Transition from Free-Molecule to Continuum Flow in an Annulus

Maegley, Wendel J.; Berman, A. S.

doi:10.1063/1.1693984

Cited by 10 publications

(2 citation statements)

References 9 publications

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“…(4), the parameter may take values between 0 and 2, with the upper limit indicating perfect back-reflection. These authors 41,65 (as well as others 25,34 ), found good agreement with experimental data for α > 1, in particular on rough surfaces. However, the values α 2 > 1.4 seen in Table III for Kr, CO 2 , and C 2 H 6 seem rather (and possibly too) high.…”

Section: B Slip and Accommodation Coefficientssupporting

confidence: 69%

Hydrodynamic force measurements under precisely controlled conditions: Correlation of slip parameters with the mean free path

et al. 2013

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A customized atomic force microscope has been utilized in dynamic mode to measure hydrodynamic forces between a sphere and a flat plate, both coated with gold. In order to study the influence of the mean free path on slippage without systematic errors due to varying surface properties, all data have been acquired at precisely the same spot on the plate. Local accommodation coefficients and slip lengths have been extracted from experimental data for He, Ne, Ar, Kr, as well as N2, CO2, and C2H6, at Knudsen numbers between 3 × 10−4 and 3. We found that slippage is effectively suppressed if the mean free path of the fluid is lower than the roughness amplitude on the surface, while we could not observe a clear correlation between the accommodation coefficient and the molecular mass.

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Section: B Slip and Accommodation Coefficientssupporting

confidence: 69%

Hydrodynamic force measurements under precisely controlled conditions: Correlation of slip parameters with the mean free path

et al. 2013

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“…Consider flow through a long tube due to an imposed concentration difference An = n0, the concentration at the tube entrance. The free molecule flow in molecules per second may be written as C = y4üAQfmn0 = DfmSfm(n0//i)A (7) where…”

Section: Flow Results and Discussionmentioning

confidence: 99%

Free molecule flow and interdiffusion through porous glass

Wright¹,

Berman²,

Prager³

1978

J. Phys. Chem.

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The free molecule flow of helium, argon, ethane, carbon dioxide, and neo-, iso-, and n-pentane through Vycor porous glass was measured by a pressure rise technique. The measurements indicate that the free molecule flows are greatly affected by gas^surface interactions. Estimates of activation energies for diffusion and adsorption energies are made for several of the gases. Surprisingly large differences in the free molecule flow of pentane isomers are observed. Interdiffusion experiments using pentane isomers indicate that, even in the presence of gas-surface interaction, the isomer flows in Vycor are essentially independent of each other. The pressure rise observed during the interdiffusion experiments would seem to provide a tool for the investigation of the gas-surface interaction.

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3. Gaseous diffusion

Massignon¹

1979

Topics in Applied Physics

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Transition from Free-Molecule to Continuum Flow in an Annulus

Cited by 10 publications

References 9 publications

Hydrodynamic force measurements under precisely controlled conditions: Correlation of slip parameters with the mean free path

Hydrodynamic force measurements under precisely controlled conditions: Correlation of slip parameters with the mean free path

Free molecule flow and interdiffusion through porous glass

3. Gaseous diffusion

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