Viscoplastic fluid flow in pipes: A rheological study using in-situ laser Doppler velocimetry

Belaid Hadj Arab; Mohamed Mahfoud; Zineeddine Louna; Karim Bekkour; de Souza Mendes Paulo R.

doi:10.1515/arh-2024-0015

Applied Rheology (Sep 2024)

Viscoplastic fluid flow in pipes: A rheological study using in-situ laser Doppler velocimetry

Belaid Hadj Arab,
Mohamed Mahfoud,
Zineeddine Louna,
Karim Bekkour,
de Souza Mendes Paulo R.

Affiliations

Belaid Hadj Arab: Physics Faculty, Laboratory of Theoretical and Applied Fluid Mechanics, University of sciences and technology Houari Boumediene, LMFTA BP 32 El Alia, 16111, Bab Ezzouar, Algiers, Algeria
Mohamed Mahfoud: Physics Faculty, Laboratory of Theoretical and Applied Fluid Mechanics, University of sciences and technology Houari Boumediene, LMFTA BP 32 El Alia, 16111, Bab Ezzouar, Algiers, Algeria
Zineeddine Louna: Physics Faculty, Laboratory of Theoretical and Applied Fluid Mechanics, University of sciences and technology Houari Boumediene, LMFTA BP 32 El Alia, 16111, Bab Ezzouar, Algiers, Algeria
Karim Bekkour: Laboratoire ICUBE – Département Mécanique UMR 7357 4, rue de la Manufacture, FR-67000, Strasbourg, France
de Souza Mendes Paulo R.: Department of Mechanical Engineering, Pontifícia Universidade Católica-RJ, Rua Marquês de São Vicente 225, Rio de Janeiro, RJ 22453-900, Brazil

DOI: https://doi.org/10.1515/arh-2024-0015
Journal volume & issue: Vol. 34, no. 1
pp. 323 – 6

Abstract

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This experimental study focuses on exploiting laser Doppler velocimetry (LDV), a non-intrusive technique, for rheological characterization based on analyzing flows of Carbopol solutions at two distinct concentrations and two different temperatures within a pipe. The velocity profiles obtained using LDV and the pressure drops associated with each flow rate were exploited to establish the behavioral law of aqueous Carbopol solutions. Two approaches were used: the first was an analytical velocity model to fit the experimental profile, and the second used the first derivative of the experimental velocity profile and the pressure drops to reconstruct the flow curve. In addition, a third reference characterization was carried out using a rotary rheometer equipped with a vane geometry. This study’s three rheological characterization methods showed excellent agreement concerning the Herschel–Bulkley model. Finally, all the laws resulting from these three methods were validated using an empirical law relating to Darcy’s coefficient of friction.

Published in Applied Rheology

ISSN: 1617-8106 (Online)
Publisher: De Gruyter
Country of publisher: Poland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.degruyter.com/view/j/arh

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