2012
DOI: 10.1017/jfm.2011.499
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The effect of compressibility on the stability of wall-bounded Kolmogorov flow

Abstract: We extend the stability analysis of incompressible Kolmogorov flow, induced by a spatially periodic external force in an unbounded domain, to a compressible hardsphere gas confined between two parallel isothermal walls. The two-dimensional problem is studied by means of temporal stability analysis of a 'slip flow' continuumlimit model and the direct simulation Monte Carlo (DSMC) method. The neutral curve is obtained in terms of the Reynolds (Re) and Knudsen (Kn) numbers, for a given non-dimensional wavenumber … Show more

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Cited by 22 publications
(5 citation statements)
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“…Being a consequence of the form of solution in Eq. (39), this result will be further validated and discussed in Sec. VI.…”
Section: Continuum Limitmentioning
confidence: 60%
See 1 more Smart Citation
“…Being a consequence of the form of solution in Eq. (39), this result will be further validated and discussed in Sec. VI.…”
Section: Continuum Limitmentioning
confidence: 60%
“…In view of previous analyses of the stability of rarefied gas flows in other canonical configurations (e.g., Refs. [37][38][39]), it appears reasonable to expect that gas rarefaction stabilizes the system state, thus confining instability phenomena (and associated two-dimensional effects) to the limit of small Knudsen numbers. The 2ω-oscillatory amplitude functions of the O(Ma 2 ) vertical velocity v (2) (y) and density ρ (2)…”
Section: Discussionmentioning
confidence: 99%
“…Further physics such as rotation, bottom friction and stratification (Lorenz (1972); Kazantsev (1998); Manfroi & Young (1999); Balmforth & Young (2002; Tsang & Young (2008, 2009)) can also be added to examine most commonly their effect on the inverse energy cascade in geophysical fluid dynamics. Recently compressible (Manela & Zhang (2012); Fortova (2013)), viscoelastic (Boffetta et al (2005); Berti & Boffetta (2010)) and even granular (Roeller et al (2009)) versions of Kolmogorov flow have been treated.…”
Section: Introductionmentioning
confidence: 99%
“…The present work complements previous studies on the Rayleigh-Bénard instability in rarefied gases, all dedicated to the problem at isothermal walls conditions. Having demonstrated the impact of a change in the thermal boundary conditions on the system properties, it may be of interest to consider the effect of heat-flux conditions in other canonical stability problems, including the Taylor-Couette [26] or Kolmogorov [27] setups. As the dynamic and thermodynamic fluid descriptions are inevitably coupled at noncontinuum states, thermal conditions modifications may prove effective in monitoring these and other instability phenomena in rarefied gases.…”
Section: Discussionmentioning
confidence: 99%