Singularities of the Euler Equation and Hydrodynamic Stability

Tanveer, S.; Speziale, Charles G.

Singularities of the Euler Equation and Hydrodynamic Stability

Active / Technical Report | Accession Number: ADA258774 |

Open PDF

Abstract:

Equations governing the motion of a specific class of singularities of the Euler equation in the extended complex spatial domain are derived. Under some assumptions it is shown how this motion is dictated by the smooth part of the complex velocity at a singular point in the unphysical domain. These results are used to relate the motion of complex singularities to the stability of steady solutions of the Euler equation. A sufficient condition for instability is conjectured. Several examples are presented to demonstrated the efficacy of this sufficient condition, which include the class of elliptical flows and the Kelvin-Stuart Cats Eye.

Author(s):

Tanveer, S. ; Speziale, Charles G.

Author Organization(s):

INSTITUTE FOR COMPUTER APPLICATIONS IN SCIENCE AND ENGINEERING HAMPTON VA

Descriptive Note:

Research rept.

Supplementary Note:

Prepared in cooperation with the Mathematics Department, Ohio State University, Columbus, OH. Sponsored in part by the National Science Foundation (DMS-9107608) and the Department of Energy (DEFGO2-92ER1427O).

Pagination:

0023

Security Markings

DOCUMENT & CONTEXTUAL SUMMARY

Distribution:

Approved For Public Release

Distribution Statement:

Approved For Public Release; Distribution Is Unlimited.

RECORD

Collection: TR

Identifying Numbers

Report Number(s):

ICASE-92-54, NASA-CR-189720

Contract/Grant Number(s):

NAS1-18605, NAS1-19480

Monitor Series:

CR-189720, NASA-L

Subject Terms

Joint Capability Areas:

JCA_5_Command and Control; JCA_5.3_Planning; JCA_1_Force Support; JCA_1.2_Force Preparation; JCA_3.2_Engagement; JCA_3_Force Application; JCA_3.2.1_Kinetic Means; JCA_1.2.3_Educating

Communities of Interest:

Air Platforms

Descriptor(s):

*STABILITY, *EULER EQUATIONS, *INVISCID FLOW, *INSTABILITY, *INCOMPRESSIBLE FLOW, *HYDRODYNAMICS, VELOCITY, FLUID MECHANICS, STEADY FLOW, LAGRANGIAN FUNCTIONS, MOTION, EIGENVALUES, FLOW FIELDS, THREE DIMENSIONAL, TURBULENCE, MATHEMATICAL MODELS

Field(s)/Group(s):

Numerical Mathematics, Fluid Mechanics

Keyword(s):

COMPLEX DOMAIN, *COMPLEX SINGULARITIES, PHYSICAL DOMAIN, UNPHYSICAL DOMAIN, KELVIN STUART CAT S EYE, ELLIPTICAL FLOWS, VELOCITY GRADIENT TENSOR, WU505905201

Report Date:

1992 Oct 01