Динамика реагирующих систем

О нас

Лаборатория «Динамика реагирующих систем»

Лаборатория занимается исследованием структуры, устойчивости и динамики волн в системах типа реакция-диффузия, популяционных моделях, волн горения. Исследования опираются на построение математических моделей, описывающих данные явления, их анализ асимптотическими и численными методами с последующей экспериментальной проверкой полученных данных.

контакты

Адрес

ФИАН, корп. 1, к. 307А, Ленинский проспект, д.53, 19991 Москва.

Электронная почта

combustion@internet.ru

Телефон

+7(495) 668-88-88 доб. 67-43

Публикации

2026

Moroshkina, A., Rogozhnikov, V., Ponomareva, A., Sereshchenko, E., Mislavskii, V., Gubernov, V., Experimental and numerical investigation of characteristics of thermoelectric generator based on porous counter-flow burner with passive air cooling, Applied Thermal Engineering, 284, 129086 (2026). https://doi.org/10.1016/j.applthermaleng.2025.129086
Khvostochenko, K., Sereshchenko, E., Gubernov, V., Minaev, S. Determining the overall activation energy for the two-stage chain-branching reaction model of rich burner stabilised hydrogen-air flame. Combustion Theory and Modelling, 1-20, (2026). https://doi.org/10.1080/13647830.2025.2590713
Gubarev, E., Sereshchenko, E., Minaev, S., Gubernov, V. Nonlinear Oscillations of a Premixed Flame Stabilized on a Flat Burner. Combustion Science and Technology, 1-23 (2026). https://doi.org/10.1080/00102202.2026.2613257
Minaev, S., Gubernov, V., Sereshchenko, E. (2026). Premixed flames with dominant diffusion processes stabilized near the source of combustible mixture with the deficient reagent constant concentration. Combustion and Flame, 285, 114690.https://doi.org/10.1016/j.combustflame.2025.114690

2025

А.Д. Морошкина, Е.П. Дац, Е.В. Серещенко, А.А. Пономарёва, С.Н. Мокрин, С.С. Минаев, В.В. Миславский, В.В. Губернов, Характеристики горения предварительно перемешанной топливной смеси в цилиндрическом пористом слое с осевой подачей газа, Физика горения и взрыва, 5, 69-82 (2025). https://doi.org/10.15372/FGV2024.9465
Moroshkina, A.D., Ponomareva, A.A., Mislavskii, V.V. et al. Thermal Radiation Characteristics of a Cylindrical Hybrid Porous-Microchannel Counterflow Burner. Bull. Lebedev Phys. Inst. 52 (Suppl 2), S183–S191 (2025). https://doi.org/10.3103/S1068335624602668
Minaev, S.S., Gubernov, V.V. & Dats, E.P. Nonlinear Analysis of Outward Propagating Hydrodynamically Unstable Flame at Large Gas Expansion Ratio. Bull. Lebedev Phys. Inst. 52 (Suppl 2), S178–S182 (2025). https://doi.org/10.3103/S1068335624602607
Demin, A., Mokrin, S. & Minaev, S. Combustion Regimes of Ultralean Methane–Hydrogen/Air Premixed Flames with Dominant Diffusion Transport Process. Bull. Lebedev Phys. Inst. 52 (Suppl 2), S163–S169 (2025). https://doi.org/10.3103/S1068335624602619
A.Moroshkina, S.Babina, A.Ponomareva, E.Sereshchenko, V.Mislavskii, V.Gubernov, V.Bykov (2025). Numerical and experimental study of stability limits of methane-air flame stabilized on a flat porous burner at normal and elevated pressure. Combustion and Flame 280, 114336. 10.1016/j.combustflame.2025.114336
Gubarev, E., Sereshchenko, E., Gubernov, V., & Minaev, S. (2025). Two-dimensional structure and dynamics of a flame stabilised on a flat porous burner. Combustion Theory and Modelling. 10.1080/13647830.2025.2529318
В. Быков, В. Губернов (2025). Onset of thermal-diffusion instabilities in rich hydrogen/air premixed counter-flow twin flames. Горение и плазмохимия 23(2), 93-105. 10.18321/cpc23(2)93-105
N Li, V Bykov, A Moroshkina, E Sereshchenko, V Gubernov (2025). Two dimensional flame structure of oscillating burner-stabilized methane-air flames. Combustion and Flame 276, 114115. 10.1016/j.combustflame.2025.114115
Khvostochenko, K., Sereshchenko, E., & Gubernov, V. (2025). Investigation of characteristics of hydrogen-air flames with a two-step chain-branching reaction mechanism. International Journal of Hydrogen Energy, 110, 128-137. 10.1016/j.ijhydene.2025.02.140

2024

Moroshkina, A., Sereshchenko, E., Mislavskii, V., Gubernov, V., & Minaev, S. (2024). Study of chemiluminescence of methane–air flame stabilized on a flat porous burner. Combustion and Flame, 270, 113755. 10.1016/j.combustflame.2024.113755
Gubarev, E. D., Khvostochenko, K. D., Gubernov, V. V., Sereshchenko, E. V., & Minaev, S. S. (2024). Radiative heat recuperation in combustion of layered solid fuel. Combustion Theory and Modelling, 1-14. 10.1080/13647830.2024.2396106
Миславский, В. В., Губернов, В. В., & Сатдыкова, Г. И. (2024). Константы скоростей тушения возбужденных состояний N 2 и N 2+ при взаимодействии с углеводородами. Квантовая электроника, 54(3), 196-199.10.3103/S1068335624601651
Minaev, S., Sereshchenko, E., & Gubernov, V. (2024). Evolutionary equations for the disturbed flame stabilised at the flat burner. Combustion Theory and Modelling, 1-18. 10.1080/13647830.2024.2310319
Moroshkina, A., Yakupov, E., Mislavskii, V., Sereshchenko, E., Polezhaev, A., Minaev, S., Gubernov, V., Bykov, V. (2024). The performance of reaction mechanism in prediction of the characteristics of the diffusive-thermal oscillatory instability of methane–hydrogen–air burner-stabilized flames. Acta Astronautica, 215, 496-504. 10.1016/j.actaastro.2023.12.032
Moroshkina, A., Ponomareva, A., Mislavskii, V., Sereshchenko, E., Gubernov, V., Bykov, V., & Minaev, S. (2024). Activation Energy of Hydrogen–Methane Mixtures. Fire, 7(2), 42. 10.3390/fire7020042
Yakupov, E. O., Gubernov, V. V., & Polezhaev, A. A. (2024). Formation of spiral structures in rich-hydrogen air flames at elevated pressures. International Journal of Hydrogen Energy, 49, 784-795. 10.1016/j.ijhydene.2023.09.081
Volkov, D., Moroshkina, A., Mislavskii, V., Sereshchenko, E., Gubernov, V., Bykov, V., & Minaev, S. (2024). Relaxational oscillations of burner-stabilized premixed methane–air flames. Combustion and Flame, 259, 113141. 10.1016/j.combustflame.2023.113141

Лаборатория исследования динамики реагирующих систем