Mechanisms for Stabilising Water Clathrates
- 1 December 1990
- journal article
- research article
- Published by Taylor & Francis in Molecular Simulation
- Vol. 5 (5) , 315-328
- https://doi.org/10.1080/08927029008022417
Abstract
Molecular dynamics computer simulations are used to examine various possible mechanisms for stabilising water clathrates. It is found that the attractive interactions between guest and host molecules are not sufficient to explain the clathrate's stability; nor is there any significant dynamic coupling between the guest and host molecules in the clathrate. Instead, it appears that the repulsive guest-host interactions provide the mechanical stability of the clathrate, and that they are even sufficient to define its structure. Some of the thermodynamic implications of these observations are discussed.Keywords
This publication has 12 references indexed in Scilit:
- Rattle: A “velocity” version of the shake algorithm for molecular dynamics calculationsPublished by Elsevier ,2004
- Cavity potential in type I gas hydratesThe Journal of Physical Chemistry, 1989
- Molecular dynamics evaluation of cell models for type I gas hydrate crystal dynamicsJournal of Physics and Chemistry of Solids, 1988
- Xenon-129 NMR and the thermodynamic parameters of xenon hydrateThe Journal of Physical Chemistry, 1986
- Inhibition of gas hydrates by methanolAIChE Journal, 1986
- A computer simulation method for the calculation of equilibrium constants for the formation of physical clusters of molecules: Application to small water clustersThe Journal of Chemical Physics, 1982
- Composition of clathrate gas hydrates of chlorodifluoromethane, trichlorofluoromethane, chlorine, perchloryl fluoride, hydrogen sulfide, and sulfur hexafluorideThe Journal of Physical Chemistry, 1981
- Thermodynamic and Molecular Properties of Gas Hydrates from Mixtures Containing Methane, Argon, and KryptonIndustrial & Engineering Chemistry Fundamentals, 1980
- Neutron diffraction study of the crystal structure of ethylene oxide deuterohydrate at 80°KThe Journal of Chemical Physics, 1977
- Clathrate SolutionsAdvances in Chemical Physics, 1958