Piping Design Practical Training in Port Harcourt

99% Practical Oriented Training
For contact and training venue in Port Harcourt call

Port Harcourt
IK Idegwue , Tel: 08032766980
Address: 71 Ada George Road, Port Harcourt

For further inquiry contact us:

Tel: +234 - 813 3476 558, +234 - 708 574 0887,
Opebi Allen Ikeja, Lagos State, Nigeria
Email: [email protected], [email protected]
Website: www.vogwconcept.com


COURSE OUTLINE

MODULE 1
1.0. Introduction to piping Design

  • Piping engineering on the whole
  • Piping design scope of work
  • Basic concept and definitions
  • Standard, codes and regulation
  • Materials selection and specification
  • Introduction to class and schedule
  • Application of code/standard and selection
  • Component of production system

1.1. Piping system

  • Terminology
  • Steel line
  • Material specification
  • Pipe manufacturing method
  • Non metallic lines
    -Material specification
    -Joining methods
    - standard code, recommended practice
    -Design practice
    -Transmission, flow line, and distribution line
    -Manifolds
  • Plant piping system
    -Designing loop system
    -Loop capacity and length
    -Equivalent diameter
    -Flow splitting and branch line
    -Complex liq and Gas gathering systems
    -offshore design Practices


Assignment and project work

MODULE 2
2.0 Application of Pressure Drop calculation in Design

  • Bernoulli’s equation (When and how to use it)
  • Darcy’s s equation (When and how to use it
  • Reynolds’s number (When and how to use it)
  • Liquid and Gas viscosity (When and how to use it)
  • Relative roughness (When and how to use it)
  • Frictional factor - equation and charts (When and how to use it)
  • Z – factor correlation (When and how to use it)

2.1 Basic pressure equation

  • General and empirical Hazen – Williams equation for liquids (When and how to use it)


  • Isothermal, General, Weymouth and Panhandle equation General and empirical equation (When and how to use it)


  • Approximate equations for small pressure drops (When and how to use it)
  • Spitzglass equation for very low pressure line (When and how to use it)
  • Fritzsch’s and Babcock equation for steam flow (When and how to use it)
  • AGA, API RP 14 E and other empirical equations for 2- phase flow (When and how to use it)
  • Application of pressure drop equations (When and how to use it
  • Effects of elevation on pipeline pressure drop (When and how to use it)


2.2. Head Loss in valves and fitting

  • Head loss in valves and fitting
  • Resistance and flow coefficients

Equivalent length determination
2.3 Component of pipe connection

  • Methods of pipe connections
  • Fittings

Assignment and project work
MODULE 3
3.0. Line sizing determination

  • Flow rate and surge factor consideration
  • Pressure drop consideration
  • Erosion velocity
  • Single phase Liq and Gas line sizing
  • 2- phase line sizing
  • Multiphase line sizing

3.1. Wall Thickness determination

  • Industrial standard and design code requirement
  • General hoop stress formula
  • ASME/ANSI, B31.3, B31.4, B31.8 equation
  • Location class determination


3.2. Design procedures

  • ANSI B16.6 and API 6A pressure rating
  • Determination of pressure break
  • Pipe, Valve and fitting types and specification
  • Types of valves, materials and specification, class
  • Types of fitting, materials and specification, class
  • NPS, NB & OD of a pipe, National Pipe Thread Taper NPT

3.3. Piping system design
· Piping Layout
· Pipe support spacing
· Anchor blocks
· Manifolds
· Foundational integrity
· Piping vessel, heat exchanger and fire heaters
· Piping machinery
- Centrifugal and Reciprocating compressor
-centrifugal and reciprocating pump
-Gas engines and Turbines
· Data sheet specification
· Design of Buried steel Pipe
Assignment and project work

MODULE 4
4.0. Pipe stress calculation

  • weight stress
  • internal pressure stress
  • Thermal Stress
  • Expansion
  • Pipe Dynamic
  • Dynamic Load

4.1. Span Analysis calculation (Spacing for pipe support)
Types, code and specification

4.2. Relieve valves and pressure vacuum relief devices

  • Relieving devices, application and consideration
  • Relief valves sizing (Liq, Gas, oil)
  • Pressure vacuum relief sizing
  • Installation consideration
  • Relief system piping design
  • Venting consideration
  • Application codes
  • Standard and recommended practice

Assignment and project work
MODULE 5

5.0. Flare and vent disposal

  • Back pressure consideration
  • Applicable codes
  • Flare and Vent piping systems

5.1. Fatigue analysis calculation- standard and code consideration
5.2. Hydro test and Leakage analysis calculation - standard and code consideration
5.3. Connecting point Load failure calculation (Nozzle load) - standard and code consideration

· Presentation of Result and Project reporting

  • Project/ Case study


For contact and training venue in Port Harcourt call

IK Idegwue
Tel: 08032766980
71 Ada George Road, Port Harcourt

For further inquiry contact us:
Tel: +234 - 813 3476 558, +234 - 708 574 0887,
Opebi Allen Ikeja, Lagos State, Nigeria
Email: [email protected], [email protected]
Website: www.vogwconcept.com