The McCormack model for gas mixtures: Plane Couette flow
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Publication:3554947
DOI10.1063/1.1845911zbMath1187.76176OpenAlexW2043296531MaRDI QIDQ3554947
R. D. M. Garcia, C. E. Siewert
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/fed576bda9981cdccaed47f078984c8acc8d1b65
heat transferMaxwell equationsargoncompressible flowcomputational fluid dynamicsmultiphase flowCouette flowflow simulationheliumgas mixturesconfined flowrarefied fluid dynamics
Related Items (3)
Steady planar Couette flow of rarefied binary gaseous mixture based on kinetic modeling ⋮ Couette flow of a binary mixture of rigid-sphere gases described by the linearized Boltzmann equation ⋮ A Legendre expansion and some exact solutions basic to the McCormack model for binary gas mixtures
Cites Work
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- The McCormack model: Channel flow of a binary gas mixture driven by temperature, pressure and density gradients
- On the behavior of a slightly rarefied gas mixture over plane boundaries
- The linearized Boltzmann equation: Concise and accurate solutions to basic flow problems
- Concise and accurate solutions to half-space binary-gas flow problems defined by the McCormack model and specular-diffuse wall conditions
- Plane Couette flow of binary gaseous mixture in the whole range of the Knudsen number
- The McCormack model for gas mixtures: The temperature-jump problem
- The McCormack model for gas mixtures: Heat transfer in a plane channel
- Velocity slip and temperature jump coefficients for gaseous mixtures. I. Viscous slip coefficient
- Couette flow of a binary gas mixture
- Construction of linearized kinetic models for gaseous mixtures and molecular gases
- A review of the rarefied gas dynamics theory associated with some classical problems in flow and heat transfer
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