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- Title
Compressible Euler equations on a sphere and elliptic–hyperbolic property.
- Authors
Holloway, Ian; Sritharan, Sivaguru S
- Abstract
In this work, we systematically derive the governing equations of supersonic conical flow by projecting the 3D Euler equations onto the unit sphere. These equations result from taking the assumption of conical invariance on the 3D flow field. Under this assumption, the compressible Euler equations reduce to a system defined on the surface of the unit sphere. This compressible flow problem has been successfully used to study the steady supersonic flow past cones of arbitrary cross section by reducing the number of spatial dimensions from three down to two while still capturing many of the relevant 3D effects. In this paper, the powerful machinery of tensor calculus is utilized to avoid reference to any particular coordinate system. With the flexibility to use any coordinate system on the surface of a sphere, the equations can be more readily solved numerically when a structured mesh is used by defining the mesh lines to be the coordinate lines. The type of the system of partial differential equations would be hyperbolic or elliptic based on whether the crossflow Mach number is supersonic or subsonic.
- Subjects
MACH number; SUPERSONIC flow; COMPRESSIBLE flow; PARTIAL differential equations; CALCULUS of tensors; CROSS-flow (Aerodynamics); EULER equations
- Publication
IMA Journal of Applied Mathematics, 2021, Vol 86, Issue 1, p165
- ISSN
0272-4960
- Publication type
Article
- DOI
10.1093/imamat/hxaa042