Vermeire B.C., Pereira C.A., Karbasian H. Computational Fluid Dynamics: An Open Source Approach

Concordia University, Montreal, 2020, 215 p.This book evolved from undergraduate and graduate computational fluid dynamics courses that the author teaches at Concordia University. It uses entirely open-source tools including Python, Jupyter Notebooks, SU2, Gmsh, Paraview, LATEX, and many others. In terms of content, the book is designed with enough material to cover an advanced undergraduate course or an introductory course for graduate students.Part 1 Physics.
Conservation Laws.
The Navier Stokes Equations.
Simplified Systems.
Turbulence.
Boundary Conditions.Part 2 Numerics.
Taylor-Series.
Finite Difference Methods.
Finite Volume Methods.
Consistency, Stability, Convergence.
Spectral Properties.
Modified Equation Analysis.
Time-Stepping.
Iterative Methods.
Applications.Part 3: Applications.Inviscid.
Supersonic Wedge.
Inviscid ONERA M6.
Laminar Cylinder.
Turbulent ONERA M6.
Mesh Generation Using Gmsh.
Shock Waves.