Unstrained Pipeline Stress Analysis

Unrestrained pipes are unburied or spans where the pipe is bedded or supported beam.ย  These could be designed or mother nature exposing the pipe due to flooding or other natural causes. Allowable expansion stresses sustained and occasional loads that are greater than 80% stress.ย  Thermal expansion greater than 75% of SMYS.

Hoop Stress

๐‘†๐ปย โˆ’ Hoop stress(psi)
๐‘ƒย โˆ’ Pipe internal pressure(psi)
๐ทย โˆ’ Pipe outside diameter(in)
๐‘กย โˆ’ Pipe wall thickness(in)
 
Longitudinal Stress due to Internal Pressure
PTLB Design & Stress Analysis_2.3 Intro Image 2.png
๐‘†๐‘ƒย โˆ’ Longitudinal stress due to internal pressure(psi)
๐‘†๐ปย โˆ’ Hoop stress(psi)

Nominal Bending Stress
PTLB Design & Stress Analysis_2.3 Intro Image 4.png
๐‘†๐ตย โˆ’ Nominal bending stress(lb/in)
๐‘€ย โˆ’ Calculated bending moment
๐‘ย โˆ’ Pipe section modulus(in3)

Stress due to Axial Loading
PTLB Design & Stress Analysis_2.3 Intro Image 5.png
๐‘†๐‘‹ย โˆ’Axial loading stress(lb/in)
๐‘…ย โˆ’External for axial component(lb)
๐ดย โˆ’Pipe metal cross sectional area(in2)

Net Longitudinal Stresses
PTLB Design & Stress Analysis_2.4 Intro Image.png
๐‘†๐ฟย โˆ’ Net longitudinal stress in restrained pipe(psi)
Note: The maximum permitted value for ๐‘†๐ฟย is 0.75ST
๐‘†ย โˆ’ Specified minimum yield strength(psi)
๐‘‡โˆ’Temperature derating factor

Input Parameters

  1. Select the Unrestrained Pipeline Stress Analysis application from the Steel Pipe – Design and Stress Analysis module.
  2. To create a new case, click the โ€œ+โ€ button
  3. Enter Case Name, Location, Date and any necessary notes.
  4. Fill out all required fields.
  5. Make sure the values you are inputting are in the correct units.
  6. Click the CALCULATE button.

  • Nominal Pipe Size(in)
  • Wall Thickness(in) and pipe grade (if pipe grade is unknown use Grade A 24000)
  • T โ€“ Temperature Derating Factor(ยฐF)
  • Nominal Bending Stress(psi)
  • Stress due to Axial Load(psi) while providing Poissonโ€™s Ratio
  • Youngโ€™s Modulus of Elasticity(in.)
  • Thermal Expansion Coefficient(1/ยฐF)

PLTB Liquid_DesignStress_2.4 Input Rev_091620.png

Outputs/Reports

  1. View the results.
  2. If an input parameter needs to be edited be sure to hit the CALCULATE button after the change.
  3. To SAVE, fill out all required case details then click the SAVE button.
  4. To rename an existing file, click the SAVE As button. Provide all case info then click SAVE.
  5. To generate a REPORT, click the REPORT button.
  6. The user may export the Case/Report by clicking the Export to Excel/PowerPoint icon.
  7. To delete a case, click the DELETE icon near the top of the widget.

  • Hoop Stress(psi)
  • Longitudinal Stress due to Internal Pressure(psi)
  • Net Longitudinal Stress(psi)
  • Maximum Permitted Longitudinal Stress(psi)

PLTB Liquid_DesignStress_2.4 Output Rev_091620.png

Related Links

Table of Contents
Table of Pages
  1. Pipeline HUB User Resources
  2. AC Mitigation PowerTool
  3. API Inspectors Toolbox
  4. Horizontal Directional Drilling PowerTool
  5. Crossings Workflow
  6. Pipeline Toolbox
  7. Encroachment Manager
  8. PRCI AC Mitigation Toolbox
  9. PRCI Thermal Analysis for Hot-Tap Welding
  10. PRCI River-X
  11. PRCI RSTRENG
  12. RSTRENG+
  13. Ad-hoc Analysis
  14. Database Import
  15. Data Availability Dashboard
  16. ESRI Map
  17. Report Builder
  18. Hydrotest PowerTool
  19. Investigative Dig PowerTool
  20. Hydraulics PowerTool
  21. External Corrosion Direct Assessment Procedure – RSTRENG
  22. Canvas
  23. Definitions
  24. Pipe Schedule and Specifications Tables