Publication suggested by Holzmann CFD

The following publications will give an overview of the modeling approaches we are using in OpenFOAM®. There are a lot of other articles and books available which describes certain topics in the field of computational fluid dynamics. Especially, one should always be aware of the numerical behavior of different schemes, the solving procedure and everything which is related to that topic.

  1. F Moukalled, M Darwish and L Mangani.
    Fluid Mechanics and Its Applications: The Finite Volume Method in Computational Fluid Dynamics
    . Volume 113, Springer-Verlag, 2016.

  2. T Holzmann.
    Mathematics, Numerics, Derivations and OpenFOAM®
    . Fourth edition, Holzmann CFD, 2016.
    URL, DOI

  3. J Erickson.
    . First edition, dpunkt.verlag GmbH, 2014.

  4. J Wolf.
    Grundkurs C++: C++-Programmierung verständlich erklärt
    . Second edition, Galileo Computing, May 2013.

  5. R Schwarze.
    CFD Modellierung
    . First edition, Springer-Vieweg, 2013.

  6. P Cardiff.
    Development of the Finite Volume Method for Hip Joint Stress Analysis. National University of Ireland, 2012.

  7. M E Gurtin, E Fried and L Anand.
    The Mechanics and Thermodynamics of Continua
    . 2010.

  8. J A Dantzig and M Rappaz.
    . First edition, EPFL Press, 2009.

  9. J H Ferziger and M Perić.
    Numerische Strömungsmechanik
    . Second edition, Springer-Verlag, 2008.

  10. W H Press, S A Teukolsky, W T Vetterling and B P Flannery.
    Numerical Recipes - The Art of Scientific Computing
    . Third edition, Cambridge University Press, 2007.

  11. C J Greenshields and H G Weller.
    A unified formulation for continuum mechanics applied to fluid-structure interaction in flexible tubes. International Journal for Numerical Methods in Engineering 64:1575-1593, July 2005.

  12. H Rusche.
    Computational Fluid Dynamics of Dispersed Two-Phase Flows at High Phase Fractions. Imperical College of Science, December 2002.

  13. H G Weller, G Tabor, H Jasak and C Fureby.
    A tensorical approach to computational continuum mechanics using object-oriented techniques. Computers in Physics, 1998.

  14. H Jasak.
    Error Analysis and Estimation for the Finite Volume Method with Applications to Fluid Flows. University of London, 1996.

  15. H K Versteeg and W Malalasekera (eds.).
    An Introduction to Computational Fluid Dynamics
    . First edition, Longman Group, 1995.

  16. J Anderson.
    Computational Fluid Dynamics - The Basics With Applications
    . 1995.

  17. D C Wilcox.
    Turbulence Modeling for CFD
    . First edition, DCW Industries, November 1994.

  18. R B Bird, W E Stewart and E N Lightfoot.
    Transport Phenomena
    . John Wiley & Sons, June 1960.