Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations

Alexander Royal; Christopher Rogers; Philip Atkins; David Chapman; Giulio Curioni; Kae Foo; Tong Hao; Nicole Metje; Tara Moghareh Abed; Nastaran Shirgiri; S Wazlan

doi:10.1061/41202(423)169

Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations

Alexander Royal, Christopher Rogers, Philip Atkins, David Chapman, Giulio Curioni, Kae Foo, Tong Hao, Nicole Metje, Tara Moghareh Abed, Nastaran Shirgiri, S Wazlan

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

The ground in which utility service pipelines are buried inevitably controls, to a large degree, the structural performance and progressive deterioration of the pipelines themselves. In a parallel programme of research to the UK Mapping the Underworld (MTU) project, a study of the fundamental properties of the ground, and how they change with the seasons and local physical and chemical contexts, is being conducted at the University of Birmingham, UK. While the results of this study feed into both the operational protocols for the MTU multi-sensor location device and the associated knowledge based system (KBS) that is being created to aid its deployment (both topics being the subjects of separate papers to this conference), the suite of complementary research projects on the ground and its properties provide valuable insights to the pipeline engineer. Geophysics is being used by the research team to explore the state of the ground with the aim of highlighting areas of concern for the structural health of pipelines buried in the ground. Studies of cast iron pipeline corrosion mechanisms have focussed on the changes that the reaction products cause to the surrounding soils, with a particular emphasis on clay soils, and one interesting finding is that these clay-iron reaction products can make the pipelines `invisible' to standard geophysical location devices. Moreover there are other features in the ground that are being targeted (voids, ground wetting and softening due to leakage, ground weakening due to progressive erosion), and these features effectively make the ground more or less `visible' to geophysical technologies. Alongside this work, bespoke tests have been developed for use on site to `calibrate' the geophysics, thereby enhancing the signatures of the features. This paper introduces these parallel research projects and draws out the important findings for pipeline engineers charged with establishing the condition of existing buried assets.

Original language	English
Title of host publication	ICPTT 2011:
Subtitle of host publication	Sustainable Solutions For Water, Sewer, Gas, And Oil Pipelines
Publisher	American Society of Civil Engineers (ASCE)
Pages	1598-1609
Number of pages	12
ISBN (Print)	978-0-7844-1202-2
DOIs	https://doi.org/10.1061/41202(423)169
Publication status	Published - 1 Jan 2011
Event	International Conference on Pipelines and Trenchless Technology (ICPTT 2011) - Duration: 1 Jan 2011 → …

Conference

Conference	International Conference on Pipelines and Trenchless Technology (ICPTT 2011)
Period	1/01/11 → …

Access to Document

10.1061/41202(423)169

GG-TOP: Gravity Gradient - Technologies and Opportunities Programme
Bongs, K., Baldwin, E., Metje, N., Freise, A., Rogers, C., Atkins, P., Chapman, D., Gaffney, V., Boyer, V. & Vecchio, A.
Engineering & Physical Science Research Council
1/10/11 → 31/03/16
Project: Research Councils
MAPPING THE UNDERWORLD: MULTI-SENSOR DEVICE CREATION, ASSESSMENT, PROTOCOLS
Rogers, C., Atkins, P., Chapman, D. & Metje, N.
Engineering & Physical Science Research Council
1/01/09 → 25/08/13
Project: Research Councils

Cite this

Royal, A., Rogers, C., Atkins, P., Chapman, D., Curioni, G., Foo, K., Hao, T., Metje, N., Moghareh Abed, T., Shirgiri, N., & Wazlan, S. (2011). Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations. In ICPTT 2011: : Sustainable Solutions For Water, Sewer, Gas, And Oil Pipelines (pp. 1598-1609). American Society of Civil Engineers (ASCE). https://doi.org/10.1061/41202(423)169

@inproceedings{6fad8cc8636d46589ba68c629a32a6a2,

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abstract = "The ground in which utility service pipelines are buried inevitably controls, to a large degree, the structural performance and progressive deterioration of the pipelines themselves. In a parallel programme of research to the UK Mapping the Underworld (MTU) project, a study of the fundamental properties of the ground, and how they change with the seasons and local physical and chemical contexts, is being conducted at the University of Birmingham, UK. While the results of this study feed into both the operational protocols for the MTU multi-sensor location device and the associated knowledge based system (KBS) that is being created to aid its deployment (both topics being the subjects of separate papers to this conference), the suite of complementary research projects on the ground and its properties provide valuable insights to the pipeline engineer. Geophysics is being used by the research team to explore the state of the ground with the aim of highlighting areas of concern for the structural health of pipelines buried in the ground. Studies of cast iron pipeline corrosion mechanisms have focussed on the changes that the reaction products cause to the surrounding soils, with a particular emphasis on clay soils, and one interesting finding is that these clay-iron reaction products can make the pipelines `invisible' to standard geophysical location devices. Moreover there are other features in the ground that are being targeted (voids, ground wetting and softening due to leakage, ground weakening due to progressive erosion), and these features effectively make the ground more or less `visible' to geophysical technologies. Alongside this work, bespoke tests have been developed for use on site to `calibrate' the geophysics, thereby enhancing the signatures of the features. This paper introduces these parallel research projects and draws out the important findings for pipeline engineers charged with establishing the condition of existing buried assets.",

author = "Alexander Royal and Christopher Rogers and Philip Atkins and David Chapman and Giulio Curioni and Kae Foo and Tong Hao and Nicole Metje and {Moghareh Abed}, Tara and Nastaran Shirgiri and S Wazlan",

