Certificate Fundamentals of Onshore and Offshore Pipeline Systems (online)

JRD Global EDU
Online

Rs 12,700
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Important information

  • Course
  • Beginner
  • Online
  • Duration:
    4 Years
  • Online campus
Description

This Fundamentals of Onshore and Offshore Pipeline Systems course offered by IDC Technologies is designed in a well manner to develop the learners to achieve extended knowledge on pipeline systems and its advancements. Since this course emphasizes on the practical aspects, numerous practical examples have been included in the curriculum

Important information
Venues

Where and when

Starts Location Timetable

Online

Frequent Asked Questions

· What are the objectives of this course?

This course has vast scope in the industries such as pumping stations, storage stations, compressor drives, pipeline operation stations and control stations to carry fluids (gas or liquids) over remote distances. This nature of the job requires engineering skills that incorporate concepts not only from piping engineers but also from other engineering disciplines to handle and fulfill the pipeline operations.

· Who is it intended for?

10TH PASSED CANDIDATE CAN APPLY FOR THIS COURSE

· Requirements

10TH PASSED CANDIDATE CAN APPLY FOR THIS COURSE

· Qualification

10TH PASSED CANDIDATE CAN APPLY FOR THIS COURSE

· What marks this course apart?

ON LINE STUDY ON LINE SELF LEARNING PROGRAM

· What happens after requesting information?

APPLICATION DETAILS REGISTRATION DETAILS

What you'll learn on the course

Pipeline Construction II
Construction by lay barges
Sequence of construction activities

Teachers and trainers (1)

SNEHA SHARMA
SNEHA SHARMA
COUNSELOR

Course programme

Fundamentals Of Pipeline
  • Basics
  • Factors influencing pipeline design
    Design Of Pipelines
  • Pipeline route selection
  • Tools and techniques used
  • Codes and standards affecting pipeline design
  • Construction and maintenance
    Pipeline Design Principles
  • Hydraulics
  • Mechanical design and material selection
    Pipeline Construction Fundamentals
  • pipeline protection and maintenance
  • pipeline economics
  • physical quantities and units in pipeline design
    Case Study I
  • General design and engineering of a pipeline – The trans Alaska pipeline
    Pipeline Design Standards
  • Code and specifications
  • codes governing the design of piping systems
  • developing of codes
  • features and scope of codes governing pipeline design
  • information contained in piping specifications
  • overview of pipeline & components
  • design codes
  • Introduction to Pipeline Routing
  • basic concepts
  • factors influencing route selection
  • Rules and tools used
  • Thumb rules for route selection
  • Information/data used in route selection
  • Tools used in route selection
  • Route selection case studies
  • Conclusion
      Case Study 2
  • Pipeline routing case study: The Baku-Tbilisi – Ceyhan (BTC) pipeline
    Pipeline Hydraulics
  • Fluid properties and their units
  • Density and specific gravity
  • Specific weight
  • Absolute or dynamic viscosity
  • Kinematic viscosity
  • Compressibility factors for gases.
    Liquid Flow
  • Types
  • Reynolds number
  • Pumps
  • Types of pumps: centrifugal pump, cavitation
    Liquid Flow And Pumps
  • Optimization of line size
  • Pressure drop and pumping station location
    Gas Flow And Compressors
  • Gas flow equation densities
  • Continuity equation
  • Compressible gas flow and types
  • Friction factor
  • Gas flow equation for horizontal pipes
  • Gas compressors basics
  • Types, selection criteria
  • Compressor drivers
  • Compressor energy balance equation
  • Guidelines on compressor design
  • Optimization of design of Gas pipelines
    Mechanical Design
  • Forces and stresses in pipelines
  • Design criteria
  • Common pipeline materials
  • Joining methods
  • Mechanical design equation
  • Design factors based on location of Gas pipelines
    Loads, Stresses And Calculation Equation
  • Sustained loads mechanical design for sustained loads
  • Thermal expansion/contraction of materials
  • Thermal stresses
  • Estimation of weight of pipe
  • Maximum span between pipe supports
  • Estimation of expansion/contraction of pipe
    Case Study V
  • Determining maximum test pressure and test section volume for hydraulic testing of pipelines
    Pipeline Materials
  • Metallurgy and manufacture of offshore pipes
  • Manufacturing process – seamless pipes
  • Flexible pipelines
  • Composite pipes
  • High pressure and high temperature pipeline materials
    Design For Load And Stresses
  • Design for upheaval buckling
  • Buckling initialization
  • Propagation
  • Design for operating stress and strain – thin and thick wall pipe design
  • Longitudinal stress
  • Thermal expansion stresses
  • Pipeline spanning and control
    Design Of Pipeline Risers
  • Riser types
  • Design loads and considerations
  • Pipeline shore approaches – trenched crossing of sandy beaches
  • Horizontal drilling
  • Rock shores
  • Tidal flats
  • Tunnels
    Preparing The Pipeline Row
  • Sequence of construction activities
  • Surveying and inspection of construction
  • Clearing, grading
  • Trenching
  • Stringing
  • Bending
  • Welding
    Pipeline Construction I
  • Construction by lay barges
  • S-lay version of the lay barges
  • Construction by lay barges
  • Dynamic positioning
    Pipeline Construction II
  • J-Lay system
  • Construction by reel barges
  • Construction by pull and tow methods
  • Trenching methods – jet sled method
  • Mechanical cutting machines
  • Mechanical ploughs
  • Construction of pipe-in-pipe methods
  • Umbilicals-typical construction of umbilical

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