The effect of CO2 on the solubility of H2O-Cl fluids in andesitic melt

The solubility of C-O-H-Cl-bearing fluids in andesitic melt was investigated experimentally at temperatures of 1050 and 1200 °C and pressure of 200 MPa. The CO₂-free andesitic melts produced experimentally contained up to 5.5–6 wt.% H₂O and up to 2.5 wt.% Cl at the investigated conditions. The complex non-linear relationship between the concentrations of H₂O and Cl in the melt indicates a strong non-ideality of the H₂O-salt-bearing fluid phase(s), presumably resulting in the formation of two immiscible fluids. The addition of CO₂ to the system (80–800 ppm dissolved CO₂ in the melt) has two effects: a simple dilution of the fluid at low bulk Cl concentration and a significant influence on the mixing properties of the H₂O- and Cl-bearing fluids related to the enlargement of the immiscibility gap in the fluid at higher bulk Cl content. The first effect results in lower H₂O (by ∼ 1 wt.%) and almost constant Cl concentrations in the melt, while the second effect causes an increase in activity coefficients of both H2O and Cl. This effect of CO₂ is expected to be most pronounced at low pressures and high CO₂ concentrations in Cl-bearing mafic melts due to an enlargement of the immiscibility gap in fluids with decreasing pressure and an increase in proportions of divalent cations.