pipeline engineering tutorial
TRANSCRIPT
© 2015 – Hervé Baron
HERVE BARON
Engineering Training
Welcome to this presentation.
It is part of a suite of Engineering training modules.
It shows the activities and deliverables of the Pipeline Engineering discipline.
Comments are most welcome ([email protected]), which I will incorporate for the benefit of all.
Please download this file so that you can see my trainer’s notes in the top left corner – latest Acrobat Pro feature.
Hervé
© 2015 – Hervé Baron
HERVE BARON
Engineering disciplines: activities and deliverables
PROCESS
PLANT LAYOUT
EQUIPMENT
SAFETY & ENVIRONMENT
CIVIL
PIPING
PIPELINE
INSTRUMENTATION
ELECTRICAL
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
S: minimum yield strength stipulated in the pipe manufacturing spec, e.g., API 5L shown here
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
S: minimum yield strength stipulated in the pipe manufacturing spec, e.g., API 5L shown here
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
S: minimum yield strength stipulated in the pipe manufacturing spec, e.g., API 5L shown here F: Design factor depending on number and proximity of inhabited buildings • Countryside, few buildings: F = 0.8 • Town, high density of constructions: F = 0.4
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
S: minimum yield strength stipulated in the pipe manufacturing spec, e.g., API 5L shown here F: Design factor depending on number and proximity of inhabited buildings • Countryside, few buildings: F = 0.8 • Town, high density of constructions: F = 0.4
E: longitudinal joint factor • Seamless pipe: E = 1 • Electric fusion welded: E = 0.8
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
S: minimum yield strength stipulated in the pipe manufacturing spec, e.g., API 5L shown here F: Design factor depending on number and proximity of inhabited buildings • Countryside, few buildings: F = 0.8 • Town, high density of constructions: F = 0.4
E: longitudinal joint factor • Seamless pipe: E = 1 • Electric fusion welded: E = 0.8
T: Temperature derating factor. T=1 up to 121°C, then interpolate: 0.97 for 149°C, 0.93 for 177°C.
© 2015 – Hervé Baron
HERVE BARON
Pipeline Wall thickness calculation
S: minimum yield strength stipulated in the pipe manufacturing spec, e.g., API 5L shown here F: Design factor depending on number and proximity of inhabited buildings • Countryside, few buildings: F = 0.8 • Town, high density of constructions: F = 0.4
E: longitudinal joint factor • Seamless pipe: E = 1 • Electric fusion welded: E = 0.8
T: Temperature derating factor. T=1 up to 121°C, then interpolate: 0.97 for 149°C, 0.93 for 177°C.
© 2015 – Hervé Baron
HERVE BARON
Pipeline Drawings
What type of construction drawings are issued for pipelines?
© 2015 – Hervé Baron
HERVE BARON
Pipeline Alignment sheet
© 2015 – Hervé Baron
HERVE BARON
Pipeline Alignment sheet
© 2015 – Hervé Baron
HERVE BARON
Pipeline Typical installation drawings