isoconversional Methods

Previous studies have successfully assessed the extent to which a kinetic model accurately represents a specific reaction mechanism by comparing the kinetic parameters derived from the kinetic model to those obtained using isoconversional methods. However, this approach remains underdeveloped for the important steam gasification reaction of char. This study addresses this issue by conducting a series of steam-assisted char gasification tests, using thermogravimetric analysis at five different heating rates. The results indicate that the carbon conversion ratio of the char gasification reaction increases with the increasing heating rate. The activation energies of the reaction process are determined with different carbon conversion ratios using three isoconversional methods, including the Flynn-Wall-Ozawa, Kissinger-Akahira-Sunose, and Starink methods. The gasification mechanism is also analyzed using model-fitting methods with a wide variety of carbon conversion models, and the accuracies of the models are evaluated, firstly, by comparing the obtained goodness of fit values of the models with the experimental results, and, secondly, by comparing the obtained activation energies with those derived using the isoconversional methods. The goodness of fit results and the results of the comparisons between the activation energies obtained using the various models with the isoconversional values demonstrate that the three-dimensional Avrami-Erofeev model best represents the steam gasification char reaction, where the difference between the two activation energy values is only 0.70 KJ.mol(-)(1). The reliability of the proposed approach for evaluating the applicability of a given kinetic model to the steam gasification reaction of char is tested by comparing the results obtained for char samples derived from three different bituminous coal sources.

Automated summary

Previous studies have compared kinetic parameters derived from a kinetic model to those obtained using isoconversional methods to assess the accuracy of the model. However, little research has been done on the steam gasification reaction of char. This study conducted experiments using thermogravimetric analysis and compared different kinetic models to determine the best representation of the reaction. The results showed that the three-dimensional Avrami-Erofeev model accurately represents the steam gasification char reaction.