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Essentials of Computational Fluid Dynamics

Jens-Dominik Mueller
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2nd C256
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Advection Equation
Advection Equation In 2d
Advection Speed
Aerofoil in 2-D
artificial viscosity
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Backward and Central Differences
biomedical engineering applications
Block Profile
Blood Vessel Bifurcation in 2-D
boundary condition selection
Boundary Condition Setup
Boundary Conditions
Burgers' Equation
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Cfd
Cfd Solution
CFL Condition
CFL Number
Compressible Flow Equations
Convergence of the Time-Stepping Iterations
Discretisation Of The Linear Advection Equation
Discretization
Eddy Viscosity Models
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Error Modes
Finite Difference Method
finite volume method
Finite-Volume Implementation of 2-D Advection
First- and Second-Order Accuracy
Flow Physics
Forward
Grid Generation
Heat Equation In 1d
Inviscid Flow
Linear Advection Equation
Mesh Adaptation
Mesh Convergence
Mesh Generator
Mesh Quality
Multi-block Mesh
Navier-Stokes Equations
Near-Wall Mesh Requirements
PDEs
Pressure Correction Equation
RANS Model
Second-Order Accuracy
Simplified Model Equations
Slip Wall Condition
Spalart Allmaras Model
Spatial Discretisation Approaches
spreadsheet-based CFD exercises
Stability and Artificial Viscosity
Structured Grids
Taylor Analysis
Tetrahedral Mesh
The Finite Volume Method
Truncation Error
truncation error analysis
Turbulence Modeling
turbulence modelling
Turbulent Boundary Layers
Turbulent Flow
Unsteady Turbulence
Unstructured Grids
Upwind Scheme
Validation
Velocity Magnitude Contours
Virtual Windtunnel
Viscous Flow
Wall Shear Stress

Product details

  • ISBN 9781482227307
  • Weight: 440g
  • Dimensions: 156 x 234mm
  • Publication Date: 06 Nov 2015
  • Publisher: Taylor & Francis Inc
  • Publication City/Country: US
  • Product Form: Paperback
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Description

Covered from the vantage point of a user of a commercial flow package, Essentials of Computational Fluid Dynamics provides the information needed to competently operate a commercial flow solver. This book provides a physical description of fluid flow, outlines the strengths and weaknesses of computational fluid dynamics (CFD), presents the basics of the discretization of the equations, focuses on the understanding of how the flow physics interact with a typical finite-volume discretization, and highlights the approximate nature of CFD. It emphasizes how the physical concepts (mass conservation or momentum balance) are reflected in the CFD solutions while minimizing the required mathematical/numerical background. In addition, it uses cases studies in mechanical/aero and biomedical engineering, includes MATLAB and spreadsheet examples, codes and exercise questions. The book also provides practical demonstrations on core principles and key behaviors and incorporates a wide range of colorful examples of CFD simulations in various fields of engineering.

In addition, this author:

  • Introduces basic discretizations, the linear advection equation, and forward, backward and central differences
  • Proposes a prototype discretization (first-order upwind) implemented in a spreadsheet/MATLAB example that highlights the diffusive character
  • Looks at consistency, truncation error, and order of accuracy
  • Analyzes the truncation error of the forward, backward, central differences using simple Taylor analysis
  • Demonstrates how the of upwinding produces Artificial Viscosity (AV) and its importance for stability
  • Explains how to select boundary conditions based on physical considerations
  • Illustrates these concepts in a number of carefully discussed case studies

Essentials of Computational Fluid Dynamics provides a solid introduction to the basic principles of practical CFD and serves as a resource for students in mechanical or aerospace engineering taking a first CFD course as well as practicing professionals needing a brief, accessible introduction to CFD.
About Jens-Dominik Mueller

Dr. Jens-Dominik Mueller is a senior lecturer in the School of Engineering and Materials Science at Queen Mary, University of London, UK. He graduated with a Dipl.-Ing in mechanical engineering in 1989 from the Technical University of Munich, obtained a VKI Diploma in aeronautics from the Von Karman Institute in Brussels in 1990, and an MSc and PhD in aerospace engineering from the University of Michigan, Ann Arbor, in 1996. He held research and academic positions at CERFACS, Toulouse, Oxford University and Queen's University Belfast. He is the author of more than 40 publications and has organized numerous international conferences.

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