Laminar-turbulent transition of a non-Newtonian fluid flow

Journal article (2020)

Authors

A.K. Thota Radhakrishnan Sanitary Engineering - CEG
C. Poelma Multi Phase Systems - Mechanical, Maritime and Materials Engineering
J.B. van Lier Sanitary Engineering - CEG
F.H.L.R. Clemens Sanitary Engineering - CEG
Research Group
Sanitary Engineering (CEG) (TU Delft)
Copyright: © 2020 A.K. Thota Radhakrishnan, C. Poelma, J.B. van Lier, F.H.L.R. Clemens
DOI: https://doi.org/10.1080/00221686.2020.1770876
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Published Date

2020

Language

English

Faculty

Civil Engineering & Geosciences

Department

Water Management

Research Group

Sanitary Engineering

Abstract

Transition from laminar to turbulent flow of non-Newtonian fluids is investigated using velocimetry data. These data are obtained by applying particle image velocimetry to images obtained through ultrasound imaging (echography). This yielded the observation of intermittent structures (puffs and slugs) that are formed during transition. Post its observation, transition is characterized using the friction factor curves and turbulence intensity. Further, a number of models used to predict transition are assessed. This showed the Reynolds number based model by Slatter and the stability parameter based model by Hanks to be most suitable for non-Newtonian fluids with yield stress and low behaviour index.