Article ID Journal Published Year Pages File Type
155639 Chemical Engineering Science 2012 12 Pages PDF
Abstract

A reaction-transport model is developed for the pyrolysis of cellulose particles. The model incorporates recently measured kinetic parameters, intra- and extra-particle heat transfer, and particle shrinkage as gaseous products are formed. Numerical predictions for measurable properties, including the temporal evolution of the residual mass and the final char yield, are validated through comparison to data from experiments, and strong agreement is found. Predicted char yields and effectiveness factors are presented for a wide range of parameters, and operating conditions are identified under which the process is transport- vs. reaction-controlled due to the limitations of intraparticle heat transport.

► A reaction-transport model is developed for the pyrolysis of cellulose particles. ► The model incorporates intraparticle heat transfer and particle shrinkage during pyrolysis. ► The prediction shows an excellent agreement with observed data for the pyrolysis of biomass particles. ► Parameter-rich simulations were performed to identify optimal reacting conditions.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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