Kinematic Viscosity and Speed of Sound in Gaseous CO, CO2, SiF4, SF6, C4F8 and NH3 From 220K to 375K and Pressures Up to 3.4 Mpa

Andres Estrada-Alexanders; John J. Hurly

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PUBLICATIONS

Kinematic Viscosity and Speed of Sound in Gaseous CO, CO₂, SiF₄, SF₆, C₄F₈ and NH₃ From 220K to 375K and Pressures Up to 3.4 Mpa

Published

October 12, 2021

Author(s)

Andres Estrada-Alexanders, John J. Hurly

Citation

Journal of Chemical Thermodynamics

Pub Type

Journals

Keywords

ab initio, acoustic resonance, frequency scaling factor, ideal gas heat capacity, siloxane, speed of sound

Citation

Estrada-Alexanders, A. and Hurly, J. (2021), Kinematic Viscosity and Speed of Sound in Gaseous CO, CO2, SiF4, SF6, C4F8 and NH3 From 220K to 375K and Pressures Up to 3.4 Mpa, Journal of Chemical Thermodynamics (Accessed May 6, 2024)

Created October 12, 2021

Kinematic Viscosity and Speed of Sound in Gaseous CO, CO2, SiF4, SF6, C4F8 and NH3 From 220K to 375K and Pressures Up to 3.4 Mpa

Author(s)

Keywords

Citation

Additional citation formats

Kinematic Viscosity and Speed of Sound in Gaseous CO, CO₂, SiF₄, SF₆, C₄F₈ and NH₃ From 220K to 375K and Pressures Up to 3.4 Mpa