Numerical simulation of the degassing process in hydrocyclones
In this paper, the degassing process in a hydrocyclone was investigated. The possibility to apply the hydrocycloning method for air phase removing from a liquid is shown.
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Keywords
гидроциклон, дегазация, турбулентность, математическое моделирование, hydrocyclone, degassing, turbulence, mathematical modelingAuthors
| Name | Organization | |
| Matvienko Oleg Viktorovich | National Research Tomsk State University | matvolegv@mail.ru |
| Agafontseva Margarita Vladimirovna | National Research Tomsk State University | m.agafontseva@gmail.com |
References
Gase in kleinen und mittleren WasserheiznetzenTechnische Universitat Dresden, Institut fur Energietechnik, koordinierter Schlussbericht, AiF Forschungsthema Nr. 11103 B, November 1998.
Svarovsky L. Hydrocyclones. London: Technomic Publishing Co., 1984.
Поваров А.И. Гидроциклоны на обогатительных фабриках. М.: Недра, 1978.
Баранов Д.А., Кутепов А.М., Лагуткин М.Г. Расчет сепарационных процессов в гидроциклонах // ТОХТ. 1996. Т. 30. № 2. C. 117-122.
Кутепов А.М., Лагуткин М.Г., Баранов Д.А. Метод расчета показателей разделения суспензий в гидроциклонах // ТОХТ. 1994. Т. 28. № 3. С. 207-211.
Neefle Th. and Schubert H. Modellierung und verfahrenstechnische Dimensionierung der turbulenten Querstromklassierung. Th. 3. 1976. Chem. Techn. V. 28. No. 5. P. 273-277.
Schubert H. and Neesse Th. A hydrocyclone separation model in consideration of the turbulent multiphase flow // Proc. Int. Conf. on Hydrocyclones. Cambridge. 1980. P. 23-27.
Matvienko O., Duck J., and Neefle Th. Numerishe Simulation der Stromungen in einem Hydrozyklon // Gessellschaft fur Angewandte Mathematik und Mechanik, Annual Meeting, Bremen, April 6-9, 1998, Book of Abstracts. S. 85.
Matvienko O., Duck J., and Neefle Th. Hydrodynamics and particle separation in the hydro-cyclone // Proc. 2nd Int. Symp. on Two-Phase Flow Predictions and Experimentation. May 23-26, 1999. Pisa, Italy. V. 2. P. 923-929.
Monredon T.C., Hsien K.T., andRajamani R.K. Fluid flow model of the hydrocyclone: an investigation of device dimensions // Int. J. Mineral Process. 1992. V. 35. No. 1. P. 65-83.
Pericleous K.A. and Rhodes N. The hydrocyclone classifier — a numerical approach // Int. J. Mineral Process. 1986. V. 17. No. 1. P. 23-43.
Pericleous K.A.Mathematical simulation of hydrocyclones // Applied Mathematical Modelling. 1987. V. 11. Issue 4, P. 242-255.
Гупта А., Лилли Д., Сайред Н. Закрученные потоки. М.: Мир, 1987.
Boysan, F., Ayers W.H., Swithrnbank J. A fundamental mathematical modelling approach to cyclone design // Trans. Inst. of Chemical Engineers. 1982. V. 60. P. 222-230.
Tryggvason G., Bunner B., Esmaelli, et. al. A front-tracking method for the computations of multiphase flow // J. Comput. Phys. 2001. P. 169, 708-759.
Островский Г.М. Прикладная механика неоднородных сред. СПб.: Наука, 2000. 359 с.
Dueck J., Matvienko O., and Neesse Th. Numerical modelling of hydrocyclone dynamics for process control // Advances in Filtration and Separation Technology, Science & Technology of Filtration and Separations for the 21st Century / Eds. Shiao-Hung Chiang a
