Multi scale and multi temparature modelling of heat mass transfer in tubes and pores of submicrone diameter using the slip and jump approach for large Knudsen numbers. Computational Fluid Dynamics with application to Chemical Engineering and Material Science. High-Temperature Synthesis (SHS) processes that use carbon as a fuel instead of a pure metal. Selfconsistant macro and micro-processes simulation using the interaction between macroscopic parameters of reactive multi component media and detailed micro-kinetics.
Main publications:
A. A. Markov, “Gazodinamicheskie i teplovye effekty sinteza Mikronnykh chastits metodom goreniya ugleroda v pryamotochnom i trekhzonnom reaktore”, MZhG, 2022, № 3, 17—29; A. A. Markov, “Gasdynamic and Thermal Effects of the Synthesis of Micron-Sized Parti-cles by the Carbon Combustion Method in Straight-Flow and Three-Zone Reactors”, Fluid Dynamics, 57:3 (2022), 234–246
A. A. Markov, “Effekt teplovogo i kontsentratsionnogo rasshireniya pri sinteze titanata bariya v pryamotochnom reaktore”, TOKhT, 2021, № 5, 618–631; A. A. Markov, “Thermal and Concentration Expansion in the Synthesis of Barium Titanate in a Once-Through Reactor”, Fluid Dynamics, 55:5 (2021), 929–941
A. A. Markov, “Jump-Slip simulation technique for combustion in submicron tubes and submicron pores.”, Computers and Fluids, 99:7 (2014), 83–92
Andrey A. Markov,İgorȦ.Ḟilimonov ,K̇aren S. Martirosyan, “Simulation of front motion in a reacting condensed two phase mixture”, Journal of Computational Physics, 231:20 (2012), 6714–6724
A. A. Markov, “Micro and macro scale technique for strongly coupled two-phase flows simulation”, Computers and Fluids, 38:7 (2009), 1435–1444
; A. A. Markov, “Gasdynamic and Thermal Effects of the Synthesis of Micron-Sized Parti-cles by the Carbon Combustion Method in Straight-Flow and Three-Zone Reactors”, Fluid Dynamics, 57:3 (2022), 
ISTINA
