2010 3(5)

Back to table of content

   Short abstract

 

Pages:

41 - 44

Language:

RU

Ref.:

11


Click to get extended abstract


Download paper: [RU]

2010_3(5)_8.pdf

 

 

INVESTIGATION OF THE DEPENDENT WAVE VAPOR FLOW MODE FROM THE DIAMETER AND FLUID PROPERTIES DURING FILM BOILING ON A SPHERE

Agaltsov A.M.1, Pokhodalova A.B.1,2, Shmelkov Yu.B.1,2,3

1 Joint Institute for High Temperatures RAS, Moscow, Russia
2 National Research University "Moscow Power Engineering Institute", Moscow, Russia
3 JSC ENIN, Moscow, Russia


Citation:

Agaltsov, A.M., Pokhodalova, A.B. and Shmelkov, Yu.B., (2010) Investigation of the dependent wave vapor flow mode from the diameter and fluid properties during film boiling on a sphere, Modern Science: Researches, Ideas, Results, Technologies, Iss. #3(5), PP. 41 - 44.


Keywords:

film boiling; liquid-vapor interface


Abstracts:

An experimental investigation of film boiling of saturated Freon-113, water and n-hexane on spheres with different diameters at atmospheric pressure under conditions of free convection is executed. With high-speed video revealed the developed three-dimensional and two-dimensional (circular) wave formation at liquid-vapor interface. The assumption about the dependence of the flow of steam from the number of Archimedes was made.


References:

  1. Frederking T.H.K., Clark J.A. Natural Connection Film Boiling on a Sphere // Advances'in Cryogenic Engineering.V. 8. 1963. P. 501-506.

  2. Hencricks R.C., K.J. Baumeister // NASA Technical Note TND-5124, June 1969

  3. Dhir V.K., at al Subcooled Film-Boiling heat transfer from spheres // Nuclear Engineering and Design 47 (1978) 49-66

  4. Аметистов Е.В., Клименко В.В., Павлов Ю.М. Кипение криогенных жидкостей. М.: Энергоатомиздат, 1995. 400 с.

  5. Nakoryakov, V.E. and Pokusaev, B.G. and Shreyber, I.R. (1990). Volnovaya dinamika gaso I parozhidkostnykh sred [Wave dynamics of gas-liquid mixtures], Energoatomizdat, Moskow, USSR.

  6. Son G., Dhir V.K.A level set method for analysis of film boiling on an immersed solid surface // Numerical Heat Transfer. 2007. V. 52. № 2. P. 153-177.

  7. Son G., Dhir V.K. Three-dimensional simulation of saturated film boiling on a horizontal cylinder // Int.J. of Heat and Mass Transfer. 2008. V. 51. P. 1156-1167.

  8. Yuan M.H., Yang Y.H., Li T.S., Hu Z.H. Numerical simulation of film boiling on a sphere with a volume of fluid interface tracking method // Int.J. of Heat and Mass Transfer. 2008. V. 51 P. 1646-1657.

  9. Meduri P.K., Warrier G.R., Dhir V.K. Wall heat flux partitioning during subcooled forced flow film boiling of water on a vertical surface // Int J. of Heat and Mass Transfer. 2009. V. 52. P. 3534-3546.

  10. Toda S., Mori M. Subcooled film boiling and the behavior of vapor film on a horizontal wire and a sphere // Proceedings of the Seventh International Heat transfer Conference, Munich, West Germany. 1982. V. 4. P. 173-178.

  11. Кузма-Кичта Ю.А. Исследовании влияния малотеплопроводных покрытий на теплоотдачу при плёночном кипении. Дис. канд. техн .наук. М.: МЭИ, 1973. 155 с.

 

 
     

© SPIC "Kappa", LLC 2009-2016