The effect of the diameter on air-water annular and churn flow in vertical pipes with and without surfactants

Journal article (2017)

Authors

A.T. van Nimwegen ChemE/Transport Phenomena - AS
L Portela ChemE/Transport Phenomena - AS
Ruud Henkes Fluid Mechanics - Mechanical, Maritime and Materials Engineering , Shell Projects & Technology
Research Group
ChemE/Transport Phenomena (AS) (TU Delft)
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Published Date

2017

Language

English

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Faculty

Applied Sciences

Department

ChemE/Chemical Engineering

Research Group

ChemE/Transport Phenomena

Abstract

In this work, we present results of flow visualisation, pressure gradient measurements, and liquid holdup measurements for air-water flow without and with surfactants in vertical pipes with diameters of 34 mm, 50 mm, and 80 mm. The surfactants cause the formation of foam. This foam has a larger volume and a smaller density than the liquid. The larger volume results in a larger pressure gradient at large gas flow rates. At small gas flow rates, the lower density of the foam causes the transition between the regular annular flow regime and the irregular churn flow regime to shift to lower gas flow rates. As a result foam reduces the pressure gradient and the liquid holdup at small gas flow rates. Surfactants are more reduce the pressure gradient more effectively for thinner liquid films at the wall; therefore, they are more effective for small pipe diameters and small liquid flow rates.

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