Polymer flocculation of calcite: Experimental results from turbulent pipe flow

A.R. Heath; P.A. Bahri; P.D. Fawell; J.B. Farrow

doi:10.1002/aic.10729

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Polymer flocculation of calcite: Experimental results from turbulent pipe flow

Journal article

Peer reviewed

Polymer flocculation of calcite: Experimental results from turbulent pipe flow

A.R. Heath, P.A. Bahri, P.D. Fawell and J.B. Farrow

AIChE Journal, Vol.52(4), pp.1284-1293

2006

DOI: https://doi.org/10.1002/aic.10729

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Abstract

The kinetics of aggregation/breakage of calcite particles flocculated with a high-molecular-weight polymer flocculant has been studied in turbulent pipe flow. The mean flocculation residence time was varied by changing the length of pipe between the flocculant injection point and the in-stream particle-sizing probe (Lasentec FBRM). A variety of pipe sizes and flow rates were used to produce a range of mean fluid shear rates. The mean shear rate was calculated from the pressure drop along the pipe reactor, as measured by manometer, and was found to vary markedly as a function of both the solid fraction and aggregate size. Increased fluid shear increased the initial mixing and aggregation rates, but ultimately lead to a reduced final aggregate size due to increased aggregate breakage. Several other process variables were also studied, with the aggregate size increased with flocculant dosage and primary particle size, but reduced at higher solid fraction.

Details

Title: Polymer flocculation of calcite: Experimental results from turbulent pipe flow
Authors/Creators: A.R. Heath (Author/Creator) - A. J. Parker Cooperative Research Centre for Hydrometallurgy (CSIRO Minerals), Clayton South, Victoria, Australia
P.A. Bahri (Author/Creator) - Cooperative Research Centre
P.D. Fawell (Author/Creator) - Cooperative Research Centre
J.B. Farrow (Author/Creator) - Cooperative Research Centre
Publication Details: AIChE Journal, Vol.52(4), pp.1284-1293
Publisher: Wiley
Identifiers: 991005543195507891
Copyright: © 2005 American Institute of Chemical Engineers
Murdoch Affiliation: Parker Cooperative Research Centre for Integrated Hydrometallurgy Solutions
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 2 Chemistry; 2.90 Water Treatment; 2.90.1053 Coagulation-Flocculation
Web Of Science research areas: Engineering, Chemical
ESI research areas: Chemistry