Adsorption isotherms of water in Li-, Na-, and K-montmorillonite by molecular simulation

E.J.M. Hensen, T.J. Tambach, A. Bliek, B. Smit

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A biased Monte Carlo method for the insertion of water in dense clay-water systems is presented. The use of this algorithm results in a considerable increase of the success rate of insertion attempts. It allows to compute water adsorption isotherms up to high water densities, where the conventional Monte Carlo scheme fails. The isotherms were calcd. by a combination of mol. dynamics and grand-canonical Monte Carlo simulation for Li-, Na-, and K-montmorillonite at a fixed d(001) spacing of 12.0 .ANG.. At low water pressure, the degree of clay hydration is governed by the type of counterion, Li-montmorillonite having the highest water content. Hydrogen bonding between water mols. is absent. Li+ and Na+ are small enough to be organized in 2 layers close to the clay mineral surfaces, whereas K+ is mainly located in the midplane. In both cases, the water mols. primarily reside in the midplane of the interlayer. Increasing the water pressure leads to water adsorption at higher energy sites closer to the surface, i.e., coordinating to the structural OH groups in the hexagonal cavities. A hydrogen bond network is formed in the clay interlayer. This points to water condensation and leads to a sharp increase in the clay water content. [on SciFinder (R)]
Originele taal-2Engels
Pagina's (van-tot)3322-3329
TijdschriftJournal of Chemical Physics
Nummer van het tijdschrift7
StatusGepubliceerd - 2001


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