, Evaluation of limits for effective flame acceleration in hydrogen mixtures, Journal of Loss Prevention in the Process Industries, vol.14, p.583, 2001.
, Combustion modeling in large scale volumes using EUROPLEXUS code, Journal of Loss Prevention in the Process Industries, vol.35, p.104, 2015.
, Different stages of flame acceleration from slow burning to Chapman-Jouguet deflagration, Physical Review, vol.80, p.36317, 2009.
, Protection of piping systems subject to fires and explosions. Health & Safety Executive, 2005.
, State-of-the-art report on flame acceleration and deflagration-todetonation transition in nuclear safety, 2000.
, Effect of obstacle size and spacing on the initial stage of flame acceleration in a rough tube, Shock Waves, vol.14, issue.3, p.161, 2005.
, Visualization of the unburned gas flow field ahead of an accelerating flame in a obstructed square channel, Combustion and Flame, vol.156, p.405, 2009.
, High-speed OH-PLIF imaging of deflagration-to-detonation transition in H2air mixtures Exp Fluids, vol.57, p.105, 2016.
, DDT in methaneair mixtures, Shock waves, vol.12, p.215, 2002.
, Experimental investigation of detonation quenching in nonuniform compositions, Combustion and Flame, vol.172, p.222, 2016.
, Influence of gas compression on flame acceleration in channels with obstacles, Combustion and Flame, vol.157, 2008.
, In situ measurement of hydrocarbon fuel concentration near a spark plug in an engine cylinder using the 3.392µm in frared laser absorption: discussions and applicability with a homogeneous methane-air mixture, Measurement science and technology, vol.14, p.1350, 2003.
, Absorption cross section at 3.39µm of alkanes, aromatics and substituted hydrocarbons, Chemical Physics Letters, vol.531, p.22, 2012.
, Absorption of 3, 39-micron Helium-Neon laser emission by methane in the atmosphere, Journal of the Optical Society of America, vol.55, issue.2, p.174, 1965.
, High Temperature adsorption of the 3.39µm He-Ne laser line by methane, J. Quant. Spectrosc. Radiat. Transfer, vol.42, issue.6, p.459, 1989.
, Measurement of hydrocarbon fuel concentration by means of infrared absorption technique with 3.39µm He-Ne laser, JSAE Review, vol.17, p.339, 1996.
, Temperature-and pressure-dependent absorption crosssections of gaseous hydrocarbons at 3.39µ. Measuring Science and Technology, vol.17, 1950.
, Experimental study on turbulent expanding flames of lean hydrogen/air mixtures, Proceedings of the Combustion Institute, vol.36, p.2823, 2017.
, Intensity calibrated hydrogen flame spectrum, International Journal of Hydrogen Energy, vol.39, p.9545, 2014.
, The HITRAN 2008 molecularspectroscopicdatabase, JQSRT, vol.110, p.533, 2009.
, Flame acceleration in channels with obstacles in the deflagration-to-detonation transition, Combustion and Flame, vol.157, p.1012, 2010.
, Effect of obstacle geometry on behavior of turbulent flames, 1999.
, Accelerating flames in cylindrical tubes with nonslip at the walls, Combustion and Flame, vol.145, p.206, 2006.
, The reactive Riemann problem for thermally perfect gases at all combustion regimes, International Journal for Numerical Methods in Fluids, vol.76, p.662, 2009.