Search results for: methane hydrate - Bridge of Knowledge

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Search results for: methane hydrate

Search results for: methane hydrate

  • Homogeneous nucleation rate of methane hydrate formation under experimental conditions from seeding simulations

    Publication
    • J. Grabowska
    • S. Blazquez
    • E. Sanz
    • E. G. Noya
    • I. M. Zerón
    • J. Algaba
    • J. M. Míguez
    • F. J. Blas
    • C. Vega

    - JOURNAL OF CHEMICAL PHYSICS - Year 2023

    In this work, we shall estimate via computer simulations the homogeneous nucleation rate for the methane hydrate at 400 bars for a supercooling of about 35 K. The TIP4P/ICE model and a Lennard-Jones center were used for water and methane, respectively. To estimate the nucleation rate, the seeding technique was employed. Clusters of the methane hydrate of different sizes were inserted into the aqueous phase of a two-phase gas–liquid...

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  • Solubility of Methane in Water: Some Useful Results for Hydrate Nucleation

    Publication
    • J. Grabowska
    • S. Blazquez
    • E. Sanz
    • I. M. Zerón
    • J. Algaba
    • J. M. Míguez
    • F. J. Blas
    • C. Vega

    - JOURNAL OF PHYSICAL CHEMISTRY B - Year 2022

    In this paper, the solubility of methane in water along the 400 bar isobar is determined by computer simulations using the TIP4P/Ice force field for water and a simple LJ model for methane. In particular, the solubility of methane in water when in contact with the gas phase and the solubility of methane in water when in contact with the hydrate has been determined. The solubility of methane in a gas–liquid system decreases as temperature...

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  • Solubility of carbon dioxide in water: Some useful results for hydrate nucleation

    Publication
    • J. Algaba
    • I. M. Zerón
    • J. M. Míguez
    • J. Grabowska
    • S. Blazquez
    • E. Sanz
    • C. Vega
    • F. J. Blas

    - JOURNAL OF CHEMICAL PHYSICS - Year 2023

    In this paper, the solubility of carbon dioxide (CO2) in water along the isobar of 400 bar is determined by computer simulations using the well-known TIP4P/Ice force field for water and the TraPPE model for CO2. In particular, the solubility of CO2 in water when in contact with the CO2 liquid phase and the solubility of CO2 in water when in contact with the hydrate have been determined. The solubility of CO2 in a liquid–liquid...

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