A mathematical model of biomass gasication kinetics in bubbling ,uidized beds has been developed. It is one-dimensional, as it is capable of predicting temperature and concentration gradients along the reactor axis, and considers two phases, a bubble and a dense phase. In addition to the reaction kinetics in the dense phase, mass transfer between the two phases and a quantitative estimation of local bubble and particle properties are included in the model. A theoretical optimization with respect to ER, pressure, bed height and gas velocity has also been performed. Finally, a comparison with experimental data from the literature was done, which showed a largely satisfactory agreement, though further validation is still required.
A two-phase one-dimensional biomass gasicationkinetics model / D. Fiaschi; M. Michelini. - In: BIOMASS & BIOENERGY. - ISSN 0961-9534. - STAMPA. - 21:(2001), pp. 121-132. [10.1016/S0961-9534]
A two-phase one-dimensional biomass gasicationkinetics model
FIASCHI, DANIELE;
2001
Abstract
A mathematical model of biomass gasication kinetics in bubbling ,uidized beds has been developed. It is one-dimensional, as it is capable of predicting temperature and concentration gradients along the reactor axis, and considers two phases, a bubble and a dense phase. In addition to the reaction kinetics in the dense phase, mass transfer between the two phases and a quantitative estimation of local bubble and particle properties are included in the model. A theoretical optimization with respect to ER, pressure, bed height and gas velocity has also been performed. Finally, a comparison with experimental data from the literature was done, which showed a largely satisfactory agreement, though further validation is still required.
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