Dissolution Rates of Actinolite in Water and Its Modified Mineral Surface Across the Critical State

Zhang, Ronghua; Zhang, Xuetong; Hu, Shumin

Dissolution Rates of Actinolite in Water and Its Modified Mineral Surface Across the Critical State

2017

Zhang, Ronghua | Zhang, Xuetong | Hu, Shumin

Dissolution kinetic experiments of actinolite in water were performed using a flow-through reactor at temperatures from 20 to 400 °C and 23.5±0.5 MPa. The results indicate that the steady-state release rates of the different elements of actinolite vary with temperature. Generally, Ca, Mg, Fe, and Al dissolve more quickly than Si at temperatures from 20 °C to near 300 °C, but slower from 300 to 400 °C. The Si release rate increases with temperatures from 20 to 300 °C and then decreases from 300 to 400 °C. Si release rate reaches the maximum at 300 °C. Amorphous Si-rich surface layers occur at temperature <300 °C. Hydrations of actinolite are relatively faster, and proton–metal exchange reactions are weakening across the critical point. Mᵢ-rich (Fe, Ca, Mg) and Si-deficient surface layers form at temperatures ≥300 °C. XPS, TEM, and SEM observations indicate that the hydrated silicate occurred at surface as temperature >300 °C. Water property variations within the critical region strongly affect the dissolution rates and the modification of surface.

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