• Title of article

    Accurate Determination of Liquid Viscosity and Surface Tension Using Surface Light Scattering (SLS): Toluene Under Saturation Conditions Between 260 and 380 K

  • Author/Authors

    A. P. Fr?ba and A. Leipertz ، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    27
  • From page
    895
  • To page
    921
  • Abstract
    Earlier reported values of the liquid kinematic viscosity and surface tension of the reference fluid toluene between 263 and 383 K under saturation conditions from surface light scattering have been recalculated. For this, an improved data evaluation scheme based on an exact description of the hydrodynamic capillary wave problem for a liquid-vapor iInterface has been applied. The maximum adjustments amount to 0.9 and 0.6% for the liquid kinematic viscosity and surface tension, respectively. These changes are within the uncertainties as stated in our original work which demonstrates that for the surface light scattering technique a total uncertainty of better than 1.0% for both properties of iInterest also holds for the revised data of the present work. Thus, in spite of the additional complexity connected with this very precise data evaluation procedure preseInted here, the surface light scattering technique could still be used with less complexity for a reliable determination of surface tension and liquid kinematic viscosity with an accuracy comparable or even better than that of conventional methods. While almost all of these conventional methods determine viscosity and surface tension in a relative manner with two completely different sets of experimental equipment, for the surface light scattering technique no calibration procedure is needed and both properties can be determined simultaneously without any extra effort.
  • Keywords
    dynamic light scattering , surface light scattering , toluene , viscosity. , surfacetension
  • Journal title
    International Journal of Thermophysics
  • Serial Year
    2003
  • Journal title
    International Journal of Thermophysics
  • Record number

    426982