English

On flow-field decomposition in fluid dynamics

Fluid Dynamics 2018-12-13 v3

Abstract

In the theory of hydrodynamic stability, the procedure to decompose an incompressible flow field into its basic motion and disturbances is imprecise and problematic because the disturbances, infinitesimal or finite, are ill-defined quantities in analysis. The linearised equations contravene the first principles of classical mechanics while the disturbance-driven non-linear formulation can hardly be considered as exact science. The notion that unstable and amplified disturbances precipitating the early stages of laminar-turbulent transition is vague, speculative or fundamentally flawed. Similarly, turbulence is unjustifiably assumed to involve a statistical mean, and zero-on-average fluctuations. This simplistic postulation is unpromising, and inevitably renders turbulent flows to a recondite dynamics of self-contradiction. By consequence, the closure problem of turbulence modelling the Reynolds stresses deals with issues of no physical relevance.

Keywords

Cite

@article{arxiv.1708.04919,
  title  = {On flow-field decomposition in fluid dynamics},
  author = {F. Lam},
  journal= {arXiv preprint arXiv:1708.04919},
  year   = {2018}
}

Comments

11 pages. Correction of figure 1. On p.9, line 5, 'the full Navier-Stokes ...', instead of `the Navier-Stokes ...'

R2 v1 2026-06-22T21:16:13.988Z