2015
DOI: 10.1016/j.fuproc.2015.09.010
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Utilization of oil shale combustion wastes for PCC production: Quantifying the kinetics of Ca(OH)2 and CaSO4·2H2O dissolution in aqueous systems

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Cited by 10 publications
(5 citation statements)
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“…This implies that PF ash contains more compounds (Ca and Mg oxides) which ensure (dissolution of their hydrated forms) a fast basic reaction. This can also be seen from the reaction rate constants reported in Table 3, the value of the reaction rate constant for Equation (6) for the one-step (0.0282 s -1 ) pure Ca(OH) 2 dissolution model [41] matches with the rate constant (0.0294 s -1 ) for the PF ash system. The best accordance between OSA and ternary systems was achieved for k 61 for the PF ash-water system and for k 71 for the SHC ash-water system.…”
Section: Dissolution Kinetics In Os Ash-water Systemssupporting
confidence: 60%
“…This implies that PF ash contains more compounds (Ca and Mg oxides) which ensure (dissolution of their hydrated forms) a fast basic reaction. This can also be seen from the reaction rate constants reported in Table 3, the value of the reaction rate constant for Equation (6) for the one-step (0.0282 s -1 ) pure Ca(OH) 2 dissolution model [41] matches with the rate constant (0.0294 s -1 ) for the PF ash system. The best accordance between OSA and ternary systems was achieved for k 61 for the PF ash-water system and for k 71 for the SHC ash-water system.…”
Section: Dissolution Kinetics In Os Ash-water Systemssupporting
confidence: 60%
“…Changing different parameters indicated that increasing sample mass and gas flow rate accelerated and intensified the carbonation process as changing the mixing speed from 300 to 3000 rpm had negligible effect. A kinetic model built on Ca(OH)2 solubility [13] and carbonation [14] followed the experimental results for Ca(OH)2 content during carbonation but underestimated the carbonate content in solid phase. This is due to Ca-silicates that also contribute to CO2 binding but were not considered in this model.…”
Section: Results On Mineral Carbonationmentioning
confidence: 94%
“…Although the operating conditions reported in the literature differ slightly from ours, the rate constant of the forward reaction k f1 [kmol/m 5 ·h] was estimated via the following form The rate constant of the forward reaction k f2 [m 3 /kmol·h] was set to 1.958 × 10 2 , so that we could formulate the rate constants k f1 and k f2 corresponding to our conditions. However, the variation of these constants does not contribute to the results, and a similar study has shown that k f2 does not significantly affect the reaction rate.…”
Section: Aqueous Mineral Carbonation Process Designmentioning
confidence: 80%