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Pulsed field gradient proton NMR study of the self-diffusion of H2O in montmorillonite gel: Effects of temperature and water fraction

  • Yoshito Nakashima EMAIL logo
Published/Copyright: March 26, 2015
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American Mineralogist
From the journal American Mineralogist Volume 86 Issue 1-2

Abstract

Self-diffusion coefficients of water molecules (H2O) in Na-montmorillonite gel were measured as a function of water fraction (54.8 to 100 wt%) and temperature (30.4 to 60.0 °C) using proton nuclear magnetic resonance (NMR). Spin-echo pulse sequences with magnetic field gradient pulses for the diffusion measurement were applied to the montmorillonite gel at the Larmor frequency of 20 MHz. The self-diffusion coefficient, D, of H2O in the clay gel is expressed phenomenologically by ln(D/D0) = 1.77{exp[0.0798(w − 100)] − 1}, where D0 is the water diffusivity in bulk water and w is the water fraction of the gel (wt%). The data for w > 84.7 wt% can be explained by a theoretical diffusion model for the randomly distributed clay grains. The activation energy of the water diffusivity in the montmorillonite gel was nearly equal to that in bulk water, so the normalized diffusivity, D/D0, obeys the temperature-independent master curve. The transition from the free diffusion to the restricted diffusion was not observed for gradient pulse intervals ranging from 5 to 120 ms. This indicates that the average pore size of the gel is much smaller than a few tens of micrometers, so the random walk trajectory of water molecules in the gel is geometrically restricted by the packing of clay mineral grains. Water diffusivity higher than that of the present NMR study was found by computer simulations and neutron scattering experiments in which effects of bound water were considered but those of the tortuosity of the grain packing were neglected. Thus, the predominant factor controlling the diffusivity in the NMR experiments is not the bound water near the clay surface but the geometrical tortuosity of the packing of clay mineral grains.

Received: 1999-10-25
Accepted: 2000-8-28
Published Online: 2015-3-26
Published in Print: 2001-1-1

© 2015 by Walter de Gruyter Berlin/Boston

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  11. Experimental mixtures of smectite and rectorite: Re-investigation of “fundamental particles” and “interparticle diffraction”
  12. Hydrothermal reactivity of Lu-saturated smectites: Part I. A long-range order study
  13. Hydrothermal reactivity of Lu-saturated smectites: Part II. A short-range order study
  14. Pulsed field gradient proton NMR study of the self-diffusion of H2O in montmorillonite gel: Effects of temperature and water fraction
  15. Structural environment and oxidation state of Mn in goethite-groutite solid-solutions
  16. Structure, compressibility, hydrogen bonding, and dehydration of the tetragonal Mn3+ hydrogarnet, henritermierite
  17. Electric field gradient tensors at the aluminum sites in the Al2SiO5 polymorphs from CCD high-resolution X-ray diffraction data: Comparison with 27Al NMR results
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https://doi.org/10.2138/am-2001-0114

Articles in the same Issue

  1. Self diffusion of Si and O in dacitic liquid at high pressures
  2. The effect of anhydrous composition on water solubility in granitic melts
  3. Stability and phase relations of Ca[ZnSi3]O8, a new phase with feldspar structure in the system CaO-ZnO-SiO2
  4. Magmatic Na-rich phlogopite in a suite of gabbroic crustal xenoliths from Volcán San Pedro, Chilean Andes: Evidence for a solvus relation between phlogopite and aspidolite
  5. The influence of T, aSiO₂, and fO₂ on exsolution textures in Fe-Mg olivine: An example from augite syenites of the Ilimaussaq Intrusion, South Greenland
  6. An experimental study of the external reduction of olivine single crystals
  7. Determination of site population in olivine: Warnings on X-ray data treatment and refinement
  8. Structural properties of ferromagnesian cordierites
  9. A calorimetric study of zoisite and clinozoisite solid solutions
  10. Mineralogy of lead in a soil developed on a Pb-mineralized sandstone (Largentière, France)
  11. Experimental mixtures of smectite and rectorite: Re-investigation of “fundamental particles” and “interparticle diffraction”
  12. Hydrothermal reactivity of Lu-saturated smectites: Part I. A long-range order study
  13. Hydrothermal reactivity of Lu-saturated smectites: Part II. A short-range order study
  14. Pulsed field gradient proton NMR study of the self-diffusion of H2O in montmorillonite gel: Effects of temperature and water fraction
  15. Structural environment and oxidation state of Mn in goethite-groutite solid-solutions
  16. Structure, compressibility, hydrogen bonding, and dehydration of the tetragonal Mn3+ hydrogarnet, henritermierite
  17. Electric field gradient tensors at the aluminum sites in the Al2SiO5 polymorphs from CCD high-resolution X-ray diffraction data: Comparison with 27Al NMR results
  18. Sodium cation dynamics in nitrate cancrinite: A low and high temperature 23Na and 1H MAS NMR study and high temperature Rietveld structure refinement
  19. O-D…O bond geometry in OD-chondrodite
  20. Refinement of hydrogen positions in synthetic hydroxyl-clinohumite by powder neutron diffraction
  21. In situ dehydration of yugawaralite
  22. Molecular dynamics simulation of phase transitions and melting in MgSiO3 with the perovskite structure—Comment
  23. Reply to Comment on “Molecular dynamics simulation of phase transitions and melting in MgSiO3 with the perovskite structure”
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