Hydration-induced reactivation of spent sorbents from fluidized bed combustion has long been proven as an attractive method to achieve better sorbent exploitation so as to positively affect waste disposal, consumption of natural resources and CO2 emission issues. The present study addresses the reactivation of the sulphur capture ability of fluidized bed (FB) spent sorbent particles by either water or steam hydration. Sorbent particles are subjected to different treatments including calcination, sulphation, hydration by either water or steam, dehydration and re-sulphation. Processing of sorbents is accomplished by the combined use of a bench scale (40mmID) fluidized bed reactor (calcination, sulphation, steam hydration, dehydration and re-sulphation) and of a thermostated water hydrator (water hydration). Reactivation of the limestone-based sorbent is characterized in terms of hydration degree and extent/pattern of particle sulphation with a further focus on the analysis of the reactivation-induced modifications of particle microstructural/ chemical properties and propensity to undergo attrition and elutriation. The effectiveness of the two processes is analyzed, with consideration of the influence of process parameters on the ultimate degree of sorbent utilization. The feasibility of sorbent reactivation is discussed in the light of the effectiveness of sorbent reactivation and of the likely operational issues associated with either process.

An assessment of water and steam reactivation of a fluidized bed spent sorbent for enhanced SO2 capture / Montagnaro, Fabio; Salatino, Piero; Scala, Fabrizio; R., Chirone. - STAMPA. - (2005), pp. 475-482. (Intervento presentato al convegno 6th International Symposium on Gas Cleaning at High Temperatures tenutosi a Osaka, Japan nel 20-22 Ottobre).

An assessment of water and steam reactivation of a fluidized bed spent sorbent for enhanced SO2 capture

MONTAGNARO, FABIO;SALATINO, PIERO;SCALA, FABRIZIO;
2005

Abstract

Hydration-induced reactivation of spent sorbents from fluidized bed combustion has long been proven as an attractive method to achieve better sorbent exploitation so as to positively affect waste disposal, consumption of natural resources and CO2 emission issues. The present study addresses the reactivation of the sulphur capture ability of fluidized bed (FB) spent sorbent particles by either water or steam hydration. Sorbent particles are subjected to different treatments including calcination, sulphation, hydration by either water or steam, dehydration and re-sulphation. Processing of sorbents is accomplished by the combined use of a bench scale (40mmID) fluidized bed reactor (calcination, sulphation, steam hydration, dehydration and re-sulphation) and of a thermostated water hydrator (water hydration). Reactivation of the limestone-based sorbent is characterized in terms of hydration degree and extent/pattern of particle sulphation with a further focus on the analysis of the reactivation-induced modifications of particle microstructural/ chemical properties and propensity to undergo attrition and elutriation. The effectiveness of the two processes is analyzed, with consideration of the influence of process parameters on the ultimate degree of sorbent utilization. The feasibility of sorbent reactivation is discussed in the light of the effectiveness of sorbent reactivation and of the likely operational issues associated with either process.
2005
4915245616
An assessment of water and steam reactivation of a fluidized bed spent sorbent for enhanced SO2 capture / Montagnaro, Fabio; Salatino, Piero; Scala, Fabrizio; R., Chirone. - STAMPA. - (2005), pp. 475-482. (Intervento presentato al convegno 6th International Symposium on Gas Cleaning at High Temperatures tenutosi a Osaka, Japan nel 20-22 Ottobre).
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/119342
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus ND
  • ???jsp.display-item.citation.isi??? ND
social impact