Details

Title

Comparison of experimental data and numerical simulation of two-phase flow pattern in vertical minichannel

Journal title

Chemical and Process Engineering

Yearbook

2012

Issue

No 1 March

Authors

Keywords

two phase flow ; minichannel ; flow pattern ; numerical simulation

Divisions of PAS

Nauki Techniczne

Coverage

63-71

Publisher

Polish Academy of Sciences Committee of Chemical and Process Engineering

Date

2012

Type

Artykuły / Articles

Identifier

DOI: 10.2478/v10176-012-0006-1 ; ISSN 2300-1925 (Chemical and Process Engineering)

Source

Chemical and Process Engineering; 2012; No 1 March; 63-71

References

Dziubiński M. (2005), Hydrodynamics of two-phase flow mixtures of liquid-gas. ; FLUENT Release 12.1, 2009. <i>Manual</i>, Ansys Inc. ; Ide H. (2005), Experimental research on the correlations of holdup and fractional pressure drop in air-water two-phase flow in capillary rectangular channel, Exp. Therm. Sci, 29, 833, doi.org/10.1016/j.expthermflusci.2005.03.010 ; Mishima K. (1996), Some characteristics of air-water two-phase flow in small diameter vertical tubes, Int. J., Multiphase flow, 22, 703, doi.org/10.1016/0301-9322(96)00010-9 ; Pohorecki R. (2008), A simple mechanism of bubble and slug formation in Taylor flow in microchannels, Chem. Eng. Res. Des, 86, 997, doi.org/10.1016/j.cherd.2008.03.013 ; Qian D. (2006), Numerical study on gas and liquid slugs for Taylor flow in a T-junction microchannel, Chem. Eng. Sci, 61, 7609, doi.org/10.1016/j.ces.2006.08.073 ; Raghvendra G. (2009), On the CFD modelling of Taylor flow in microchannels, Chem. Eng. Sci, 64, 2941, doi.org/10.1016/j.ces.2009.03.018 ; Santos R. (2010), Numerical modeling and experimental investigation of gas-liquid slug formation in a microchannel T-junction, Int. J. Multiphase Flow, 36, 314, doi.org/10.1016/j.ijmultiphaseflow.2009.11.009 ; Sowiński J. (2009), Velocity and gas-void fraction in two-phase liquid-gas flow in narrow mini-channels, Arch. Mech, 61, 29. ; Tomczak Ł. (2007), Application of image analysis to determine two-phase liquid- gas flow parameters in narrow minichannels, Chem. Process Eng, 28, 1134.

Editorial Board

Editorial Board

Ali Mesbah, UC Berkeley, USA ORCID logo0000-0002-1700-0600

Anna Gancarczyk, Institute of Chemical Engineering, Polish Academy of Sciences, Poland ORCID logo0000-0002-2847-8992

Anna Trusek, Wrocław University of Science and Technology, Poland ORCID logo0000-0002-3886-7166

Bettina Muster-Slawitsch, AAE Intec, Austria ORCID logo0000-0002-5944-0831

Daria Camilla Boffito, Polytechnique Montreal, Canada ORCID logo0000-0002-5252-5752

Donata Konopacka-Łyskawa, Gdańsk University of Technology, Poland ORCID logo0000-0002-2924-7360

Dorota Antos, Rzeszów University of Technology, Poland ORCID logo0000-0001-8246-5052

Evgeny Rebrov, University of Warwick, UK ORCID logo0000-0001-6056-9520

Georgios Stefanidis, National Technical University of Athens, Greece ORCID logo0000-0002-4347-1350

Ireneusz Grubecki, Bydgoszcz Univeristy of Science and Technology, Poland ORCID logo0000-0001-5378-3115

Johan Tinge, Fibrant B.V., The Netherlands ORCID logo0000-0003-1776-9580

Katarzyna Bizon, Cracow University of Technology, Poland ORCID logo0000-0001-7600-4452

Katarzyna Szymańska, Silesian University of Technology, Poland ORCID logo0000-0002-1653-9540

Marcin Bizukojć, Łódź University of Technology, Poland ORCID logo0000-0003-1641-9917

Marek Ochowiak, Poznań University of Technology, Poland ORCID logo0000-0003-1543-9967

Mirko Skiborowski, Hamburg University of Technology, Germany ORCID logo0000-0001-9694-963X

Nikola Nikacevic, University of Belgrade, Serbia ORCID logo0000-0003-1135-5336

Rafał Rakoczy, West Pomeranian University of Technology, Poland ORCID logo0000-0002-5770-926X

Richard Lakerveld, Hong Kong University of Science and Technology, Hong Kong ORCID logo0000-0001-7444-2678

Tom van Gerven, KU Leuven, Belgium ORCID logo0000-0003-2051-5696

Tomasz Sosnowski, Warsaw University of Technology, Poland ORCID logo0000-0002-6775-3766



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