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Журнал
ISSN: 2411-6467 (Print)
ISSN: 2413-9335 (Online)
Статьи, опубликованные в журнале, представляется читателям на условиях свободной лицензии CC BY-ND

ON CONVECTION STABILITY OF HYDROCARBONOXYGEN GAS MIXTURE AND EXPLOSION SAFETY (24-30)



Науки и перечень статей вошедших в журнал:
DOI:
Дата публикации статьи в журнале: 2020/03/16
Название журнала: Евразийский Союз Ученых — публикация научных статей в ежемесячном научном журнале, Выпуск: 71, Том: 6, Страницы в выпуске: 24-30
Автор: Palymskiy Igor B.
Dr. Sc., Physics Department, Novosibirsk city
Автор: Fomin Pavel A.
Dr. PhD, Lavrentyev Institute of Hydrodynamics, Novosibirsk city
Автор: Latifi Chahandachti Anouchah
, Qom University of Technology, Qom city
Анотация: A new physical and mathematical model of Rayleigh-Benard convection in a gas-vapor mixture of oxygen and cyclohexane is proposed, where the dependence of density on temperature has its maximum. Linear analysis of stability is performed, two threshold cases are analyzed when the density inversion parameter is large or small enough. Formulae for the growth increment and attenuation, the neutral curve and the boundary of the instability domain on the wave plane have been obtained. The convection of gas-vapor mixture is considered in connection with explosion safety of technology processes.
Ключевые слова: Rayleigh-Benard convection, Rayleigh number,Prandtl number,linear theory,increment,
Данные для цитирования: Palymskiy Igor B. Fomin Pavel A. Latifi Chahandachti Anouchah . ON CONVECTION STABILITY OF HYDROCARBONOXYGEN GAS MIXTURE AND EXPLOSION SAFETY (24-30) // Евразийский Союз Ученых — публикация научных статей в ежемесячном научном журнале. Физико-математические науки. 2020/03/16; 71(6):24-30.

Список литературы: 1. Gershuni G.Z., Zhukhovitskii E.M. Convective Stability of Incompressible Fluids. Jerusalem: Israel Program for Scientific Translations, 1976.-392 p. 2. Palymskiy, I.B. Turbulentnaya konvektziya Rehleya-Benara. Chislennyi metod i resultaty raschetov [Turbulent Rayleigh-Benard Convection. Numerical Method and Results of Simulation]. Germany: LAP, 2011. -232p. (in Russian). 3. Veronis G. Penetrative convection // Astrophys. J.-1963.- V.137. - P.641-663. 4. Nadolin K.A. O pronikajushhej konvekcii v priblizhenii izotermicheski neszhimaemoj zhidkosti. [On Penetrative Convection in the Isothermally Incompressible Fluid Approximation] // Izv. RAN, ser.: MZhG [RAS Bulletin, Series Mechanics of Liquid and Gas].-1996. - № 2. - P.40-52 (in Russian). 5. Tankin R., Farhadieh R. Effects of thermal convection currents on formation of ice // Int. J. Heat Mass Transfer. - 1971. - V.14. - P. 953-960. 6. Kuznetsova D.V., Sibgatullin I.N. Perehodnye rezhimy v pronikajushhej konvekcii v ploskom sloe. [Transitional Regimes of Penetrative Convection in a Plain Layer.] // Vestnik Nizhegorodskogo universiteta im. N.I. Lobachevskogo [Bulletin of Lobachevskiy State University of Nizhny Novgorod].- 2011.- № 4(3).- P.907-909 (in Russian). 7. Hu Yu-Peng, Li You-Rong, Li Ming-Hai, Zhang Li, Li Si-Zhong. Effects of enclosure geometry and thermal boundary condition on Rayleigh-Benard convection of cold water near its maximum density // Int. J. Therm. Sci. - 2017. - V.120. - P.220-232. 8. Palymskiy I.B. About convection stability of the gas-vapor mixture at the temperature close to critical // J. App. Mech. Engineer. - V. 7. - P. 53-54. 9. Goldstein R.J., Graham D.J. Stability of a horizontal fluid with zero shear boundaries // Phys. Fluids. - 1969. - V.12. - N.6. - P.1133-1137. 10. Palymskiy I.B., Fomin P.A., Hieronymus H. Rayleigh-Benard convection in a chemical equilibrium gas (simulation of surface detonation wave initiation) // App. Math. Modelling. - 2008. - V. 32. - Is. 5. - P. 660676.


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