, ISP-49 on hydrogen combustion. Nuclear Safety, 2011.

C. R. Bauwens, J. Chaffee, and S. Dorofeev, Vented explosion overpressures from combustion of hydrogen and hydrocarbon mixtures, Int. J. Hydrogen Energy, vol.36, pp.2329-2336, 2010.

J. Yanez, A. Kotchourko, and A. Lelyakin, Hydrogen deflagration simulations under typical containment conditions for nuclear safety, Nuclear Engineering and Design, vol.250, pp.678-686, 2012.

, EUROPLEXUS, 2012.

A. Beccantini and E. Studer, The reactive Riemann problem for thermally perfect gases at all combustion regimes, International Journal for Numerical Methods in Fluids, 2009.

A. Velikorodny, Combustion modeling in large scale volumes using EUROPLEXUS code, Journal of Loss Prevention in Process Industries, vol.35, pp.104-116, 2015.

F. Malet, Etude expérimentale et numérique de la propagation de flammes pré mélangées turbulents dans une atmosphère pauvre en hydrogène et humide », 2005.

D. Bradley, A. C. Law, and M. Lawes, Flame stretch rate as a determinant of turbulent burning velocity, Phil. Trans. Roy. Soc. London, vol.338, pp.359-387, 1992.

Y. A. Gostincev, A. G. Istratov, and Y. V. Shulenin, Self-similar propagation of a free turbulent flame in mixed gas mixtures, Combustion Explosions and Shock Waves, vol.24, pp.563-569, 1987.

S. Dorofeev, Deflagration to detonation transition in large confined volume of lean hydrogen-air mixtures, Combustion and Flame, vol.104, pp.94-110, 1996.

T. Kanzleiter, Proposal for a test matrix with a link to MUSCET and HDR Tests, Third Meeting of the Group of Experts on the Development of a Phenomena-based Validation Matrix for Ex-vessel Models and Codes, GRS, Garching, 2004.

S. Dorofeev, Integral large scale experiments on hydrogen combustion in a containment of nuclear power plants, 2002.

C. R. Bauwens, J. Chaffee, and S. Dorofeev, Vented explosion overpressures from combustion of hydrogen and hydrocarbon mixtures, International Journal of Hydrogen Energy, vol.13, pp.2329-2336, 2011.

Z. Shapiro and T. R. Mofette, Hydrogen flammability data and application to PWR loss-of-coolant accident, 1957.

G. Baptiste, G. Carvallo, and P. Pepin, « Introduction de la combustion de l'hydrogène et de l'oxyde de carbone dans le code JERICHO, 1983.

S. Dorofeev, « Evaluation of limits for effective flame acceleration in hydrogen mixtures, Journal of Loss Prevention in the Process Industries, vol.14, pp.583-589, 2001.

S. Kudriakov, E. Studer, M. Kuznetsov, and J. Grune, Experimental and numerical investigation of H2-air deflagration in the presence of concentration gradients, NUTHOS-11: The 11th International Topical Meeting on Nuclear Reactor Thermal Hydraulics, Operation and Safety Gyeongju, pp.11-1234, 2016.

, Proceedings of the 21 st Int. Conference on Nuclear Engineering (ICONE), 2013.

E. F. Toro, Riemann Solvers and Numerical Methods for Fluid Dynamics, 1997.