A thermogravimetric analyzer was employed to investigate the thermal behavior and extract the kinetic parameters of Canadian\nlignite coal. The pyrolysis experiments were conducted in temperatures ranging from 298K to 1173K under inert atmosphere\nutilizing six different heating rates of 1, 6, 9, 12, 15, and 18Kmin?1, respectively. There are different techniques for analyzing\nthe kinetics of solid-state reactions that can generally be classified into two categories: model-fitting and model-free methods.\nHistorically, model-fitting methods are broadly used in solid-state kinetics and show an excellent fit to the experimental data but\nproduce uncertain kinetic parameters especially for nonisothermal conditions. In this work, different model-free techniques such\nas the Kissinger method and the isoconversional methods of Ozawa, Kissinger-Akahira-Sunose, and Friedman are employed and\ncompared in order to analyze nonisothermal kinetic data and investigate thermal behavior of a lignite coal. Experimental results\nshowed that the activation energy values obtained by the isoconversional methods were in good agreement, but Friedman method\nwas considered to be the best among the model-free methods to evaluate kinetic parameters for solid-state reactions.These results\ncan provide useful information to predict kinetic model of coal pyrolysis and optimization of the process conditions
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