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Description
Pipeline design and engineering involves the process of creating a safe, efficient, and reliable system for transporting fluids or gases over long distances. Pipelines are used in a wide range of industries, including oil and gas, water supply, and transportation of other liquids and gases.
The design of a pipeline system involves several key steps including route selection, pipe material selection, pipeline sizing, pumping and compression stations, pipeline protection, safety and security.
The engineering of a pipeline system involves the detailed design of the system components and the creation of detailed engineering drawings and specifications. The construction of the pipeline system involves the fabrication and installation of the pipes, components, and support structures. The installation must be done in accordance with industry standards and codes to ensure the safety and reliability of the system.
During construction, several quality control measures are implemented to ensure the integrity of the system, including visual inspections, pressure testing, and non-destructive testing. The pipeline system must also be tested for leaks and proper functionality before being put into operation.
Pipeline Design & Engineering (PDE) Level 1 & Level 2 covers Pipeline Design Scope of Work, Basic Concept and Definitions, Stages of Pipeline Projects, Data Collection Method for Design, Requirements for Pipeline Project Execution, Standards, Codes and Regulation, Pipeline Network and Gathering System, Application Of Code/Standard And Selection, Methods of Pipe Connections, ANSI B16.6 and API 6A Pressure Rating, Determination of Pressure Break, Types, Materials, Classes and Specifications of Pipes, Valves and Fittings, Development and Applications of Basic Equations and Factors, Resistance and Flow Coefficients, Equivalent Length Determination, Flow Rate and Surge Factor Consideration, Pressure Drop Consideration, Erosion Velocity, Line Sizing Determination, Pipe Stress Calculation, On Bottom Stability in Pipeline Design, Alignment Sheet Configuration, Procedure and Consideration for Buried and Crossing, Right of Way Consideration (Road, River, Rail Crossing), Data Sheet Specification and more.
Outline
Pipeline Design Scope of Work
Basic Concept and Definitions
Stages of Pipeline Projects
Data Collection Method for Design
Requirements for Pipeline Project Execution
Standards, Codes and Regulation
Pipeline Network and Gathering System
Introduction to Class And Schedule
Application Of Code/Standard And Selection
Methods of Pipe Connections
ANSI B16.6 and API 6A Pressure Rating
Determination of Pressure Break
Types, Materials, Classes and Specifications of Pipes, Valves and Fittings
Bernoulli’s Equation
Darcy’s Equation
Reynold’s Number
Liquid And Gas Viscosity
Relative Roughness
Frictional Factor – Equation and Charts.
Z – Factor Correlation
General and Empirical Hazen – Williams Equation For Liquids.
Isothermal, General, Weymouth and Panhandle Equations.
Approximate Equations for Small Pressure Drops
Spitzglass Equation for Very Low Pressure Line
Fritzsch’s and Babcock Equation for Steam Flow.
AGA, API RP 14 E and Other Empirical Equations for 2-Phase Flow
Application of Pressure Drop Equations
Effects of Elevation on Pipeline Pressure Drop
Resistance and Flow Coefficients
Equivalent Length Determination
Flow Rate and Surge Factor Consideration
Pressure Drop Consideration
Erosion Velocity
Single Phase Liquid and Gas Line Sizing
2- Phase Line Sizing
Multiphase Line Sizing
Industrial Standard and Design Code Requirement
General Hoop Stress Formula
ASME/ANSI, B31.3, B31.4, B31.8 Equation
Location Class Determination
Weight Stress
Internal Pressure Stress
Thermal Stress
Expansion
Pipe Dynamic
Dynamic Load
Span Analysis Calculation (Spacing for pipe support)
On Bottom Stability in Pipeline Design
Alignment Sheet Configuration
Procedure and Consideration for Buried and Crossing
Right of Way Consideration (Road, River, Rail Crossing)
Data Sheet Specification
Assessment
Participant underpinning knowledge of pipeline design & engineering will be accessed with short answer multiple-choice questionnaire at the end of the course.
Outcome
Participants will gain an in debt understanding of pipeline design & engineering. They will also be able to function with minimum supervision as a pipeline engineer or asset integrity engineer for IOCs, subsea pipeline company contractor, vendor or installation company.
Professional Certificate
Issued directly by Chess Subsea Engineering Europe.
Participant may be presented for Offshore Petroleum Training Organization (OPITO) Certification.
How to Register Manually
Click here to download registeration booklet on msword and email completed booklet to info@chesssubseaengineering.org directly.
