Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Burst pressure assessment of pipe bend/elbow for transmission pipelines
https://orcid.org/0000-0001-8244-6038
Abstract The pipelines for oil and gas transportation are generally laid along a straight route to avoid the complexity of pipe bending. However, changing of pipe alignment is sometimes unavoidable where a straight pipeline is mechanically bent, or two straight pipelines are connecting using a suitable pipe bend/elbow. In this study, the burst pressure of corroded and uncorroded pipe bends was investigated using finite element analysis. The study shows that the pipe bend reduces the burst pressure that depends extensively on the radius of the bend. A parametric study was conducted to identify the parameters affecting the burst pressure of the pipe bend. The parameters investigated included bend radius, bend angle, pipe dimensions, corrosion dimensions, location of corrosion, and the grade of the steel. Corrosion at the intrados of the bend was found to have the most adverse effect on the burst pressure of bend for pipes with lower bend radii. The ratio of the burst pressure of the pipe bend to the burst pressure of corresponding straight pipes depends on the bend radius and steel grade and is almost independent of the pipe and corrosion dimensions. This ratio can be used to assess the burst pressure of a pipe bend using the burst pressure of the corresponding straight pipe. However, for a bend radius greater than three times the pipe diameter, the burst pressure of pipe bend is almost the same as the burst pressure of the corresponding straight pipe.
Highlights The burst pressures of intact and corroded pipe bends were investigated using finite element analysis. Bend radius is found to affect the burst pressure more significantly than the bend angle. Corrosion at the intrados position has the most adverse effect on the burst pressure. The Burst pressure ratio can be used to calculate the burst pressure of pipe bend from the burst pressure of straight pipe. Burst pressure model specific to steel grade should be used for the fitness-for-purpose assessment.
Burst pressure assessment of pipe bend/elbow for transmission pipelines
https://orcid.org/0000-0001-8244-6038
Abstract The pipelines for oil and gas transportation are generally laid along a straight route to avoid the complexity of pipe bending. However, changing of pipe alignment is sometimes unavoidable where a straight pipeline is mechanically bent, or two straight pipelines are connecting using a suitable pipe bend/elbow. In this study, the burst pressure of corroded and uncorroded pipe bends was investigated using finite element analysis. The study shows that the pipe bend reduces the burst pressure that depends extensively on the radius of the bend. A parametric study was conducted to identify the parameters affecting the burst pressure of the pipe bend. The parameters investigated included bend radius, bend angle, pipe dimensions, corrosion dimensions, location of corrosion, and the grade of the steel. Corrosion at the intrados of the bend was found to have the most adverse effect on the burst pressure of bend for pipes with lower bend radii. The ratio of the burst pressure of the pipe bend to the burst pressure of corresponding straight pipes depends on the bend radius and steel grade and is almost independent of the pipe and corrosion dimensions. This ratio can be used to assess the burst pressure of a pipe bend using the burst pressure of the corresponding straight pipe. However, for a bend radius greater than three times the pipe diameter, the burst pressure of pipe bend is almost the same as the burst pressure of the corresponding straight pipe.
Highlights The burst pressures of intact and corroded pipe bends were investigated using finite element analysis. Bend radius is found to affect the burst pressure more significantly than the bend angle. Corrosion at the intrados position has the most adverse effect on the burst pressure. The Burst pressure ratio can be used to calculate the burst pressure of pipe bend from the burst pressure of straight pipe. Burst pressure model specific to steel grade should be used for the fitness-for-purpose assessment.
Burst pressure assessment of pipe bend/elbow for transmission pipelines
https://orcid.org/0000-0001-8244-6038
Abstract The pipelines for oil and gas transportation are generally laid along a straight route to avoid the complexity of pipe bending. However, changing of pipe alignment is sometimes unavoidable where a straight pipeline is mechanically bent, or two straight pipelines are connecting using a suitable pipe bend/elbow. In this study, the burst pressure of corroded and uncorroded pipe bends was investigated using finite element analysis. The study shows that the pipe bend reduces the burst pressure that depends extensively on the radius of the bend. A parametric study was conducted to identify the parameters affecting the burst pressure of the pipe bend. The parameters investigated included bend radius, bend angle, pipe dimensions, corrosion dimensions, location of corrosion, and the grade of the steel. Corrosion at the intrados of the bend was found to have the most adverse effect on the burst pressure of bend for pipes with lower bend radii. The ratio of the burst pressure of the pipe bend to the burst pressure of corresponding straight pipes depends on the bend radius and steel grade and is almost independent of the pipe and corrosion dimensions. This ratio can be used to assess the burst pressure of a pipe bend using the burst pressure of the corresponding straight pipe. However, for a bend radius greater than three times the pipe diameter, the burst pressure of pipe bend is almost the same as the burst pressure of the corresponding straight pipe.
Highlights The burst pressures of intact and corroded pipe bends were investigated using finite element analysis. Bend radius is found to affect the burst pressure more significantly than the bend angle. Corrosion at the intrados position has the most adverse effect on the burst pressure. The Burst pressure ratio can be used to calculate the burst pressure of pipe bend from the burst pressure of straight pipe. Burst pressure model specific to steel grade should be used for the fitness-for-purpose assessment.
Burst pressure assessment of pipe bend/elbow for transmission pipelines
Mondal, Bipul Chandra (Autor:in) / Dhar, Ashutosh Sutra (Autor:in) / Hafiz, Hasib Ibne (Autor:in)
Thin-Walled Structures ; 174
04.03.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Revisiting burst pressure models for corroded pipelines
| Online Contents | 2017
Revisiting burst pressure models for corroded pipelines
| British Library Online Contents | 2017