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Books Results
Source: The Open Library
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1Effects of numerical dissipation on finite volume solutions of compressible flow problems
By David A. Caughey
“Effects of numerical dissipation on finite volume solutions of compressible flow problems” Metadata:
- Title: ➤ Effects of numerical dissipation on finite volume solutions of compressible flow problems
- Author: David A. Caughey
- Publisher: ➤ American Institute of Aeronautics and Astronautics
- Publish Date: 1988
- Publish Location: Washington
“Effects of numerical dissipation on finite volume solutions of compressible flow problems” Subjects and Themes:
- Subjects: Dissipation - Compressible flow - Finite volume methods
Edition Identifiers:
- The Open Library ID: OL21378536M
Access and General Info:
- First Year Published: 1988
- Is Full Text Available: No
- Is The Book Public: No
- Access Status: No_ebook
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Source: Wikipedia
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Finite volume method
"Finite volume" refers to the small volume surrounding each node point on a mesh. Finite volume methods can be compared and contrasted with the finite
Numerical methods for partial differential equations
Spectral methods and finite element methods are closely related and built on the same ideas; the main difference between them is that spectral methods use
Finite element method
combining mesh-free methods with the finite element method. Spectral element methods combine the geometric flexibility of finite elements and the acute
Partial differential equation
element method (FEM), finite volume methods (FVM) and finite difference methods (FDM), as well other kind of methods called meshfree methods, which were made
Finite difference method
analysis, finite-difference methods (FDM) are a class of numerical techniques for solving differential equations by approximating derivatives with finite differences
Computational fluid dynamics
shocks and contact surfaces. Some of the discretization methods being used are: The finite volume method (FVM) is a common approach used in CFD codes, as it
Numerical methods in fluid mechanics
notable for our purposes are: finite difference methods, finite volume methods, finite element methods, and spectral methods. Finite difference replace the infinitesimal
Discretization of Navier–Stokes equations
fluid dynamics. Several methods of discretization can be applied: Finite volume method Finite elements method Finite difference method We begin with the incompressible
Finite volume method for unsteady flow
as the time derivative of the properties are absent. For Studying Finite-volume method for unsteady flow there is some governing equations > The conservation
Discontinuous Galerkin method
methods (DG methods) form a class of numerical methods for solving differential equations. They combine features of the finite element and the finite