Nonlinear Stability of Liquid Film Adjacent to a Viscous Supersonic Stream,

Abstract

The nonlinear stability of a liquid film adjacent to a viscous supersonic gas stream is investigated. The gas is assumed to exert a mean shear stress at the liquid/gas interface which in turn establishes a linear mean velocity profile in the liquid. The shear and pressure perturbations exerted by the gas on the liquid are calculated by taking into account the gas viscosity and mean velocity profile. The problem is formulated within the long wave approximation and solutions are obtained for small but finite amplitudes and for small and moderate liquid Reynolds number. The predicted wavenumbers are found to be in good agreement with those observed over wedge and cone shaped models in laminar supersonic wind tunnels. The analysis is incapable of predicting the observed amplitudes, wave speeds and frequencies. (Author)

Document Details

Document Type
Technical Report
Publication Date
Apr 01, 1974
Accession Number
AD0779247

Entities

People

  • Ali Hasan Nayfeh
  • Gary L. Bordner

Organizations

  • Virginia Tech

Tags

DTIC Thesaurus Topics

  • Agreements
  • Amplitude
  • Frequency
  • Mechanical Properties
  • Mechanics
  • Perturbations
  • Physical Properties
  • Reynolds Number
  • Shear Stresses
  • Stresses
  • Supersonic Wind Tunnels
  • Viscosity
  • Wind Tunnels

Fields of Study

  • Physics

Readers

  • Atmospheric Science / Meteorology, specifically Wind Wave Turbulence.
  • Combustion and Flow Dynamics.
  • Structural Dynamics.

Technology Areas

  • Hypersonics
  • Hypersonics - Hypersonic Boundary Layers
  • Hypersonics - Hypersonic Flow