Determination of the critical product layer thickness in the reaction of CaO with CO{sub 2}
- Instituto Nacional del Carbon (CSIC), Oviedo (Spain)
Calcium oxide can be an effective CO{sub 2} sorbent at high temperatures. When coupled with a calcination step to produce pure CO{sub 2}, the carbonation reaction is the basis for several high-temperature separation systems of CO{sub 2}. The formation of a product layer of CaCO{sub 3} is known to mark a sudden change in the reaction regime, from a very fast CO{sub 2} uptake to very slow carbonation rates. The critical thickness of this product layer of CaCO{sub 3} has been measured in this work on real sorbent materials, using different limestone precursors and submitting them to many repeated carbonation calcination cycles (up to 100). Mercury porosimetry curves of the calcines and their carbonated counterparts have been obtained and their differences interpreted with a simple pore model, from which the thickness of the product layer is derived. An average value of 49 nm (19% standard deviation) has been obtained, which is quite insensitive to the type of limestone and to the texture of the calcine as long as the model is fulfilled. The implications of this value on our understanding of the sorbent performance in these CO{sub 2}-capture systems are discussed.
- OSTI ID:
- 20647574
- Journal Information:
- Industrial and Engineering Chemistry Research, Vol. 44, Issue 15; ISSN 0888-5885
- Country of Publication:
- United States
- Language:
- English
Similar Records
Comparison of different natural sorbents for removing CO{sub 2} from combustion gases, as studied in a bench-scale fluidized bed
CO{sub 2} capture capacity of CaO in long series of carbonation/calcination cycles