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Multiphase Science and Technology
SJR: 0.124 SNIP: 0.222 CiteScore™: 0.26

ISSN Imprimir: 0276-1459
ISSN On-line: 1943-6181

Multiphase Science and Technology

DOI: 10.1615/MultScienTechn.v19.i1.20
pages 49-73

THE PREDICTION OF FLOW PATTERN MAPS IN MINICHANNELS

Amos Ullmann
School of Mechanical Engineering The Iby and Aladar Fleischman Faculty of Engineering Tel Aviv University Ramat Aviv 69978 ISRAEL
Neima Brauner
School of Mechanical Engineering The Iby and Aladar Fleischman Faculty of Engineering Tel Aviv University Ramat Aviv 69978 ISRAEL

RESUMO

Commonly used models for predicting the flow patterns and flow pattern transitions are established for gas-liquid flows in normal-size channels (D > 0.5′′). Those are generally found to predict poorly experimental two-phase flow pattern data in minichannels. In this study, the effect of the channel diameter on the mechanisms leading to flow pattern transitions are reexamined in an attempt to identify the governing phenomena involved in two-phase flow in small-diameter channels. Accordingly, appropriate mechanistic models are suggested and compared with experimental flow pattern maps available from the literature. These models also indicate the controlling dimensionless groups and the critical values associated with the various flow pattern transitions. The analyses also suggest criteria, in terms of dimensionless Eotvos number, EoD, that indicate when the conventional models must be substituted with the minichannel models. The reasons for the disappearance of the stratified flow in mini- and microchannels are elaborated, and the various mechanisms leading to the establishment of annular flow as the basic flow pattern in low EoD systems are discussed.


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