Troshin Kirill Yakovlevich

Publications in Math-Net.Ru

1. Thermal ignition of a stoichiometric mixture of hydrogen and oxygen over nanoporous Ni, Co and Fe surfaces near the second ignition limit
   
   Mendeleev Commun., 36:2 (2026),  238–241
2. Effect of electric field on the ignition of methane–air mixtures
   
   Mendeleev Commun., 35:5 (2025),  617–618
3. Ignition of methane-carbon oxide mixtures
   
   Fizika Goreniya i Vzryva, 60:3 (2024),  7–18
4. Features of dilute methane–oxygen flame front propagation towards combustible gas flow created by the fan
   
   Mendeleev Commun., 34:4 (2024),  576–578
5. Features of the interaction of the combustion front of methane–air mixtures with hollow cylindrical and conical obstacles at low pressures
   
   Mendeleev Commun., 34:2 (2024),  288–290
6. Features of ignition of mixtures of hydrogen with hydrocarbons (C₂, C₃ and C₅) over rhodium and palladium at pressures of 1–2 atm
   
   Mendeleev Commun., 34:1 (2024),  137–139
7. Ignition limits of hydrogen–methane–air mixtures over metallic Rh at a pressure of 1–2 atm
   
   Mendeleev Commun., 33:4 (2023),  574–576
8. Modes of interaction of counterflow flames in diluted methane–oxygen mixtures in a closed reactor
   
   Mendeleev Commun., 33:3 (2023),  433–435
9. Suppression of laminar flames of natural gas–oxygen mixtures with complex obstacles
   
   Mendeleev Commun., 33:2 (2023),  279–281
10. Controlled ignition of low-carbon gas-engine fuels based on natural gas and hydrogen: process kinetics
    
    Usp. Khim., 92:7 (2023),  1–27
11. Influence of noble metals on thermoacoustic oscillations and boundaries of the region of negative temperature coefficient during combustion of n-pentane – air mixtures
    
    Mendeleev Commun., 32:5 (2022),  693–696
12. Surface modes of catalytic ignition of flammable gases over noble metals
    
    Mendeleev Commun., 32:4 (2022),  564–566
13. The features of ignition of hydrogen–methane and hydrogen–isobutene mixtures with oxygen over Rh and Pd at low pressures
    
    Mendeleev Commun., 32:3 (2022),  405–407
14. The chain mechanism of the effect of dichlorodifluoromethane additives on the combustion of hydrogen and methane in oxygen and air
    
    Zhurnal Tekhnicheskoi Fiziki, 91:6 (2021),  895–903
15. The phenomenon of negative temperature coefficient in palladium-initiated combustion of hydrogen–propane–air mixtures
    
    Mendeleev Commun., 31:2 (2021),  274–276
16. Interaction between laminar flames of natural gas–oxygen mixtures and planar obstacles with asymmetrical openings
    
    Mendeleev Commun., 31:1 (2021),  132–134
17. Ignition of hydrogen–oxygen and stoichiometric hydrogen–methane–oxygen mixtures on hot wires at low pressures
    
    Mendeleev Commun., 30:2 (2020),  241–243
18. Catalytic activity of Pt and Pd in gaseous reactions of H₂ and CH₄ oxidation at low pressures
    
    Mendeleev Commun., 30:1 (2020),  121–123
19. Experimental calculation of self-ignition delay of mixtures of methane with light alkanes
    
    Fizika Goreniya i Vzryva, 55:5 (2019),  17–24
20. Ignition of hydrogen–methane–air mixtures over Pd foil at atmospheric pressure
    
    Mendeleev Commun., 29:4 (2019),  469–471
21. Penetration of the laminar flames of natural gas–oxygen mixtures through conical obstacles
    
    Mendeleev Commun., 29:1 (2019),  108–110
22. The features of hydrogen ignition over Pt and Pd foils at low pressures
    
    Mendeleev Commun., 28:2 (2018),  216–218
23. Penetration of methane–oxygen flames through flat obstacles with several openings
    
    Mendeleev Commun., 28:1 (2018),  99–101
24. Interaction of chemical processes over Pt wire and reactive flows of flame penetration through obstacles in the presence of iron nanopowder
    
    Mendeleev Commun., 27:4 (2017),  387–389
25. Ignition of hydrogen–air mixtures over Pt at atmospheric pressure
    
    Mendeleev Commun., 27:3 (2017),  307–309
26. Gas dynamics and kinetics of the penetration of methane–oxygen flames through complex obstacles, as studied by 3D spectroscopy and high-speed cinematography
    
    Mendeleev Commun., 27:2 (2017),  192–194
27. Relative contribution of gas dynamic and chemical factors to flame penetration through small openings in a closed cylindrical reactor
    
    Mendeleev Commun., 27:1 (2017),  101–103
28. Low-temperature autoignition of binary mixtures of methane with alkanes С$_3$–С$_5$
    
    Fizika Goreniya i Vzryva, 52:4 (2016),  15–23
29. Cellular combustion and delay periods of ignition of a nearly stoichiometric H₂–air mixture over a platinum surface
    
    Mendeleev Commun., 26:2 (2016),  160–162
30. Interaction of the laminar flames of natural gas–oxygen mixtures with planar obstacles, diffusers and confusers
    
    Mendeleev Commun., 26:1 (2016),  61–63
31. Interaction of the laminar flames of methane-air mixtures with close-meshed spherical and planar obstacles in a closed cylindrical reactor under spark discharge initiation
    
    CPM, 17:2 (2015),  183–191
32. Establishment of features of unstable flame propagation using 3D optical spectroscopy and color speed cinematography
    
    Mendeleev Commun., 25:6 (2015),  482–484
33. Penetration of methane–oxygen flames through spherical and planar obstacles in a closed cylindrical reactor
    
    Mendeleev Commun., 25:4 (2015),  304–306
34. Non-steady Propagation of single and Counter Hydrogen and Methane Flames in Initially Motionless Gas
    
    Mendeleev Commun., 24:5 (2014),  308–310
35. Cellular combustion at the transition of a spherical flame front to a flat front at the initiated ignition of methane–air, methane–oxygen and n-pentane–air mixtures
    
    Mendeleev Commun., 23:6 (2013),  358–360
36. Investigation into Spontaneous Ignition of Hydrogen–air Mixtures in a Heated Reactor at Atmospheric Pressure by High-speed Cinematography
    
    Mendeleev Commun., 22:4 (2012),  222–224
37. Initiation and propagation of laminar spherical flames at atmospheric pressure†
    
    Mendeleev Commun., 21:4 (2011),  218–220
38. High-speed colour cinematography of the spontaneous ignition of propane–air and n-pentane–air mixtures
    
    Mendeleev Commun., 21:1 (2011),  31–33
39. Inhibition of various hydrogen combustion regimes in air by propylene and isopropanol
    
    Fizika Goreniya i Vzryva, 41:1 (2005),  3–14