Diffusion modes of an equimolar methane-ethane mixture from dynamic light scattering

Fröba AP, Will S, Leipertz A (2000)


Publication Language: English

Publication Status: Published

Publication Type: Journal article, Original article

Publication year: 2000

Journal

Publisher: Springer Verlag (Germany)

Book Volume: 21

Pages Range: 603-620

Abstract

The hydrodynamic diffusion modes of an equimolar methane ethane mixture have been investigated by dynamic light scattering. Measurements were performed over a wide temperature range between the plait critical point at 263.55 K and 310 K along the critical isochore. Two relaxation modes have been observed which are commonly associated with pure mass diffusion and pun thermal diffusion, but ill near-critical binary fluid mixtures-according to recent theory may alternatively be interpreted as two effective diffusivities resulting From a coupling between mass and thermal diffusion. Diffusivity values for the slow mode were obtained with typical standard deviations of 1% over the whole temperature range, whereas the low amplitude of the fast mode only allowed values of this component with a large measurement uncertainty. The results are discussed in connection with literature data available for the thermophysical properties of this binary fluid mixture and regarding the various possibilities of theoretical interpretation.

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How to cite

APA:

Fröba, A.P., Will, S., & Leipertz, A. (2000). Diffusion modes of an equimolar methane-ethane mixture from dynamic light scattering. International Journal of Thermophysics, 21, 603-620.

MLA:

Fröba, Andreas Paul, Stefan Will, and Alfred Leipertz. "Diffusion modes of an equimolar methane-ethane mixture from dynamic light scattering." International Journal of Thermophysics 21 (2000): 603-620.

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