Knudsen paradox
The Knudsen Paradox has been observed in experiments of channel flow with varying channel width or equivalently different pressures.[1] If the normalized mass flux through the channel is plotted over the Knudsen number based on the channel width a distinct minimum is observed around . This is a paradoxical behaviour because, based on the Navier–Stokes equations, one would expect the mass flux to decrease with increasing the Knudsen number. The minimum can be understood intuitively by considering the two extreme cases of very small and very large Knudsen number. For very small Kn the viscosity vanishes and a fully developed steady state channel flow shows infinite flux. On the other hand, the particles stop interacting for large Knudsen numbers. Because of the constant acceleration due to the external force, the steady state again will show infinite flux.[2]
See also
- Vlasov equation
- Fokker–Planck equation
- Navier–Stokes equations
- Vlasov–Poisson equation
- Lattice Boltzmann methods
- List of paradoxes
References
- ↑ Martin Knudsen, "Die Gesetze der Molekularströmung und der inneren Reibungsströmung der Gase durch Röhren", Annalen der Physik 333 (1909) 75–130.
- ↑ , A solution algorithm for the fluid dynamic equations based on a stochastic model for molecular motion.