Polyethylene Pipe

Introduction 

The Pipeline Toolbox is home to many tools and calculators. The PLTB User’s Guide presents information, guidelines and procedures for use during design, construction, operations and integrity tasks for field or office applications.

When selecting pipe materials, designers, owners and contractors specify materials that provide reliable, long-term service durability, and cost-effectiveness. Solid wall PE pipes provide a cost-effective solution for a wide range of piping applications. PE pipe is also effective for above ground, buried, trenchless, floating and marine installations.

Wheel load from trucks or other vehicles are significant for pipe buried at shallow depths. The resultant load transferred to the pipe depends on e vehicle weight, the tire pressure and size, vehicle speed, surface smoothness, pavement and distance from the pipe to the point of loading.

Surcharge loads, such as footings, foundations or other stationary loads, create pressure in the soil beneath the loaded area. This pressure will be distributed through the soil such that there is a reduction in soil pressure acting on the pipe with an increase in depth or horizontal distance from the surcharge area.

Modulus of Soil Reaction (E’) – Values of E’ for Pipe Embedment

Modulus of Soil Reaction (E’) – Average Values for Iowa Formula

Values of E’n Native Soil Modules of Soil Reaction

Soil Support Factor

Module/Application

• Design Pressure Polyethylene Pipe
• Wall Thickness Polyethylene Pipe
• Distributed Static Surcharge Load: Directly Beneath a Surcharge Load
• Distributed Static Surcharge Load: Not Directly Beneath a Surcharge Load
• Aircraft Load on Buried PE Pipe
• Live Load: AASHTO H20 Load on Buried PE Pipe – 12′ Thick Pavement
• Live Load: AASHTO H20 Load on Buried PE Pipe – Unpaved or Flexible Pavement 
• Live Load: Single Wheel Over Buried PE Pipe – Concentrated Point Load
• Live Load: Multiple Wheel Over Buried PE Pipe – Concentrated Point Load
• Live Load: Multiple Wheel Not Over Buried PE Pipe – Concentrated Point Load 
• Live Load: Distributed Surface Load on Buried PE Pipe – Unpaved Road Only
• Live Load: Cooper E-80 Railroad Load on Buried PE Pipe

References

• “Modulus of Soil Reaction Values for Buried Flexible Pipe”, Journal of the Geotechnical Engineering Division, ASCE, Vol. 103, No GT 1, Howard, A.K. Technical Toolboxes, Inc.

• “Evaluation of Modulus of Soil Reaction E and its Variation with Depth”, Report No. UCB/GT/82-02,

• “Soil Engineering”, Third Edition, Spangler, M.G. and Handy, R.L., Intext Educational Press

• “Structural Mechanics of Buried Pipes”, Watkins, R.K, and Loren, R, A,

• “Polyethylene Pipe Handbook: Design of PE Piping Systems”, Second Edition, Plastic Pipe Institute, Inc.

• API 15LE – Specification for Polyethylene Line Pipe
  

Appendecies

Related Links

Pipeline HUB — User Resources

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