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Gaseous mixtures in vacuum systems and microfluidics
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10.1116/1.4808496
/content/avs/journal/jvsta/31/5/10.1116/1.4808496
http://aip.metastore.ingenta.com/content/avs/journal/jvsta/31/5/10.1116/1.4808496
View: Figures

Figures

Image of FIG. 1.
FIG. 1.

(Color online) Scheme of the viscous slip coefficient and velocity profile.

Image of FIG. 2.
FIG. 2.

(Color online) Viscous slip coefficient vs mole fraction (Ref. ).

Image of FIG. 3.
FIG. 3.

(Color online) Scheme of the thermal and diffusion slip coefficients and velocity profile.

Image of FIG. 4.
FIG. 4.

(Color online) Thermal slip coefficient for an He-Xe mixture vs the mole fraction (Ref. ).

Image of FIG. 5.
FIG. 5.

(Color online) Thermal slip coefficient for RP vs the mole fraction (Ref. ).

Image of FIG. 6.
FIG. 6.

(Color online) Diffusion slip coefficient for an He-Xe mixture vs the mole fraction (Ref. ).

Image of FIG. 7.
FIG. 7.

(Color online) Diffusion slip coefficient for RP vs the mole fraction (Ref. ).

Image of FIG. 8.
FIG. 8.

(Color online) Scheme of the temperature jump coefficient and temperature distribution.

Image of FIG. 9.
FIG. 9.

(Color online) Temperature jump coefficient for an He-Xe mixture vs the mole fraction (Ref. ).

Image of FIG. 10.
FIG. 10.

(Color online) Temperature jump coefficient for RP vs the mole fraction (Ref. ).

Image of FIG. 11.
FIG. 11.

Scheme of the Couette flow and coordinates.

Image of FIG. 12.
FIG. 12.

(Color online) Ratio ( is shear stress for single gas) vs the mole fraction for an He-Xe mixture (Ref. ).

Image of FIG. 13.
FIG. 13.

(Color online) Reduced shear stress Π vs rarefaction δ at  = 0.1 (Ref. ).

Image of FIG. 14.
FIG. 14.

(Color online) Reduced shear stress Π vs rarefaction δ at  = 0.9 (Ref. ).

Image of FIG. 15.
FIG. 15.

Scheme of the heat transfer and coordinates.

Image of FIG. 16.
FIG. 16.

(Color online) Quantity θ vs the mole fraction .

Image of FIG. 17.
FIG. 17.

(Color online) Reduced heat flux vs the mole fraction for an He-Xe mixture (Ref. ).

Image of FIG. 18.
FIG. 18.

(Color online) Reduced heat flux vs rarefaction δ at (Ref. ).

Image of FIG. 19.
FIG. 19.

(Color online) Reduced heat flux vs rarefaction δ at (Ref. ).

Image of FIG. 20.
FIG. 20.

Scheme of the flow through a capillary and coordinates.

Image of FIG. 21.
FIG. 21.

(Color online) Coefficient for a circular tube vs rarefaction δ: solid line—single gas (Ref. ), symbols—He-Ar mixture (Ref. ).

Image of FIG. 22.
FIG. 22.

(Color online) Coefficient for a circular tube vs rarefaction δ: solid line—single gas (Ref. ), symbols—He-Ar mixture (Ref. ).

Image of FIG. 23.
FIG. 23.

(Color online) Coefficient , and for a circular tube vs rarefaction δ for an He-Ar mixture at (Ref. ).

Image of FIG. 24.
FIG. 24.

(Color online) Coefficient for a square channel vs rarefaction δ: solid line—single gas (Ref. ), symbols—mixture at  = 0.5 (Ref. ).

Image of FIG. 25.
FIG. 25.

(Color online) Coefficient for a square channel vs rarefaction δ: solid line—single gas (Ref. ), symbols—mixture at  = 0.5 (Ref. ).

Image of FIG. 26.
FIG. 26.

(Color online) Exponent TPD γ for planar channel vs rarefaction δ: curve—single gas (Ref. ), symbols—He-Xe mixture (Ref. ).

Image of FIG. 27.
FIG. 27.

(Color online) Exponent TMFD χ for an He-Xe mixture in planar channel vs rarefaction δ (Ref. ).

Image of FIG. 28.
FIG. 28.

(Color online) Ratio of outlet mole fraction to inlet mole fraction for an He-Xe mixture vs rarefaction (Ref. ).

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/content/avs/journal/jvsta/31/5/10.1116/1.4808496
2013-06-06
2014-04-16
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752b84549af89a08dbdd7fdb8b9568b5 journal.articlezxybnytfddd
Scitation: Gaseous mixtures in vacuum systems and microfluidics
http://aip.metastore.ingenta.com/content/avs/journal/jvsta/31/5/10.1116/1.4808496
10.1116/1.4808496
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