Capillary constant and surface tension of methane/hydrogen mixtures

Capillary constant and surface tension of methane/hydrogen mixtures

[Display omitted] •The capillary constant of methane/hydrogen mixtures has been measured.•The surface tension of methane/hydrogen mixtures has been calculated.•The measurements were made by the differential capillary method.•Equations for the capillary constant and surface tension have been offered....

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Bibliographic Details
Published in:Fuel (Guildford) Vol. 200; pp. 107 - 112
Main Authors: Baidakov, V.G., Kaverin, A.M., Grishina, K.A.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 15-07-2017
Elsevier BV
Subjects:
Adsorption
Aircraft rockets
Capillary constant
Differential capillary method
Hydrogen
Mathematical models
Methane
Methane/hydrogen mixtures
Rail transportation
Railroads
Studies
Supersonic aircraft
Surface tension
Temperature
Tension
Thermodynamic models
Vapors
Surface tension
Differential capillary method
Adsorption
Capillary constant
Methane/hydrogen mixtures
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Summary:[Display omitted] •The capillary constant of methane/hydrogen mixtures has been measured.•The surface tension of methane/hydrogen mixtures has been calculated.•The measurements were made by the differential capillary method.•Equations for the capillary constant and surface tension have been offered.•Methane/hydrogen mixtures are a promising kind of fuel for transport. Methane/hydrogen mixtures are a promising kind of fuel for automobile, water and railway transport, supersonic aircraft, and rocket engineering. We have used the differential capillary method to measure the capillary constant a2 and calculate the surface tension σ in the temperature range from 95 to 176K and the pressure range from that of the saturated vapors of pure methane to 4MPa. Equations have been derived which describe the temperature, baric and concentration dependences of a2 and σ. The adsorption has been determined. The results of measurements are discussed in the framework of thermodynamic models of the theory of surface phenomena.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2017.03.043