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Metrology of the thermodiffusion coefficients in a ternary system

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Veröffentlicht/Copyright: 5. Dezember 2005
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Journal of Non-Equilibrium Thermodynamics
Aus der Zeitschrift Band 30 Heft 4

Abstract

In a ternary mixture of dodecane, isobutylbenzene, and 1,2,3,4-tetrahydronaphtalene, we succeeded in measuring the two thermodiusion factors using the thermogravitational column technique, and applying the Furry–Jones–Onsager theory. We suggest correlating the thermodiusion factors in the ternary system with those in the three binaries.

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Published Online: 2005-12-05
Published in Print: 2005-11-01

© Walter de Gruyter

Artikel in diesem Heft

  1. Acknowledgement
  2. Contents of Volume 30 (2005)
  3. Analytical Subject Index
  4. Index of Authors
  5. Density, fractal angle, and fractal dimension in linear Zn electrodeposition morphology
  6. Accuracy of the theoretical calculation of the Soret coefficient for water–ethanol mixtures in comparison with experimental data
  7. Theoretical analysis and comparison with experimentation of the molecular and thermal diffusion coefficients for a ternary hydrocarbon mixture
  8. Close-to-Fourier heat conduction equation of solids of constant mass density
  9. Metrology of the thermodiffusion coefficients in a ternary system
  10. A mesoscopic approach to diffusion phenomena in mixtures
https://doi.org/10.1515/JNETDY.2005.027

Artikel in diesem Heft

  1. Acknowledgement
  2. Contents of Volume 30 (2005)
  3. Analytical Subject Index
  4. Index of Authors
  5. Density, fractal angle, and fractal dimension in linear Zn electrodeposition morphology
  6. Accuracy of the theoretical calculation of the Soret coefficient for water–ethanol mixtures in comparison with experimental data
  7. Theoretical analysis and comparison with experimentation of the molecular and thermal diffusion coefficients for a ternary hydrocarbon mixture
  8. Close-to-Fourier heat conduction equation of solids of constant mass density
  9. Metrology of the thermodiffusion coefficients in a ternary system
  10. A mesoscopic approach to diffusion phenomena in mixtures
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