OpenFOAM is widely used both in academia and industry. On this page a collection of publication can be found, which are related to OpenFOAM. Publications are ordered by topic.

We encourage every user of OpenFOAM to add journal or conference papers, theses or any other publications to the list. Please contact us at this email address (please click here) for support.

Topics

Topics are ordered alphabetically:

Complex materials

• Håkan Nilsson's collection [1] comprises some reports that cover Complex Materials related topics.
• Viscoelastic solvers tutorials available in foam-extend 4.0
• J. Nagy, L. Reith, M. Fischlschweiger, G. Steinbichler: Modeling the influence of flow phenomena on the polymerization of ϵ-Caprolactam, Chemical Engineering Science, Volume 111, p. 85-93, 24 May 2014
• J. Nagy, L. Reith, M. Fischlschweiger, G. Steinbichler: Influence of fiber orientation and geometry variation on flow phenomena and reactive polymerization of ϵ-caprolactam, Chemical Engineering Science, Volume 128, p. 1-10, 25 May 2015

Compressible flows

Heat transfer

• M. Nishikawa, H. Otomo, Y. Yoshida, J. Deguchi, M. Tsukamoto and T. Yamamoto: The cooling mechanism of minuscule ribbed surfaces, Sci Rep 10, 5635 (2020). https://doi.org/10.1038/s41598-020-62288-1

Multiphase modeling

• J. Nagy: Untersuchung von mehrphasigen, kompressiblen Strömungen durch Simulation und Experiment, PhD thesis, Technische Universität Wien, 2012.

Numerics

• H. Jasak, Error analysis and estimation for the finite volume method with applications to fluid flows, Ph.D. thesis, Impreial College, University of London (1996).
• H. G. Weller, G. Tabor, H. Jasak, C. Fureby, A tensorial approach to computational continuum mechanics using object-oriented techniques, Computers in Physics 12 (6) (1998).
• H. Jasak, OpenFOAM: Open source CFD in research and industry, International Journal of Naval Architecture and Ocean Engineering, 1 (2) (2009) 89 – 94.

Reacting flows

Turbulence modeling

• S. Jakirlic, L. Kutej, P. Unterlechner and C. Tropea: Critical Assessment of Some Popular Scale-Resolving Turbulence Models for Vehicle Aerodynamics, SAE Int. J. Passeng. Cars - Mech. Syst., Volume 10(1), p. 235-250, 2017, doi:10.4271/2017-01-1532.
• M. Islam, F. Decker, E. de Villiers, A. Jackson, J. Gines, T. Grahs, A. Gitt–Gehrke and J. Comas i Font: Application of Detached–Eddy Simulation for Automotive Aerodynamics Development, SAE International, 2009-01-0333, 2009.
• T. Mukha, M. Liefvendahl. Large-eddy simulation of turbulent channel flow. Technical report, Uppsala University, 2015.

Naval

Nuclear

• C. Fiorina, I. Clifford, M. Aufiero, K. Mikityuk, GeN-Foam: a novel OpenFOAM based multi-physics solver for 2D/3D transient analysis of nuclear reactors, Nuclear Engineering and Design 294 (2015) 24 – 37.564.
• S. Radman, C. Fiorina, K. Mikityuk, A. Pautz, A coarse-mesh methodology for modelling of single-phase thermal-hydraulics of ESFR innovative assembly design, Nuclear Engineering and Design 355 (2019).