Introduction to Pipe Stress - Bundle

1. Welcome to the course
   

2. Your instructors
   

3. How to use this course
   

4. Personal Certificate requirements

• Definition
  

  • What is a Piping Stress Analysis?
    

• Why do a stress analysis?

A sample of the first module is available for free, so you can learn more about the teaching style and understand if the course fits your needs.

• Force & moment

• Material Stress

• Most common types of stress - Part A

• Most common types of stress - Part B

• Piping loads classification: Primary loads

• Piping loads classification: Secondary & Occasional

• Piping loads classification: Primary vs. Secondary

• Piping loads classification: Dynamic loads

• Piping loads classification: Summary and further discussion

• Types of loads

• Piping vs. Pipelines - Part A

• Piping vs. Pipelines - Part B

• Piping vs. Pipelines - Part C

• Onshore vs. Offshore

• Piping stress analysis scenarios - Part A

• Piping stress analysis scenarios - Part B

• Piping stress analysis scenarios - Part C

• Pipeline stress analysis scenarios - Part A

• Pipeline stress analysis scenarios - Part B

• Static vs. Dynamic: Stress analysis

• Codes & Standards for Pipe Stress

• ASME codes on the spot

• European codes on the spot

• International standards

• ASD vs. LFRD

• Onshore / offshore: piping codes

• Other international & local: piping codes

• Recommended document

• Introduction

• Equipment codes in process piping systems

• Overloaded nozzles

• Overloaded nozzles: further discussion

• Centrifugal pumps 

• Positive displacement pumps 

• Centrifugal Compressors - Part A

• Centrifugal Compressors - Part B

• Reciprocating Compressors 

• Steam turbines 

• Shell & tube heat exchangers

• Plate: heat exchangers

• Air-cooled: heat exchangers

• Remaining equipments

• ASME vessels & columns - Part A

• ASME vessels & columns - Part B

• PD5500 vessels & columns

• Onshore pipelines: equipement & components

• Offshore equipment: codes

• Plastic piping: codes

• Introduction & summary

• Stress critically selection: Definition

• Types of stress analysis: Visual analysis

• Types of stress analysis: Manual analysis

• Types of stress analysis: Comparison

• Computational analysis: FEA type

• Computational analysis: Static vs. Dynamic - Part A

• Computational analysis: Static vs. Dynamic - Part B

• Selection methods

• Stress Critically: Selection Examples

• Wall thickness calculation per ASME B31.3

• Weld Joint Quality Factor, E

• Weld Joint Strength Reduction Factor, W

• Material Coefficient Factor, Y

• Considering Corrosion Allowance

• Wall thickness calculation per ASME B31.8

• Examples under B31.3 Chapter II, based on OD

• Examples under B31.3 Chapter II, based on ID

• Examples under B31.3 Chapter IX, high pressure piping (OD)

• Examples under B31.3 Chapter IX, high pressure piping (ID)

• Examples under B31.8 Chapter VIII

• Module Introduction & Overview
  

• Basic Allowable Stress Tables
  

• Allowable Stress due to Sustained Loads
  

• Allowable Stress due to Displacement Strains
  

• Occasional Stress Allowable
  

• Pipe Weight Considerations
  

• Fluid WeightConsiderations
  

• Additional WeighInsulation & Internal Lining
  

• The buoyancy of Piping Systems
  

• Elasticity Modules Tables
  

• Flexibility Factors & Stress Intensification Factors (SIF)
  

• Pressure Stiffening of Components
  

• Pressure & Weight Sustained Stresses
  

• Pipe Span Calculations
  

• Thermal ExpansionCoefficient Tables
  

• Displacement Stress
  

• Expansion Loops
  

• Sagging & Hogging
  

• Drag loads
  

• Wind Loading on Piping Systems
  

• Acceleration on Piping Systems
  

• Transportation Analysis of Piping Systems
  

• A sample of the first module is available for free, so you can learn more about the teaching style and understand if the course fits your needs.

• Exercise Review

• Load Combination Cases Part A

• Basic Load Combinations Part B

• Load Combinations Example Part C

• Load Case Combinations Part D

• Load Case Combinations Part E

• Load Case Combinations Part G

• Scalar Combinations of Loads

• Non-linearities

• Load Combinations Example for Pipe Stress Analysis

• Accidental Loads

• Trunnions & Welded Attachments

• Pipe Shoes

• Piping guides and stops

• Anti Vibration Supports, Struts & Sway braces

• Spring Supports

• Snubbers

• Expansion Joints

• Introduction & Recap

• Flange Leakage Calculations

• Kellogg's equivalent pressure method

• Flange calculation: ASME VIII Division 1 & 

• Flange calculation: API TR 6AF & API TR 6AF2

• Category M Fluid Piping as per ASME B31.3

• High-Pressure Piping

• Piping supports settlement 

• Equipment settlements

• Pipeline / Soil settlements 

• Slug flow 

• Water Hammer or Surge

• Discharge in open systems: Pressure Safety valves

• Discharge in closed systems: Pressure Safety valves

• Acoustic induced vibration (AIV)

• Flow-induced vibrations (FIV)

• Summary AIV vs. FIV 

• Vortex-Induced Vibrations 

• Pulsations in Piping Systems (Flow-induced pulsations)

• Thermal Bowing

• Hydrogen Induced Stress Cracking (HISC)

• Jacketed Piping

• Blast Calculations

• Recap & Exercise Review

• Introduction & Overview

• Reporting a Pipe Stress Analysis

• Report Build-up

• Stress Isometrics 

• Audit Documentation

• Piping Stress Checklist 

1. Congratulations

2. Course evaluation survey

3. Your Personal Certificate

4. Rate this course

5. Related resources & follow up