This paper presents a population balance model aiming at the prediction of sorbent inventory and particle size distribution establishing at steady state in the bed of an air-blown CFBC fuelled with a sulphur-bearing solid fuel. The core of the model is represented by population balance equations on sorbent particles which embody terms expressing the extent/rate of sorbent attrition/fragmentation. The effect of the progress of sulphation on attrition and fragmentation is taken into account by selection of appropriate constitutive equations. Model results are presented and discussed with the aim of clarifying the influence of particle attrition/fragmentation on sorbent inventory and particle size distribution, partitioning of sorbent between fly and bottom ash, sulphur capture efficiency. A sensitivity analysis is carried out with reference to relevant operational parameters of the combustor.

Sulphur uptake by limestone-based sorbent particles in CFBC: the influence of attrition/fragmentation on sorbent inventory and particle size distribution / Montagnaro, Fabio; Salatino, Piero; Scala, Fabrizio; Urciuolo, Massimo. - STAMPA. - (2011), pp. 633-640. (Intervento presentato al convegno 10th International Conference on Circulating Fluidized Beds and Fluidization Technology tenutosi a Sunriver, Oregon, USA nel 1-5 Maggio).

Sulphur uptake by limestone-based sorbent particles in CFBC: the influence of attrition/fragmentation on sorbent inventory and particle size distribution

MONTAGNARO, FABIO;SALATINO, PIERO;SCALA, FABRIZIO;URCIUOLO, Massimo
2011

Abstract

This paper presents a population balance model aiming at the prediction of sorbent inventory and particle size distribution establishing at steady state in the bed of an air-blown CFBC fuelled with a sulphur-bearing solid fuel. The core of the model is represented by population balance equations on sorbent particles which embody terms expressing the extent/rate of sorbent attrition/fragmentation. The effect of the progress of sulphation on attrition and fragmentation is taken into account by selection of appropriate constitutive equations. Model results are presented and discussed with the aim of clarifying the influence of particle attrition/fragmentation on sorbent inventory and particle size distribution, partitioning of sorbent between fly and bottom ash, sulphur capture efficiency. A sensitivity analysis is carried out with reference to relevant operational parameters of the combustor.
2011
9781450770828
Sulphur uptake by limestone-based sorbent particles in CFBC: the influence of attrition/fragmentation on sorbent inventory and particle size distribution / Montagnaro, Fabio; Salatino, Piero; Scala, Fabrizio; Urciuolo, Massimo. - STAMPA. - (2011), pp. 633-640. (Intervento presentato al convegno 10th International Conference on Circulating Fluidized Beds and Fluidization Technology tenutosi a Sunriver, Oregon, USA nel 1-5 Maggio).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/414209
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