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 TVT, 2006, Volume 44, Issue 5, Pages 777–795 (Mi tvt1443)

Review

Two-phase flows in pipes and capillary channels

E. A. Chinnov, O. A. Kabov

S. S. Kutateladze Institute of Thermophysics, Siberian Division of the Russian Academy of Sciences, Novosibirsk

Abstract: This review is devoted to analysis of two-phase flow patterns in capillary channels. Studies are considered in which flow pattern maps are obtained of two-phase flow in channels of different cross sections with the transverse dimension ranging from $20$ $\mu$m to $255$ mm. Data on flow patterns are systematized and given in tables. The impact made by capillary effects is analyzed compared to the influence of other factors under conditions of two-phase flow in channels. The classification of channels based on the degree of manifestation of capillarity is validated. Characteristic features of two-phase flow in channels of noncircular cross section are considered. It is demonstrated that thermocapillary effects may be significant under conditions of nonisothermal two-phase flow in microchannels and under conditions of weak effect of gravitation.

Full text: PDF file (3486 kB)

English version:
High Temperature, 2006, 44:5, 773–791

UDC: 532.529:536.24
PACS: 47.27.nf, 47.55.Ñà, 47.55.nb

Citation: E. A. Chinnov, O. A. Kabov, “Two-phase flows in pipes and capillary channels”, TVT, 44:5 (2006), 777–795; High Temperature, 44:5 (2006), 773–791

Citation in format AMSBIB
\Bibitem{ChiKab06} \by E.~A.~Chinnov, O.~A.~Kabov \paper Two-phase flows in pipes and capillary channels \jour TVT \yr 2006 \vol 44 \issue 5 \pages 777--795 \mathnet{http://mi.mathnet.ru/tvt1443} \elib{http://elibrary.ru/item.asp?id=9293937} \transl \jour High Temperature \yr 2006 \vol 44 \issue 5 \pages 773--791 \crossref{https://doi.org/10.1007/s10740-006-0094-z} \elib{http://elibrary.ru/item.asp?id=13522331} \scopus{http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-33751014835} 

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• http://mi.mathnet.ru/eng/tvt/v44/i5/p777

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Citing articles on Google Scholar: Russian citations, English citations
Related articles on Google Scholar: Russian articles, English articles

This publication is cited in the following articles:
1. E. A. Chinnov, F. V. Ron'shin, V. V. Guzanov, D. M. Markovich, O. A. Kabov, “Two-phase flow in a horizontal rectangular microchannel”, High Temperature, 52:5 (2014), 681–687
2. Chinnov E.A., Ron'shin F.V., Kabov O.A., “Features of Two-Phase Flow in a Rectangular Microchannel With the Height of 300 Mu M”, Thermophys. Aeromechanics, 21:6 (2014), 759–762
3. Nakoryakov V.E., Misyura S.Ya., Elistratov S.L., Dekhtyar R.A., “Two-Phase Nonisothermal Flows of Libr Water Solution in Minichannels”, J. Eng. Thermophys., 23:4 (2014), 257–263
4. Zamashchikov V.V., Korzhavin A.A., Chinnov E.A., “Combustion of N-Butanol in a Flat Minichannel”, Thermophys. Aeromechanics, 21:3 (2014), 397–400
5. Chachilo E.S., Grehov M.N., Feoktistov D.V., “Heat and Mass Transfer in Two-Phase Flow Motion in Minichannel Under Variable Heating”, 2Nd International Youth Forum Smart Grids, Matec Web of Conferences, 19, eds. Strizhak P., Kozyreva A., Reshetova R., E D P Sciences, 2014
6. Kuznetsov V.V., Shamirzaev A.S., “Boiling Heat Transfer of Refrigerant R-21 in Upward Flow in Plate-Fin Heat Exchanger”, Thermophys. Aeromechanics, 22:6 (2015), 713–721
7. Goldstein A., Ullmann A., Brauner N., “Characteristics of Stratified Laminar Flows in Inclined Pipes”, Int. J. Multiph. Flow, 75 (2015), 267–287
8. Chinnov E.A., Ron'shin F.V., Kabov O.A., “Study of Gas-Water Flow in Horizontal Rectangular Channels”, Thermophys. Aeromechanics, 22:5 (2015), 621–629
9. Chinnov E.A., Ron'shin F.V., Kabov O.A., “Two-Phase Flow in Short Horizontal Rectangular Microchannels With a Height of 300 Mu M”, Tech. Phys. Lett., 41:9 (2015), 817–819
10. Chinnov E.A., Ron'shin F.V., Kabov O.A., “Regimes of Two-Phase Flow in Micro- and Minichannels (Review)”, Thermophys. Aeromechanics, 22:3 (2015), 265–284
11. Chinnov E.A., Ron'shin F.V., Kabov O.A., “Two-Phase Flow Regimes in Short Horizontal Rectangular Microchannels”, Interfacial Phenom. Heat Transf., 3:3 (2015), 243–257
12. Misyura S.Y., Morozov V.S., “Nonisothermal Desorption of the Libr Aqueous Salt Solution in Minichannels”, Smart Grids 2015, Matec Web of Conferences, 37, eds. Strizhak P., Gubin V., Zhdanova A., Kuznetsov G., E D P Sciences, 2015, 01033
13. Afanasyev I., Orlova E., Feoktistov D., “Evaporation of Stationary Alcohol Layer in Minichannel Under Air Flow”, Thermophysical Basis of Energy Technologies, Epj Web of Conferences, 82, eds. Kuznetsov G., Strizhak P., Zhdanova A., Bulba E., E D P Sciences, 2015, 01054
14. Chinnov E.A., Ron'shin F.V., Kabov O.A., “Two-Phase Flow Patterns in Short Horizontal Rectangular Microchannels”, Int. J. Multiph. Flow, 80 (2016), 57–68
15. Devatine A., Chaumat H., Guillaume S., Tchibouanga B.T., Martinez F.D., Julcour C., Billet A.-M., “Hydrodynamic Study of a Monolith-Type Reactor For Intensification of Gas-Liquid Applications”, Chem. Eng. Process., 122 (2017), 277–287
16. Ronshin F.V., Cheverda V.V., Chinnov E.A., Kabov O.A., “The Effect of Fluid Properties on Two-Phase Regimes of Flow in a Wide Rectangular Microchannel”, Tech. Phys. Lett., 44:4 (2018), 305–308