D. Espinoza, V. Casseau, T. Scanlon, and R. Brown, An open-source hybrid cfd-dsmc solver for high speed flows, En AIP Conference Proceedings, volumen 1786, página 050007, 2016.

C. J. Greenshields, H. G. Weller, L. Gasparini, and R. J. , Implementation of semi-discrete, non-staggered central schemes in a colocated, polyhedral, finite volume framework, for highspeed viscous flows, International journal for numerical methods in fluids, vol.63, issue.1, pp.1-21, 2010.

G. Marcantoni, L. F. Tamagno, J. P. Elaskar, and S. A. , High speed flow simulation using openfoam, Mecánica Computacional, vol.31, pp.2939-2959, 2012.

G. Marcantoni, L. F. Tamagno, J. P. Elaskar, and S. A. Rhocentralrffoam, An openfoam solver for high speed chemically active flows-simulation of planar detonations, Computer Physics Communications, vol.219, pp.209-222, 2017.

G. Marcantoni, L. F. Tamagno, J. P. Elaskar, and S. A. , Two-dimensional numerical simulations of detonation cellular structures in h2o2ar mixtures with openfoam R, International Journal of Hydrogen Energy, vol.42, issue.41, pp.26102-26113, 2017.

G. Marcantoni, L. F. Tamagno, J. P. Elaskar, and S. A. , A numerical study on the impact of chemical modeling on simulating methane-air detonations, Fuel, vol.240, pp.289-298, 2019.

C. M. Hung, Definition of contravarinat velocity components, En 3rd Theoretical Fluid Mechanics Meeting, p.3202, 2002.

A. Kurganov, S. Noelle, and G. Petrova, Semidiscrete central-upwind schemes for hyperbolic conservation laws and hamilton-jacobi equations, SIAM Journal on Scientific Computing, vol.23, issue.3, pp.707-740, 2001.

A. Kurganov and E. Tadmor, New high-resolution central schemes for nonlinear conservation laws and convection-diffusion equations, Journal of Computational Physics, vol.160, issue.1, pp.241-282, 2000.

L. Landau and E. M. Lifshitz, Lorenzon D. y Elaskar S.A. Simulacion de flujos supersonicos bidimensionales y axialmente simetricos con openfoam, Theoretical Physics, vol.6, 1986.

L. Mangani, W. Sanz, and M. Darwish, Comparing the performance and accuracy of a pressure based and a density-based coupled solver, En 16th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01894391

, similarity and dimensional methods in mechanics, vol.228, 1959.

G. I. Taylor, The formation of a blast wave by a very intense explosion i. theoretical discussion, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, vol.201, pp.159-174, 1065.

G. Whitham, Linear and Nonlinear Waves, 1999.

B. Zang, U. Vevek, H. Lim, X. Wei, and T. New, An assessment of openfoam solver on rans simulations of round supersonic free jets, Journal of Computational Science, vol.28, pp.18-31, 2018.