Э. А. Штессель, К. В. Прибыткова, А. Г. Мержанов, “Численное решение задачи о тепловом взрыве с учетом свободной конвекции”, Физика горения и взрыва, 7:2 (1971), 167–178; Combustion, Explosion and Shock Waves, 7:2 (1971), 137

Эта публикация цитируется в следующих 17 статьяx:

P.G. Siddheshwar, Reena Nandal, “Linear and energy stability analyses of onset of Darcy-Bénard convection due to combustion”, HFF, 2024
Karam Allali, Youssef Joundy, Ahmed Taik, V. Volpert, “Mathematical modeling of thermal explosion with natural convection: a brief survey”, Math. Model. Nat. Phenom., 14:6 (2019), 602
Nepal C. Roy, “Convection characteristics in a closed vessel in the presence of exothermic combustion and ambient temperature oscillations”, International Journal of Heat and Mass Transfer, 116 (2018), 655
Nepal C. Roy, “Modelling of a closed two-dimensional reactor bounded by a wavy wall”, Combustion Theory and Modelling, 22:4 (2018), 666
I. Iglesias, D. Moreno-Boza, A.L. Sánchez, A. Liñán, F.A. Williams, “Thermal explosions in spherical vessels at large Rayleigh numbers”, International Journal of Heat and Mass Transfer, 115 (2017), 1042
Antonio L. Sánchez, Immaculada Iglesias, Daniel Moreno-Boza, Amable Liñán, Forman A. Williams, “The slowly reacting mode of combustion of gaseous mixtures in spherical vessels. Part 2: Buoyancy-induced motion and its effect on the explosion limits”, Combustion Theory and Modelling, 20:6 (2016), 1029
A. N. Campbell, “The effect of external heat transfer on thermal explosion in a spherical vessel with natural convection”, Phys. Chem. Chem. Phys., 17:26 (2015), 16894
T.P. Ivleva, A.G. Merzhanov, E.N. Rumanov, N.I. Vaganova, A.N. Campbell, A.N. Hayhurst, “When do chemical reactions promote mixing?”, Chemical Engineering Journal, 168:1 (2011), 1
A.N. Campbell, S.S.S. Cardoso, A.N. Hayhurst, “A comparison of measured temperatures with those calculated numerically and analytically for an exothermic chemical reaction inside a spherical batch reactor with natural convection”, Chemical Engineering Science, 62:11 (2007), 3068
Hans Schuler, “Dynamisches Verhalten durchgehender Reaktionen in nicht durchmischten Systemen”, Chemie Ingenieur Technik, 64:11 (1992), 975
J.R. Bourne, F. Brogli, F. Hoch, W. Regenass, “Heat transfer from exothermically reacting fluid in vertical unstirred vessels—I. temperature and flow fields”, Chemical Engineering Science, 42:9 (1987), 2183
Е. А. Еремин, “О режимах конвекции и теплопереноса в вертикальном слое реагирующей среды”, Физика горения и взрыва, 20:4 (1984), 65–69 ; E. A. Eremin, “Convection and heat-transfer regimes in a vertical layer of a reacting medium”, Combustion, Explosion and Shock Waves, 20:4 (1984), 418–422
J. Poland, D.R. Kassoy, “The induction period of a thermal explosion in a gas between infinite parallel plates”, Combustion and Flame, 50 (1983), 259
�. A. Zakarin, V. P. Kashkarov, V. F. Kramar, �. A. Shtessel', “Numerical analysis of asymmetric combustion of a reacting fluid under conditions of natural convection”, Fluid Dyn, 14:4 (1980), 481
K. V. Pribytkova, S. I. Khudyaev, �. A. Shtessel', “Numerical investigation of the influence of gravitational convection on processes of heterogenous ignition”, Fluid Dyn, 15:1 (1980), 117
Э. А. Штессель, К. В. Прибыткова, Л. А. Жукова, “Характеристики теплового самовоспламенения в условиях собственной конвекции”, Физика горения и взрыва, 15:5 (1979), 3–11 ; È. A. Shtessel, K. V. Pribytkova, L. A. Zhukova, “Characteristics of thermal self-ignition under conditions of natural convection”, Combustion, Explosion and Shock Waves, 15:5 (1979), 555–562
A. G. Merzhanov, K. V. Pribytkova, �. A. Shtessel', “Cooling of liquid in the presence of natural convection”, Fluid Dyn, 10:3 (1976), 473