We present a review of recent technical developments in Lattice Boltzmann Equations, as applied to single-phase flows with and without slip lenghts at the wall and for multi-phase flows in presence of hydrophobic walls. The interplay between roughness and hydrophobicity is discussed for microfluidics application. The issue of finite Knudsen effects is also addressed.
Succi, S., Benzi, R., Biferale, L., Sbragaglia, M., Toschi, F. (2007). Lattice kinetic theory as a form of supra-molecular dynamics for computational microfluidics. BULLETIN OF THE POLISH ACADEMY OF SCIENCES. TECHNICAL SCIENCES, 55(2), 151-158.
Lattice kinetic theory as a form of supra-molecular dynamics for computational microfluidics
BENZI, ROBERTO;BIFERALE, LUCA;SBRAGAGLIA, MAURO;
2007-01-01
Abstract
We present a review of recent technical developments in Lattice Boltzmann Equations, as applied to single-phase flows with and without slip lenghts at the wall and for multi-phase flows in presence of hydrophobic walls. The interplay between roughness and hydrophobicity is discussed for microfluidics application. The issue of finite Knudsen effects is also addressed.File in questo prodotto:
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