To overcoming the sintering phenomena of the calcium oxide occurring during the CO2 capture in our study we propose the use of CaO supported on ?-alumina or to promote the CaO with lanthanum. CaO based synthetic sorbent have been prepared by impregnation technique using a ?-alumina with high mechanical resistance for fluidized bed application. Their CO2 adsorption capacity has been compared to that of calcined Massicci limestone. Interesting uptake performances and good stability have been obtained even if in a temperature range of CO2 capture not interesting for application in gasification process. The lowest CO2 adsorption capacity has been observed for the CaO lanthanum promoted system.
Development of synthetic sorbents based on Ca oxide for CO2 capture in fluidized bed reactors
Miccio F;Ruoppolo G;Chirone R
2017
Abstract
To overcoming the sintering phenomena of the calcium oxide occurring during the CO2 capture in our study we propose the use of CaO supported on ?-alumina or to promote the CaO with lanthanum. CaO based synthetic sorbent have been prepared by impregnation technique using a ?-alumina with high mechanical resistance for fluidized bed application. Their CO2 adsorption capacity has been compared to that of calcined Massicci limestone. Interesting uptake performances and good stability have been obtained even if in a temperature range of CO2 capture not interesting for application in gasification process. The lowest CO2 adsorption capacity has been observed for the CaO lanthanum promoted system.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
