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Y. Kato, Mitsuteru Yamada, T. Kanie, Y. Yoshizawa (2001)
Calcium oxide/carbon dioxide reactivity in a packed bed reactor of a chemical heat pump for high-temperature gas reactorsNuclear Engineering and Design, 210
D. Alvarez, J. Abanades (2005)
Determination of the Critical Product Layer Thickness in the Reaction of CaO with CO2Industrial & Engineering Chemistry Research, 44
S. Bhatia, D. Perlmutter (1983)
Effect of the product layer on the kinetics of the CO2‐lime reactionAiche Journal, 29
P. Sun, J. Grace, C. Lim, E. Anthony (2007)
The effect of CaO sintering on cyclic CO2 capture in energy systemsAiche Journal, 53
R. Borgwardt (1989)
Sintering of nascent calcium oxideChemical Engineering Science, 44
M. Aihara, T. Nagai, Junro Matsushita, Y. Negishi, H. Ohya (2001)
Development of porous solid reactant for thermal-energy storage and temperature upgrade using carbonation/decarbonation reactionApplied Energy, 69
H. Gupta, L. Fan (2002)
Carbonation−Calcination Cycle Using High Reactivity Calcium Oxide for Carbon Dioxide Separation from Flue GasIndustrial & Engineering Chemistry Research, 41
J. Abanades, Edward Anthony, D. Lu, C. Salvador, D. Alvarez (2004)
Capture of CO2 from combustion gases in a fluidized bed of CaOAiche Journal, 50
R. Borgwardt (1989)
Calcium oxide sintering in atmospheres containing water and carbon dioxideIndustrial & Engineering Chemistry Research, 28
Zhenshanl Li, N. Cai, Yu-yu Huang, Hai-jin Han (2005)
Synthesis, experimental studies, and analysis of a new calcium-based carbon dioxide absorbentEnergy & Fuels, 19
G. Grasa, J. Abanades (2006)
CO2 Capture Capacity of CaO in Long Series of Carbonation/Calcination CyclesIndustrial & Engineering Chemistry Research, 45
Jinsheng Wang, E. Anthony (2005)
On the Decay Behavior of the CO2 Absorption Capacity of CaO-Based SorbentsIndustrial & Engineering Chemistry Research, 44
D. Mess, A. Sarofim, J. Longwell (1999)
Product Layer Diffusion during the Reaction of Calcium Oxide with Carbon DioxideEnergy & Fuels, 13
R. Borgwardt (1985)
Calcination kinetics and surface area of dispersed limestone particlesAiche Journal, 31
C. Salvador, D. Lu, E. Anthony, J. Abanades (2003)
Enhancement of CaO for CO2 capture in an FBC environmentChemical Engineering Journal, 96
M. Iyer, H. Gupta, and Sakadjian, L. Fan (2004)
Multicyclic Study on the Simultaneous Carbonation and Sulfation of High-Reactivity CaOIndustrial & Engineering Chemistry Research, 43
A. Lysikov, A. Salanov, A. Okunev (2007)
Change of CO2 Carrying Capacity of CaO in Isothermal Recarbonation−Decomposition CyclesIndustrial & Engineering Chemistry Research, 46
D. Alvarez, J. Abanades (2005)
Pore-Size and Shape Effects on the Recarbonation Performance of Calcium Oxide Submitted to Repeated Calcination/Recarbonation CyclesEnergy & Fuels, 19
G. Grasa, Belén González, M. Alonso, J. Abanades (2007)
Comparison of CaO-Based Synthetic CO2 Sorbents under Realistic Calcination ConditionsEnergy & Fuels, 21
R. Barker (2007)
The reversibility of the reaction CaCO3 ⇄ CaO+CO2Journal of Applied Chemistry and Biotechnology, 23
The dynamic capacity of a set of sorbents prepared by calcination of different precursors was studied in multiple CO2 sorption-regeneration cycles. The effect exerted by type of a precursor and calcination temperature on the steady state value of the dynamic capacity attained after several tens of cycles was determined. A model was suggested for estimate of the sorption capacity of CaO sintered above the Tammann temperature from data on the mercury porosimetry.
Russian Journal of Applied Chemistry – Springer Journals
Published: Mar 22, 2011
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