Title of article
Sorbent attrition in a carbonation/calcination pilot plant for capturing CO2 from flue gases
Author/Authors
Gonzلlez، نويسنده , , Belén and Alonso، نويسنده , , Mَnica and Abanades، نويسنده , , J. Carlos، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
7
From page
2918
To page
2924
Abstract
There is increasing interest in CO2 looping cycles that involve the repeated calcination and carbonation of the sorbent as a way to capture CO2 from flue gases during the carbonation step and the generation of a pure stream of CO2 in the oxyfired calcination step. In particular, attrition of the material in these interconnected fluidized bed reactors is a problem of general concern. Attrition of limestone derived materials has been studied in fluidized bed systems by numerous authors. In this work, we have investigated the attrition of two limestones used in a system of two interconnected circulating fluidized bed reactors operating in continuous mode as carbonation and calciner reactors. We observed a rapid initial attrition of both limestones during the calcination step which was then followed by a highly stable period (up to 140 h of added circulation for one of the limestones) during which particle size changes were negligible. This is consistent with previous observations of attrition in other systems that employ these materials. However, a comparison of the attrition model constants with the data reported in the literature showed the two limestones to be particularly fragile during the initial calcination and the first few hours of circulation. Thus, a careful choice of limestone based on its attrition properties must be taken into account in designing future carbonate looping systems.
Keywords
CO2 capture , Limestone , Attrition , fluidized bed
Journal title
Fuel
Serial Year
2010
Journal title
Fuel
Record number
1466013
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