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month = jan,

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doi = "10.1061/41202(423)169",

language = "English",

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pages = "1598--1609",

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Royal, A , Rogers, C, Atkins, P, Chapman, D, Curioni, G, Foo, K, Hao, T, Metje, N, Moghareh Abed, T, Shirgiri, N & Wazlan, S 2011, Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations. in ICPTT 2011: : Sustainable Solutions For Water, Sewer, Gas, And Oil Pipelines. American Society of Civil Engineers (ASCE), pp. 1598-1609, International Conference on Pipelines and Trenchless Technology (ICPTT 2011), 1/01/11. https://doi.org/10.1061/41202(423)169

Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations. / Royal, Alexander ; Rogers, Christopher; Atkins, Philip et al.
ICPTT 2011: : Sustainable Solutions For Water, Sewer, Gas, And Oil Pipelines. American Society of Civil Engineers (ASCE), 2011. p. 1598-1609.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations

AU - Royal, Alexander

AU - Rogers, Christopher

AU - Atkins, Philip

AU - Chapman, David

AU - Curioni, Giulio

AU - Foo, Kae

AU - Hao, Tong

AU - Metje, Nicole

AU - Moghareh Abed, Tara

AU - Shirgiri, Nastaran

AU - Wazlan, S

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N2 - The ground in which utility service pipelines are buried inevitably controls, to a large degree, the structural performance and progressive deterioration of the pipelines themselves. In a parallel programme of research to the UK Mapping the Underworld (MTU) project, a study of the fundamental properties of the ground, and how they change with the seasons and local physical and chemical contexts, is being conducted at the University of Birmingham, UK. While the results of this study feed into both the operational protocols for the MTU multi-sensor location device and the associated knowledge based system (KBS) that is being created to aid its deployment (both topics being the subjects of separate papers to this conference), the suite of complementary research projects on the ground and its properties provide valuable insights to the pipeline engineer. Geophysics is being used by the research team to explore the state of the ground with the aim of highlighting areas of concern for the structural health of pipelines buried in the ground. Studies of cast iron pipeline corrosion mechanisms have focussed on the changes that the reaction products cause to the surrounding soils, with a particular emphasis on clay soils, and one interesting finding is that these clay-iron reaction products can make the pipelines `invisible' to standard geophysical location devices. Moreover there are other features in the ground that are being targeted (voids, ground wetting and softening due to leakage, ground weakening due to progressive erosion), and these features effectively make the ground more or less `visible' to geophysical technologies. Alongside this work, bespoke tests have been developed for use on site to `calibrate' the geophysics, thereby enhancing the signatures of the features. This paper introduces these parallel research projects and draws out the important findings for pipeline engineers charged with establishing the condition of existing buried assets.

AB - The ground in which utility service pipelines are buried inevitably controls, to a large degree, the structural performance and progressive deterioration of the pipelines themselves. In a parallel programme of research to the UK Mapping the Underworld (MTU) project, a study of the fundamental properties of the ground, and how they change with the seasons and local physical and chemical contexts, is being conducted at the University of Birmingham, UK. While the results of this study feed into both the operational protocols for the MTU multi-sensor location device and the associated knowledge based system (KBS) that is being created to aid its deployment (both topics being the subjects of separate papers to this conference), the suite of complementary research projects on the ground and its properties provide valuable insights to the pipeline engineer. Geophysics is being used by the research team to explore the state of the ground with the aim of highlighting areas of concern for the structural health of pipelines buried in the ground. Studies of cast iron pipeline corrosion mechanisms have focussed on the changes that the reaction products cause to the surrounding soils, with a particular emphasis on clay soils, and one interesting finding is that these clay-iron reaction products can make the pipelines `invisible' to standard geophysical location devices. Moreover there are other features in the ground that are being targeted (voids, ground wetting and softening due to leakage, ground weakening due to progressive erosion), and these features effectively make the ground more or less `visible' to geophysical technologies. Alongside this work, bespoke tests have been developed for use on site to `calibrate' the geophysics, thereby enhancing the signatures of the features. This paper introduces these parallel research projects and draws out the important findings for pipeline engineers charged with establishing the condition of existing buried assets.

U2 - 10.1061/41202(423)169

DO - 10.1061/41202(423)169

M3 - Conference contribution

SN - 978-0-7844-1202-2

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BT - ICPTT 2011:

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T2 - International Conference on Pipelines and Trenchless Technology (ICPTT 2011)

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ER -

Pipeline Engineering in the Ground: the impact of Ground Conditions on Pipeline Condition and Maintenance Operations

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Projects

GG-TOP: Gravity Gradient - Technologies and Opportunities Programme

MAPPING THE UNDERWORLD: MULTI-SENSOR DEVICE CREATION, ASSESSMENT, PROTOCOLS

Cite this