Acceleration and transition to detonation of gaseous mixtures flame in channels
Conditions for the formation of boundary layer instability during flame propagation in a channel
Fuel jet outflow from a reservoir
Main publications:
\begin{thebibliography}{9}
\Bibitem{1}
\by A.V. Yarkov, A.D. Kiverin, I.S. Yakovenko
\paper Flame Acceleration in a Channel: Effects of the Channel Width and Wall Roughnes
\jour Combustion Explosion and Shock Waves
\yr 2023
\vol 59
\issue 4
\pages 415-423
\Bibitem{2}
\by A. Yarkov, A. Kiverin, I. Yakovenko
\paper Effect of channel geometry on the flame acceleration and transition to detonation in acetylene-oxygen-nitrogen mixtures
\jour Acta Astronautica
\yr 2024
\vol 217
\pages 273-279
\Bibitem{3}
\by A. Kiverin, A. Yarkov, I. Yakovenko
\paper Explosion risks: Variety of deflagration-to-detonation transition scenarios in smooth tubes
\jour Acta Astronautica
\yr 2025
\vol 226
\pages 325-331
\Bibitem{4}
\by A. Kiverin, A. Yarkov, I. Yakovenko
\paper On the Features of Numerical Simulation of Hydrogen Self-Ignition under High-Pressure Release
\jour Computation
\yr 2024
\vol 12
\issue 5
\pages 103
\Bibitem{5}
\by A. Yarkov, A. Kiverin,I. Yakovenko
\paper Mechanism of Spontaneous Acceleration of Slow Flame in Channel
\jour Fire
\yr 2024
\vol 7
\issue 10
\pages 362
