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An Experimental Investigation Into the Effect of Surfactants on Air-Water Two-Phase Flow in Minichannels
Author(s) -
Nathan J. English,
Satish G. Kandlikar
Publication year - 2005
Publication title -
rit scholar works (rochester institute of technology)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1115/icmm2005-75110
Subject(s) - laminar flow , surface tension , pressure drop , adiabatic process , materials science , heat exchanger , mechanics , two phase flow , thermodynamics , flow (mathematics) , work (physics) , drop (telecommunication) , mechanical engineering , physics , engineering
The complex interfacial phenomena involved in two-phase gas-liquid flow have defied mathematical simplification and modeling. However, the systems are used in heat exchangers, condensers, chemical processing plants, nuclear reactor systems, and fuel cells. The present work considers a 1 mm square minichannel and adiabatic flows corresponding to practical PEM fuel cell conditions. Pressure drop data is collected over mass fluxes of 4.0 to 33.6 kg/m2 s, which correspond to superficial gas and liquid velocities of 3.19–10 m/s and 0.001–0.02 m/s respectively. The experiments are repeated with water of reduced surface tension, caused by the addition of surfactant, in order to quantify the surface tension effects, as it is recognized that surface tension is an important parameter for two-phase flow in minichannels. The accuracy of various two-phase pressure drop models is evaluated. A new model for laminar-laminar flow is developed.Copyright © 2005 by ASME

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