Estimation of the bulk and shear moduli of soil surrounding a plastic water pipe using measurements of the predominantly fluid wave in the pipe
Estimation of the bulk and shear moduli of soil surrounding a plastic water pipe using measurements of the predominantly fluid wave in the pipe
Leak noise correlators are commonly used to detect and locate leaks in buried water pipes. They use the cross-correlation function between leak noise signals measured using hydrophones or accelerometers placed on the pipe either side of the leak. The efficacy of a correlator is dependent upon knowledge of the speed at which the leak noise propagates along the pipe as well as how much it attenuates with distance. The leak noise is carried in a predominantly fluid-borne wave in the pipe, which is heavily influenced by the pipe and soil properties. Although the pipe properties can be determined relatively easily, estimation of the soil properties surrounding the pipe is more problematic. It is desirable to have an accurate estimate of the soil properties, so that current models can be developed and used to improve understanding of leak noise propagation and hence leak detection capabilities. In this paper a novel approach to determining the bulk and shear moduli of the soil from measurements of the predominantly fluid-borne wave in a buried plastic pipe, is described. The measured data are compared with corresponding data predicted from a model, and the soil properties are determined using an optimization algorithm. The method is applied to two different sites, one in the UK, where the soil surrounding the pipe is sandy in nature, and one in Brazil, where the surrounding soil is clay-like. It is found that the bulk and shear modulus can be estimated in the pipe buried in sandy soil, but in the clay-like soil it is only possible to estimate the shear modulus.
237-246
Scussel, O.
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Brennan, M.J.
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Muggleton, J.M.
2298700d-8ec7-4241-828a-1a1c5c36ecb5
Almeida, F.C.L.
b9178bd5-600e-4c6e-b87e-2e613fd8e106
Paschoalini, A.T.
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Scussel, O.
2d398c24-0830-4aa7-97df-065a37669cd9
Brennan, M.J.
7f39b4f4-810d-49d5-be90-1656c7b8069a
Muggleton, J.M.
2298700d-8ec7-4241-828a-1a1c5c36ecb5
Almeida, F.C.L.
b9178bd5-600e-4c6e-b87e-2e613fd8e106
Paschoalini, A.T.
bfa1fed9-f566-4380-807a-2c53e01b6627
Scussel, O., Brennan, M.J., Muggleton, J.M., Almeida, F.C.L. and Paschoalini, A.T.
(2019)
Estimation of the bulk and shear moduli of soil surrounding a plastic water pipe using measurements of the predominantly fluid wave in the pipe.
Journal of Applied Geophysics, 164, .
(doi:10.1016/j.jappgeo.2019.01.010).
Abstract
Leak noise correlators are commonly used to detect and locate leaks in buried water pipes. They use the cross-correlation function between leak noise signals measured using hydrophones or accelerometers placed on the pipe either side of the leak. The efficacy of a correlator is dependent upon knowledge of the speed at which the leak noise propagates along the pipe as well as how much it attenuates with distance. The leak noise is carried in a predominantly fluid-borne wave in the pipe, which is heavily influenced by the pipe and soil properties. Although the pipe properties can be determined relatively easily, estimation of the soil properties surrounding the pipe is more problematic. It is desirable to have an accurate estimate of the soil properties, so that current models can be developed and used to improve understanding of leak noise propagation and hence leak detection capabilities. In this paper a novel approach to determining the bulk and shear moduli of the soil from measurements of the predominantly fluid-borne wave in a buried plastic pipe, is described. The measured data are compared with corresponding data predicted from a model, and the soil properties are determined using an optimization algorithm. The method is applied to two different sites, one in the UK, where the soil surrounding the pipe is sandy in nature, and one in Brazil, where the surrounding soil is clay-like. It is found that the bulk and shear modulus can be estimated in the pipe buried in sandy soil, but in the clay-like soil it is only possible to estimate the shear modulus.
Text
SoilParaEstimationJournalAppliedGeohpysics_figures_tables
- Accepted Manuscript
More information
Accepted/In Press date: 24 January 2019
e-pub ahead of print date: 25 January 2019
Identifiers
Local EPrints ID: 428212
URI: http://eprints.soton.ac.uk/id/eprint/428212
ISSN: 0926-9851
PURE UUID: 3b8f9200-9a4a-4e61-9e69-15393d291c05
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Date deposited: 15 Feb 2019 17:30
Last modified: 16 Mar 2024 07:34
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Author:
O. Scussel
Author:
M.J. Brennan
Author:
F.C.L. Almeida
Author:
A.T. Paschoalini
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