Comparison of predicted and experimental erosion estimates in slurry ducts
Comparison of predicted and experimental erosion estimates in slurry ducts
Computational models for the impact velocity and impact angle in a bend have been successfully applied to the flow field and validated by electrical resistance tomography (ERT) to confirm the position of particle burdens. Particle impact parameters from this work have been used as inputs to erosion models to predict wall wastage rates in a Rc/D=1.2 bend and a upstream straight pipe section. The location of damage and the levels of wall wastage agree well with those obtained from erosion trials conducted on a full scale loop rig with AISI 304 stainless steel pipework. Well-distributed but asymmetric particulate flows of sand in water have been studied at average flow velocities of 3 m s?1. Predicted erosion damage levels and locations are compared to non-destructive ultrasonic and gravimetric measurements as well as wall thickness measurements made with a micrometer after cutting the pipe and bends sections.
Erosion, Pipes, Bends, Sand slurry, Microcutting, Wall wastage, CFD, Models
937-947
Wood, R.J.K.
d9523d31-41a8-459a-8831-70e29ffe8a73
Jones, T.F.
85f3b6e5-5fe7-4402-8b87-282ea5d9d507
Ganeshalingam, J.
69cb1c24-4fc6-4a2c-a4a7-4ca59477891b
Miles, N.J.
93d487a4-65b0-4c3c-979a-92d05299aab3
2004
Wood, R.J.K.
d9523d31-41a8-459a-8831-70e29ffe8a73
Jones, T.F.
85f3b6e5-5fe7-4402-8b87-282ea5d9d507
Ganeshalingam, J.
69cb1c24-4fc6-4a2c-a4a7-4ca59477891b
Miles, N.J.
93d487a4-65b0-4c3c-979a-92d05299aab3
Wood, R.J.K., Jones, T.F., Ganeshalingam, J. and Miles, N.J.
(2004)
Comparison of predicted and experimental erosion estimates in slurry ducts.
Wear, 256 (9-10), .
(doi:10.1016/j.wear.2003.09.002).
Abstract
Computational models for the impact velocity and impact angle in a bend have been successfully applied to the flow field and validated by electrical resistance tomography (ERT) to confirm the position of particle burdens. Particle impact parameters from this work have been used as inputs to erosion models to predict wall wastage rates in a Rc/D=1.2 bend and a upstream straight pipe section. The location of damage and the levels of wall wastage agree well with those obtained from erosion trials conducted on a full scale loop rig with AISI 304 stainless steel pipework. Well-distributed but asymmetric particulate flows of sand in water have been studied at average flow velocities of 3 m s?1. Predicted erosion damage levels and locations are compared to non-destructive ultrasonic and gravimetric measurements as well as wall thickness measurements made with a micrometer after cutting the pipe and bends sections.
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Published date: 2004
Keywords:
Erosion, Pipes, Bends, Sand slurry, Microcutting, Wall wastage, CFD, Models
Identifiers
Local EPrints ID: 22762
URI: http://eprints.soton.ac.uk/id/eprint/22762
ISSN: 0043-1648
PURE UUID: 76394713-fade-4c8c-86bf-53214091b957
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Date deposited: 21 Mar 2006
Last modified: 16 Mar 2024 02:46
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Contributors
Author:
T.F. Jones
Author:
J. Ganeshalingam
Author:
N.J. Miles
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