Stability of vertically bent pipelines buried in sand

Sahel N. Abduljauwad; Hamdan N. Al-Ghamedy; Junaid A. Siddiqui; Ibrahim M. Asi; Naser A. Al-Shayea

doi:10.1115/1.1767858

Stability of vertically bent pipelines buried in sand

Sahel N. Abduljauwad^*
, Hamdan N. Al-Ghamedy
, Junaid A. Siddiqui
, Ibrahim M. Asi
, Naser A. Al-Shayea

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

This paper discusses the stability of underground pipelines with preformed vertical bends buried in sandy soil. More specifically, the minimum cover height required to prevent the pipe from bowing under the action of forces due to temperature change and internal pressure is estimated. The variables considered include the pipe and soil materials, diameter, thickness, overburden height, bend radius, bend angle, internal pressure, fluid specific weight, and temperature variation. A comprehensive three-dimensional finite element analysis is carried out. The results are extracted from the output obtained. These results are put in a database which is used to develop general regression models to determine the relationships among the different variables. Different buckling modes are also considered. All of these results and models are entered into a computer software program for ready access.

Original language	English
Pages (from-to)	382-390
Number of pages	9
Journal	Journal of Pressure Vessel Technology, Transactions of the ASME
Volume	126
Issue number	3
DOIs	https://doi.org/10.1115/1.1767858
State	Published - Aug 2004

ASJC Scopus subject areas

Safety, Risk, Reliability and Quality
Mechanics of Materials
Mechanical Engineering

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title = "Stability of vertically bent pipelines buried in sand",

abstract = "This paper discusses the stability of underground pipelines with preformed vertical bends buried in sandy soil. More specifically, the minimum cover height required to prevent the pipe from bowing under the action of forces due to temperature change and internal pressure is estimated. The variables considered include the pipe and soil materials, diameter, thickness, overburden height, bend radius, bend angle, internal pressure, fluid specific weight, and temperature variation. A comprehensive three-dimensional finite element analysis is carried out. The results are extracted from the output obtained. These results are put in a database which is used to develop general regression models to determine the relationships among the different variables. Different buckling modes are also considered. All of these results and models are entered into a computer software program for ready access.",

author = "Abduljauwad, \{Sahel N.\} and Al-Ghamedy, \{Hamdan N.\} and Siddiqui, \{Junaid A.\} and Asi, \{Ibrahim M.\} and Al-Shayea, \{Naser A.\}",

year = "2004",

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AU - Abduljauwad, Sahel N.

AU - Al-Ghamedy, Hamdan N.

AU - Siddiqui, Junaid A.

AU - Asi, Ibrahim M.

AU - Al-Shayea, Naser A.

PY - 2004/8

Y1 - 2004/8

N2 - This paper discusses the stability of underground pipelines with preformed vertical bends buried in sandy soil. More specifically, the minimum cover height required to prevent the pipe from bowing under the action of forces due to temperature change and internal pressure is estimated. The variables considered include the pipe and soil materials, diameter, thickness, overburden height, bend radius, bend angle, internal pressure, fluid specific weight, and temperature variation. A comprehensive three-dimensional finite element analysis is carried out. The results are extracted from the output obtained. These results are put in a database which is used to develop general regression models to determine the relationships among the different variables. Different buckling modes are also considered. All of these results and models are entered into a computer software program for ready access.

AB - This paper discusses the stability of underground pipelines with preformed vertical bends buried in sandy soil. More specifically, the minimum cover height required to prevent the pipe from bowing under the action of forces due to temperature change and internal pressure is estimated. The variables considered include the pipe and soil materials, diameter, thickness, overburden height, bend radius, bend angle, internal pressure, fluid specific weight, and temperature variation. A comprehensive three-dimensional finite element analysis is carried out. The results are extracted from the output obtained. These results are put in a database which is used to develop general regression models to determine the relationships among the different variables. Different buckling modes are also considered. All of these results and models are entered into a computer software program for ready access.

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JO - Journal of Pressure Vessel Technology, Transactions of the ASME

JF - Journal of Pressure Vessel Technology, Transactions of the ASME

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ER -

Stability of vertically bent pipelines buried in sand

Abstract

ASJC Scopus subject areas

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