CO2 capture and attrition behavior of a dolomite were studied during calcium looping cycles in a lab-scale fluidized bed. Results were compared to those obtained with six limestones in similar tests. The experiments were carried out under conditions representative of a process with calcination in an oxy-firing environment (T = 940°C, CO2 = 70%v/v), with or without the presence of SO2. Results showed that the CO2 capture capacity of the dolomite was larger than that of the limestones, in spite of the lower calcium content of the sorbent. The presence of SO2 depressed the sorbent CO2 capture capacity. Contrary to the limestones, the dolomite was subject to extensive attrition and fragmentation.
Fluidized bed calcium looping cycles for CO2 capture: a comparison between dolomite and limestone
A Coppola;F Scala
2013
Abstract
CO2 capture and attrition behavior of a dolomite were studied during calcium looping cycles in a lab-scale fluidized bed. Results were compared to those obtained with six limestones in similar tests. The experiments were carried out under conditions representative of a process with calcination in an oxy-firing environment (T = 940°C, CO2 = 70%v/v), with or without the presence of SO2. Results showed that the CO2 capture capacity of the dolomite was larger than that of the limestones, in spite of the lower calcium content of the sorbent. The presence of SO2 depressed the sorbent CO2 capture capacity. Contrary to the limestones, the dolomite was subject to extensive attrition and fragmentation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
