Title of article
CO2 Capture Capacity of CaO in Long Series of Carbonation/Calcination Cycles
Author/Authors
Grasa، Gemma S. نويسنده , , Abanades، J. Carlos نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
-8845
From page
8846
To page
0
Abstract
Calcium oxide can be an effective sorbent to separate CO2 at high temperatures. When coupled with a calcination step to produce pure CO2, the carbonation reaction is the basis for several high-temperature CO2 capture systems. The evolution with cycling of the capture capacity of CaO derived from natural limestones is experimentally investigated in this work. Long series of carbonation/calcination cycles (up to 500) varying different variables affecting sorbent capacity have been tested in a thermogravimetric apparatus. Calcination temperatures above T > 950 °C and very long calcination times accelerate the decay in sorption capacity, while other variables have a comparatively modest effect on the overall sorbent performance. A residual conversion of about 7-8% that remains constant after many hundreds of cycles and that seems insensitive to process conditions has been found. This residual conversion makes very attractive the carbonation/calcination cycle, by reducing (or even eliminating) sorbent purge rates in the system. A semiempirical equation has been proposed to describe sorbent conversion with the number of cycles based on these new long data series.
Keywords
Perturbation method , Secular term , Tidal water table fluctuation , Non-linearity
Journal title
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
Serial Year
2006
Journal title
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
Record number
110056
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