Add to ORKGThe analysis of propagation of a normal shock wave in CO2‐N2‐He or H2 or H2O system seeded with solid particles is presented. The variation of translational and vibrational temperatures of gas phase and the particle temperatures in the relaxation zone behind the shock front are given in graphical form. These results show that the peak value of population inversion and the width of the inversion zone are highest for He catalyst and lowest for H2O catalyst
We report calculations of the intensities of rovibrational transitions of H2 emitted from C-type sho...
An analysis of the flow field, which develops when a shock wave hits a two-phase medium comprising c...
AbstractWe present numerical simulations for a reactive shock–bubble interaction with detailed chemi...
The analysis of propagation of a normal shock wave in $C0_2-N_2-He$ or $H_2$ or $H_20$ system seeded...
The propagation of a normal shock wave into the $CO_2-N_2-He$ gas mixture seeded with solid particle...
H2 formation is an important process in post-shock regions, since H2 is an active participant in the...
Variation of the macroscopic parameters of carbon dioxide CO2 passing through a shock wave is studie...
The effect of finite-rate internal energy transfer on shock interaction mechanisms of CO2-dominated ...
To study combustion chemistry at low temperatures in a shock tube, it is of great importance to incr...
To study combustion chemistry at low temperatures in a shock tube, it is of great importance to incr...
When performing shock-tube experiments with a gaseous mixture containing small particles, uncertaint...
This work represents ongoing efforts to study high-enthalpy carbon dioxide flows in anticipation of ...
Estimate of chemical kinetics behind normal shock waves in carbon dioxide and nitrogen mixtures for ...
We examine the formation of molecular gas behind shocks in atomic gas using a chemical/dynamical mod...
The effect of thermal nonequilibrium on shock interactions of carbon dioxide (CO2) hypersonic flows ...
We report calculations of the intensities of rovibrational transitions of H2 emitted from C-type sho...
An analysis of the flow field, which develops when a shock wave hits a two-phase medium comprising c...
AbstractWe present numerical simulations for a reactive shock–bubble interaction with detailed chemi...
The analysis of propagation of a normal shock wave in $C0_2-N_2-He$ or $H_2$ or $H_20$ system seeded...
The propagation of a normal shock wave into the $CO_2-N_2-He$ gas mixture seeded with solid particle...
H2 formation is an important process in post-shock regions, since H2 is an active participant in the...
Variation of the macroscopic parameters of carbon dioxide CO2 passing through a shock wave is studie...
The effect of finite-rate internal energy transfer on shock interaction mechanisms of CO2-dominated ...
To study combustion chemistry at low temperatures in a shock tube, it is of great importance to incr...
To study combustion chemistry at low temperatures in a shock tube, it is of great importance to incr...
When performing shock-tube experiments with a gaseous mixture containing small particles, uncertaint...
This work represents ongoing efforts to study high-enthalpy carbon dioxide flows in anticipation of ...
Estimate of chemical kinetics behind normal shock waves in carbon dioxide and nitrogen mixtures for ...
We examine the formation of molecular gas behind shocks in atomic gas using a chemical/dynamical mod...
The effect of thermal nonequilibrium on shock interactions of carbon dioxide (CO2) hypersonic flows ...
We report calculations of the intensities of rovibrational transitions of H2 emitted from C-type sho...
An analysis of the flow field, which develops when a shock wave hits a two-phase medium comprising c...
AbstractWe present numerical simulations for a reactive shock–bubble interaction with detailed chemi...