A challenge in Navier–Stokes-based continuum modeling: Maxwell–Burnett slip law
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Publication:5304256
DOI10.1063/1.2998451zbMath1182.76826OpenAlexW2035365354MaRDI QIDQ5304256
Huei Chu Weng, Cha'o-Kuang Chen
Publication date: 18 March 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.2998451
Related Items (6)
A comprehensive review on micro- and nano-scale gas flow effects: slip-jump phenomena, Knudsen paradox, thermally-driven flows, and Knudsen pumps ⋮ Analysis of heat transfer and entropy generation for a low-Peclet-number microtube flow using a second-order slip model: an extended-Graetz problem ⋮ Lattice Boltzmann simulation of electromechanical resonators in gaseous media ⋮ Magnetogasdynamic natural convection in a long vertical microchannel ⋮ Asymptotic analysis of the Boltzmann–BGK equation for oscillatory flows ⋮ A FRACTAL MODEL FOR APPARENT LIQUID PERMEABILITY OF DUAL WETTABILITY SHALE COUPLING BOUNDARY LAYER AND SLIP EFFECT
Cites Work
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- An analysis of second-order slip flow and temperature-jump boundary conditions for rarefied gases
- Mass flow and tangential momentum accommodation in silicon micromachined channels
- On the modelling of isothermal gas flows at the microscale
- Perturbation analysis on gas flow in a straight microchannel
- Second-order slip laws in microchannels for helium and nitrogen
- Beyond Navier–Stokes: Burnett equations for flows in the continuum–transition regime
- Mass flow rate measurements in a microchannel, from hydrodynamic to near free molecular regimes
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