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• W2802094394 abstract "To accurately comprehend the course of reaction progression, knowledge of kinetic parameters (triplet) is crucial, especially for complex reactions like biomass decomposition that is being researched for scale-up and process optimization. The techniques for kinetic analysis of biomass are more obscure compared with other solid-state reactions, owing to the complexity of the feed. This chapter presents a comprehension on the significance of kinetic triplet and evolution of various methods in pursuit of reliable kinetic parameters. Several reaction models have been described in the earlier sections of the chapter to explain the dependency of the rate of reaction as the function of conversion, models established on the assumption of the reaction mechanism, and models built on empirical fitting with little physical meanings. Too often, more than one of these models fits the experimental data, and more often, the reaction model changes with reaction progression in the case of biomass decomposition. An in-depth account has been provided on the early model-fitting methods, conventional single-heating rate-based nonisothermal methods, and modern isoconversional methods, with mathematical backgrounds and graphic illustrations, wherever applicable, for a better demonstration of their execution. Major stress has been laid on the isoconversional methods for kinetic analysis along with the contribution of ICTAC committee in their promotion. These methods are capable of working on the multistep reactions, involved in the thermal decomposition of assorted biomass mixture. However, since isoconversional methods do not yield the values of the preexponential factor and the reaction model, the methods for the consummation of kinetic triplet using the values of activation energy obtained from isoconversional methods have also been provided. A section has been devoted to “making kinetic predictions” from activation energy versus conversion dependencies in order to get a literal meaning of the mathematical data. Since energy production and energy saving is the key purpose behind all biomass conversion processes, a thermodynamic scenario has also been explicated in the later sections of the chapter. The knowledge of these thermodynamic parameters is indispensable and helps in understanding the changes in exothermicity/endothermicity, spontaneity, and reactivity of the reacting mixture, as reaction proceeds. Last but not the least, a computational perspective has also been provided, since all the methods for finding kinetic parameters are easier to execute with computational tools. It has been the best interest of the authors to embed this chapter with references to all the relevant work, which has been done in the field of kinetic analysis of biomass decomposition." @default.
• W2802094394 created "2018-05-17" @default.
• W2802094394 creator A5035074989 @default.
• W2802094394 creator A5035556283 @default.
• W2802094394 date "2018-01-01" @default.
• W2802094394 modified "2023-10-13" @default.
• W2802094394 title "Kinetic Analysis of Biomass Pyrolysis" @default.
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• W2802094394 doi "https://doi.org/10.1016/b978-0-444-63992-9.00002-1" @default.
• W2802094394 hasPublicationYear "2018" @default.
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