Образец цитирования:
Г. З. Гершуни, Е. М. Жуховицкий, В. М. Мызников, “Об устойчивости плоскопараллельного конвективного течения жидкости в горизонтальном слое”, Прикл. мех. техн. физ., 15:1 (1974), 95–100; J. Appl. Mech. Tech. Phys., 15:1 (1974), 78–82
T.P. Lyubimova, R.V. Skuridin, “The effect of acoustic wave on the stability of stationary convective flow of binary fluid in a horizontal layer subjected to horizontal temperature and concentration gradients”, International Journal of Heat and Mass Transfer, 132 (2019), 789
Aleksey Mizev, Elena Mosheva, Konstantin Kostarev, Vitaly Demin, Eugenii Popov, “Stability of solutal advective flow in a horizontal shallow layer”, Phys. Rev. Fluids, 2:10 (2017)
Vladimir N Shtern, “Convection in Air water Layer with Side Heating”, FMRIJ, 1:1 (2017)
Paolo Falsaperla, Andrea Giacobbe, Sebastiano Lombardo, Giuseppe Mulone, “Stability of hydromagnetic laminar flows in an inclined heated layer”, Ricerche mat, 66:1 (2017), 125
T.P. Lyubimova, R.V. Skuridin, “Acoustic wave effect on a stability of convective flow in a horizontal channel subjected to the horizontal temperature gradient”, International Journal of Heat and Mass Transfer, 104 (2017), 478
Miguel A. Herrada, Vladimir N. Shtern, “Velocity reversals via bifurcation in thermal convection”, International Journal of Heat and Mass Transfer, 92 (2016), 66
A. Sukhanovskii, A. Evgrafova, E. Popova, “Horizontal rolls over localized heat source in a cylindrical layer”, Physica D: Nonlinear Phenomena, 316 (2016), 23
M. Tadie Fogaing, L. Nana, O. Crumeyrolle, I. Mutabazi, “Wall effects on the stability of convection in an infinite vertical layer”, International Journal of Thermal Sciences, 100 (2016), 240
Miguel Herrada, Vladimir Shtern, “Stability of thermal convection in a rotating cylindrical container”, Physics of Fluids, 28:8 (2016)
P. P. Loshitskiy, N. A. Nikolov, “Magnetothermia utilization in the curing of malignancies. Part 2”, Radioelectron.Commun.Syst., 58:3 (2015), 107
Miguel Herrada, Vladimir Shtern, “Stability of centrifugal convection in a rotating pipe”, Physics of Fluids, 27:6 (2015)
В. А. Демин, Е. А. Попов, “Конвективная неустойчивость вблизи границы раздела между встречными потоками взаиморастворимых жидкостей”, Матем. моделирование, 27:2 (2015), 115–128; V. A. Demin, E. A. Popov, “Convective instability near the interface between counter propagating fluxes of inter-soluble liquids”, Math. Models Comput. Simul., 7:5 (2015), 485–494
T.P. Lyubimova, R.V. Skuridin, “The effect of thermal boundary conditions on a stability of convective flow in a horizontal layer subjected to the longitudinal temperature gradient and acoustic wave”, International Journal of Heat and Mass Transfer, 91 (2015), 1046
Viktor K. Andreev, Irina V. Stepanova, “Ostroumov–Birikh solution of convection equations with nonlinear buoyancy force”, Applied Mathematics and Computation, 228 (2014), 59
Tatyana P. Lyubimova, Dmitriy V. Lyubimov, Dmitriy A. Nikitin, Anatolii V. Perminov, “Stability of the advective flow of a binary mixture in a horizontal layer with adiabatic boundaries”, Comptes Rendus. Mécanique, 341:4-5 (2013), 483
A. Sukhanovsky, V. Batalov, A. Teymurazov, P. Frick, “Horizontal rolls in convective flow above a partially heated surface”, Eur. Phys. J. B, 85:1 (2012)
D. V. Lyubimov, T. P. Lyubimova, D. A. Nikitin, A. V. Perminov, “Stability of a binary-mixture advective flow in a plane horizontal layer with perfectly heat conducting boundaries”, Fluid Dyn, 45:3 (2010), 458
T. P. LYUBIMOVA, D. V. LYUBIMOV, V. A. MOROZOV, R. V. SCURIDIN, H. BEN HADID, D. HENRY, “Stability of convection in a horizontal channel subjected to a longitudinal temperature gradient. Part 1. Effect of aspect ratio and Prandtl number”, J. Fluid Mech., 635 (2009), 275
Цитирование в формате AMSBIB
Обратная связь: