论文信息 - Solubility measurement and modeling of water in the gas phase of the methane/water binary system at temperatures from 283.08 to 318.12 K and pressures up to 34.5 MPa

Solubility measurement and modeling of water in the gas phase of the methane/water binary system at temperatures from 283.08 to 318.12 K and pressures up to 34.5 MPa

Abstract This project involves new solubility measurements of the water distribution in vapor of the methane/water binary system near the hydrate formation conditions. Isothermal vapor–liquid and vapor–hydrate equilibrium data of the vapor phase for the methane/water binary system were measured at 283.08, 288.11, 293.11, 298.11, 303.12, 308.11, 313.12 and 318.12 K and pressures up to 35 MPa. In this work a static–analytic apparatus taking advantage of a pneumatic capillary sampler (Rolsi™, Armines’ patent) developed in the Cenerg/TEP laboratory is combined with an exponential dilutor. The results are compared with literature data. The eight sets of isothermal P , y data are represented with the Peng–Robinson equation of state (PR EoS) using the Trebble–Bishnoi alpha function, the classical mixing rules for the vapor phase and a Henry’s law approach to treat the aqueous phase. The water phase distribution at hydrate forming conditions was calculated by using the Van der Waals and Platteeuw Model.

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