Stresses in cast-iron pipes due to seasonal shrink-swell of clay soils
Stresses in cast-iron pipes due to seasonal shrink-swell of clay soils
The causes of pipe damage that lead to leakages and bursts in water distribution networks are numerous, and the significance of each possible mechanism is not yet fully understood. This paper reports field monitoring and numerical modelling carried out to evaluate the potential for vegetation-induced desiccation to impose significant bending and therefore additional stress on buried water pipes. Over a period of two years, vertical and horizontal deflections were measured along two flexible pipes buried in London Clay in the vicinity of an oak tree. Meteorological measurements made at the site allowed soil moisture deficit to be computed, and these values were compared with regional values supplied by the UK national meteorological office. Finite difference continuum analyses were carried out in order to permit the interpretation of measured deflections in terms of the equivalent stress increases that would be imposed on a rigid cast iron water pipe. The calculated maximum tensile stress increase was found to be significant in terms of the residual strength of a corroded cast iron pipe.
157-162
Clayton, C.R.I.
8397d691-b35b-4d3f-a6d8-40678f233869
Xu, M.
52ed4b04-e353-4377-b336-14beae0aa718
Whiter, J.T.
53827398-625d-4a71-b898-ad1303ed4841
Ham, A.
dd5f27d2-cc8f-4daa-8504-fa59b8e403f0
Rust, M.
9b954ef9-e921-4f1f-ba62-74f370fd5cdf
March 2010
Clayton, C.R.I.
8397d691-b35b-4d3f-a6d8-40678f233869
Xu, M.
52ed4b04-e353-4377-b336-14beae0aa718
Whiter, J.T.
53827398-625d-4a71-b898-ad1303ed4841
Ham, A.
dd5f27d2-cc8f-4daa-8504-fa59b8e403f0
Rust, M.
9b954ef9-e921-4f1f-ba62-74f370fd5cdf
Clayton, C.R.I., Xu, M., Whiter, J.T., Ham, A. and Rust, M.
(2010)
Stresses in cast-iron pipes due to seasonal shrink-swell of clay soils.
Proceedings of the Institution of Civil Engineers - Water Management, 163 (3), .
(doi:10.1680/wama.2010.163.3.157).
Abstract
The causes of pipe damage that lead to leakages and bursts in water distribution networks are numerous, and the significance of each possible mechanism is not yet fully understood. This paper reports field monitoring and numerical modelling carried out to evaluate the potential for vegetation-induced desiccation to impose significant bending and therefore additional stress on buried water pipes. Over a period of two years, vertical and horizontal deflections were measured along two flexible pipes buried in London Clay in the vicinity of an oak tree. Meteorological measurements made at the site allowed soil moisture deficit to be computed, and these values were compared with regional values supplied by the UK national meteorological office. Finite difference continuum analyses were carried out in order to permit the interpretation of measured deflections in terms of the equivalent stress increases that would be imposed on a rigid cast iron water pipe. The calculated maximum tensile stress increase was found to be significant in terms of the residual strength of a corroded cast iron pipe.
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Published date: March 2010
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Local EPrints ID: 73907
URI: http://eprints.soton.ac.uk/id/eprint/73907
ISSN: 1741-7589
PURE UUID: 53eff1e9-34c5-496d-817b-e651c6e7ec2a
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 02:43
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Author:
M. Xu
Author:
J.T. Whiter
Author:
A. Ham
Author:
M. Rust
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