Velocity slip in microscale cylindrical Couette flow: The Langmuir model
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Publication:3557121
DOI10.1063/1.2003154zbMath1187.76377OpenAlexW2058562897WikidataQ59766584 ScholiaQ59766584MaRDI QIDQ3557121
Jason M. Reese, R. S. Myong, David R. Emerson, R. W. Barber
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/b4f0817d03e2f39c9b5a111967859c258a6b7fbc
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Cites Work
- A generalized hydrodynamic computational model for rarefied and microscale diatomic gas flows
- New directions in fluid dynamics: non-equilibrium aerodynamic and microsystem flows
- Thermodynamically consistent hydrodynamic computational models for high-Knudsen-number gas flows
- Gaseous slip models based on the Langmuir adsorption isotherm
- Inverted velocity profiles in rarefied cylindrical Couette gas flow and the impact of the accommodation coefficient
- SIMULATION AND MODELLING OF FLOWS BETWEEN ROTATING CYLINDERS.
- THE INFLUENCE OF SLIP AND JUMP BOUNDARY CONDITIONS ON THE CYLINDRICAL COUETTE FLOW
- On the kinetic theory of rarefied gases
- Couette flow from a thirteen field theory with slip and jump boundary conditions.
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