Erosion-Corrosion in Pipe Flows of Particle-Laden Liquids
Erosion-Corrosion in Pipe Flows of Particle-Laden Liquids
The transmission of particle-bearing liquids in pipes has motivated continuing research into erosion mechanisms and the distribution of erosion rates over wetted surfaces. This chapter covers these initiatives with particular reference to erosion-corrosion modelling within bends and straight sections of cylindrical pipes manufactured in a variety of materials and transporting a variety of liquids. Erosion-corrosion modelling techniques such as submerged slurry jets and rotating cylinder electrodes have been used to study factors influencing material degradation. Improvements in computational fluid dynamics (CFD), such as the development of a moving deforming mesh (MDM) have improved the accuracy of CFD models in predicting pipe wall erosion rates. Combined discrete phase tracking approaches such as the CFD-DPM-DEM (discrete phase-discrete element model) have helped improve computational efficiency. Wall impact erosion models are calibrated using laboratory scale tests. Validation of CFD models using full-scale test data is rare, meaning their accuracy is still largely unreported. Material testing has helped to identify the resilience of prospective pipeline materials to erosion-corrosion, while modifications to internal geometry and pipe section have shown potential to improve erosion-corrosion resistance.
Wood, Robert
d9523d31-41a8-459a-8831-70e29ffe8a73
Cook, Alexander
eaefb012-37e3-4930-9b3b-97c059e7452c
19 August 2022
Wood, Robert
d9523d31-41a8-459a-8831-70e29ffe8a73
Cook, Alexander
eaefb012-37e3-4930-9b3b-97c059e7452c
Wood, Robert and Cook, Alexander
(2022)
Erosion-Corrosion in Pipe Flows of Particle-Laden Liquids.
In,
Slurry Technology - New Advances.
IntechOpen.
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Abstract
The transmission of particle-bearing liquids in pipes has motivated continuing research into erosion mechanisms and the distribution of erosion rates over wetted surfaces. This chapter covers these initiatives with particular reference to erosion-corrosion modelling within bends and straight sections of cylindrical pipes manufactured in a variety of materials and transporting a variety of liquids. Erosion-corrosion modelling techniques such as submerged slurry jets and rotating cylinder electrodes have been used to study factors influencing material degradation. Improvements in computational fluid dynamics (CFD), such as the development of a moving deforming mesh (MDM) have improved the accuracy of CFD models in predicting pipe wall erosion rates. Combined discrete phase tracking approaches such as the CFD-DPM-DEM (discrete phase-discrete element model) have helped improve computational efficiency. Wall impact erosion models are calibrated using laboratory scale tests. Validation of CFD models using full-scale test data is rare, meaning their accuracy is still largely unreported. Material testing has helped to identify the resilience of prospective pipeline materials to erosion-corrosion, while modifications to internal geometry and pipe section have shown potential to improve erosion-corrosion resistance.
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Published date: 19 August 2022
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Local EPrints ID: 469926
URI: http://eprints.soton.ac.uk/id/eprint/469926
PURE UUID: fabe37d9-1260-4676-9664-6cc02a1a086f
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Date deposited: 28 Sep 2022 17:06
Last modified: 17 Mar 2024 02:40
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Author:
Alexander Cook
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