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- Title
The effects of Knudsen-dependent flow velocity on vibrations of a nano-pipe conveying fluid.
- Authors
Mirramezani, Mehran; Mirdamadi, Hamid
- Abstract
In this paper, we investigate the effect of nano-flow on vibration of nano-pipe conveying fluid using Knudsen (Kn). We use Euler-Bernoulli plug-flow beam theory. We modify no-slip condition of nano-pipe conveying fluid based on Kn. We define a Kn-dependent flow velocity. We consider effect of slip condition, for a liquid and a gas flow. We reformulate Navier-Stokes equations, with modified versions of Kn-dependent flow velocity. We observe that for passage of gas through nano-pipe with nonzero Kn, the critical flow velocities decreased considerably as opposed to those for zero Kn. This can show that ignoring Kn effect on a gas nano-flow may cause non-conservative design of nano-devices. Furthermore, a more impressive phenomenon happens in the case of clamped-pinned pipe conveying gas fluid. While we do not observe any coupled-mode flutter for a zero Kn, we can see the coupled-mode flutter, accompanying the second-mode divergence, for a nonzero Kn.
- Subjects
FREE molecular flow; FLOW velocity; NANOSTRUCTURED materials; BERNOULLI-Euler method; BOUNDARY value problems; NAVIER-Stokes equations; GAS flow
- Publication
Archive of Applied Mechanics, 2012, Vol 82, Issue 7, p879
- ISSN
0939-1533
- Publication type
Article
- DOI
10.1007/s00419-011-0598-9