Interruption of Detonation Wave Propagation in Monofuel–Air Mixtures by a Layer of Inhomogeneous Inert Particles

Fedorov A.V.(2010)Mathematical modeling of detonation suppression in a hydrogen-oxygen mixture by inert particles Combustion, Explosion, and Shock Waves 46 332-343

Tropin D.A.(2011)Determination of the critical size of a particle cloud necessary for suppression of gas detonation Combustion, Explosion, and Shock Waves 47 464-472

Bedarev I.A.(2009)Effect of Chemically Inert Particles on Thermodynamic Characteristics and Detonation of a Combustible Gas Combustion Science and Technology 181 1038-1064

Fedorov A.V.(2004)Numerical simulation of detonations in mixtures of gases and solid particles Journal of Fluid Mechanics 507 95-142

Tropin D.A.(2006)Suppression effects of powder suppressants on the explosions of oxyhydrogen gas Journal of Loss Prevention in the Process Industries 19 648-655

Fomin Pavel A.(2005)Experimental investigation and numerical validation of explosion suppression by inert particles in large-scale duct Proceedings of the Combustion Institute 30 2361-2368

Chen Jenq-Renn(2012)A Study of Interaction of Clouds of Inert Particles with Detonation in Gases Combustion Science and Technology 184 406-433

Papalexandris Miltiadis V.(2016)Numerical investigation of hydrogen detonation suppression with inert particle in pipelines International Journal of Hydrogen Energy 41 21548-21563

Chen Zhihua(2014)CFD Simulation of Particles Effects on Characteristics of Detonation International Journal of Computer Theory and Engineering 6 466-471

Fan Baochun(2018)Physical and mathematical modeling of interaction of detonation waves in mixtures of hydrogen, methane, silane, and oxidizer with clouds of inert micro- and nanoparticles Combustion Science and Technology 191 275-283

Fedorov A.V.(2010)Mathematical modeling of detonation suppression in a hydrogen-oxygen mixture by inert particles Combustion, Explosion, and Shock Waves 46 332-343

Tropin D.A.(2011)Determination of the critical size of a particle cloud necessary for suppression of gas detonation Combustion, Explosion, and Shock Waves 47 464-472

Bedarev I.A.(2009)Effect of Chemically Inert Particles on Thermodynamic Characteristics and Detonation of a Combustible Gas Combustion Science and Technology 181 1038-1064

Fedorov A.V.(2004)Numerical simulation of detonations in mixtures of gases and solid particles Journal of Fluid Mechanics 507 95-142

Tropin D.A.(2006)Suppression effects of powder suppressants on the explosions of oxyhydrogen gas Journal of Loss Prevention in the Process Industries 19 648-655

Fomin Pavel A.(2005)Experimental investigation and numerical validation of explosion suppression by inert particles in large-scale duct Proceedings of the Combustion Institute 30 2361-2368

Chen Jenq-Renn(2012)A Study of Interaction of Clouds of Inert Particles with Detonation in Gases Combustion Science and Technology 184 406-433

Papalexandris Miltiadis V.(2016)Numerical investigation of hydrogen detonation suppression with inert particle in pipelines International Journal of Hydrogen Energy 41 21548-21563

Chen Zhihua(2014)CFD Simulation of Particles Effects on Characteristics of Detonation International Journal of Computer Theory and Engineering 6 466-471

Fan Baochun(2018)Physical and mathematical modeling of interaction of detonation waves in mixtures of hydrogen, methane, silane, and oxidizer with clouds of inert micro- and nanoparticles Combustion Science and Technology 191 275-283