Publications [#281324] of Kenneth C. Hall
- Clark, WS; Hall, KC, Numerical model of the onset of stall flutter in cascades,
American Society of Mechanical Engineers (Paper)
pp. 11pp, Houston, TX, USA
(last updated on 2020/07/11)
In this paper, we present a computational fluid dynamic model of the unsteady flow associated with the onset of stall flutter in turbomachinery cascades. The unsteady flow is modeled using the laminar Navier-Stokes equations. We assume that the unsteadiness in the flow is a small harmonic disturbance about the mean or steady flow. Therefore, the unsteady flow is governed by a small-disturbance form of the Navier-Stokes equations. These linear variable coefficient equations are discretized on a deforming computational grid and solved efficiently using a multiple-grid Lax-Wendroff scheme. A number of numerical examples are presented which demonstrate the destabilizing influence of viscosity on the aeroelastic stability of airfoils in cascade, especially for torsional modes of blade vibration.
Mathematical models;Computational fluid dynamics;Unsteady flow;Turbomachinery;Laminar flow;Navier Stokes equations;Viscosity;Airfoils;Turbomachine blades;Vibrations (mechanical);