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Modelling the impact of abundant geochemical components on phase stability and solubility of the CaO—SiO<sub>2</sub>—H<sub>2</sub>O system at 25°C: Na<sup>+</sup>, K<sup>+</sup>, SO<sub>4</sub><sup>2-</sup>, Cl<sup>-</sup> and CO<sub>3</sub><sup>2 -</sup>
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1997
Year
Chemical EngineeringCementationEngineeringCement-based Construction MaterialCement ManufacturePhase StabilitySo 4Mineral-fluid InteractionCementitious MaterialsComplex SystemsCalcium AluminateGeochemistryChemistryComplex SolubilityChemical KineticsEarth ScienceAbundant Geochemical ComponentsMineral Geochemistry
A model for the CaO—SiO 2 —H 2 O system at 25°C is proposed, and based upon this, more complex systems including the effect of SO 4 2- , Cl - , CO 3 2- , Na + and K + on phase relations and solubilities in the title system have been calculated by thermodynamic modelling. At sea-water concentrations of NaCl, mixed sea-water-pore fluid compositions enhance the solubility of calcium from Ca(OH) 2 and C-S-H but do not otherwise affect the stabilities of these phases. Carbonate and sulfate, on the other hand, react strongly with cement substances both with and without sodium being present; the complex solubility and reaction paths are quantified. Comparison of calculated reactions with literature data are made where possible; generally good agreement is obtained.