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Training on Offshore & Subsea Engineering Software (OrcaFlex)

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On-Site / Training

Details

OrcaFlex is the world’s leading package developed by Orcina for the dynamic analysis of offshore marine systems. This powerful course is mostly used as an Offshore & Subsea / Naval engineering software for developing professional subsea pipe design and analysis, floating platform hydrodynamics, mooring lines and riser static and dynamic analysis, among other very important offshore marine system analysis.

SSIHA gives a comprehensive understanding of how to use the OrcaFlex software for model design and dynamic analysis of offshore marine and subsea systems. Delegates will learn how to model different types of risers, mooring lines and flexibles and how to analyse for fatigue damage and vortex induced vibration (VIV).

Outline

Module 1: Introduction to Subsea Engineering

  • History of Subsea Engineering
  • Subsea Production Systems
  • Flow Assurance and System Engineering
  • Subsea Structures and Equipment
  • Subsea Umbilicals, Risers, and Pipelines
Module 2: Theory of Hydrodynamic Engineering & Non Linear Wave Field Solution

  • General Concepts & Field Layout
  • Riser System Selection
  • Riser Types & Xmas Tree
  • Riser System Types
  • Types of Buoyancy Devices
  • Riser Design Considerations
  • Riser Host Vessel Characteristics
  • Types of Mooring Systems
  • Vessel Motions & Environmental Forces
  • Vessel 6 DOF Motions
  • Vessel Motion Characteristics
  • Riser to Host Connection
Module 3: Engineering of Subsea Umbilicals, Risers & Flowlines SURFs

  • Introduction to flexible pipe
  • Material selection & layer function
  • Design process & functional requirements
  • Local structural cross-section design & analysis
  • Global static and dynamic analysis
  • Fatigue analysis
  • Types of fatigue analysis
  • The S/N and T/N curves
  • VIV analysis
  • Static and Dynamic VIV
  • The Wake Oscillator Models
  • The VIV properties
Module 4: General Introduction to ORCAFLEX Software

  • Introduction to the Orcaflex GUI
  • Interface buttons and their functions
  • Step by step procedure to model a line connected to a vessel
  • Run Static Analysis
  • Run Dynamic Analysis
  • Check and Interpret Results
Module 5: Free Steel Catenary Riser (SCR) Hands on Simulation

Hands On Workshop 1: Free Steel Catenary Riser (SCR) Production Riser Simulations

Building the Model & Setting General Data
Hydrodynamics Data Set Up
Building the Model & Setting Vessel Data
Building the Model & Setting Line Data
Clump Weight Attachment & Data Model Setup
Building the Model & Setting SHEAR 7 Data
Building the Model & Setting VIVA Data
Building the Model & Setting All Object Data
Result Analysis of Steel Catenary Riser (SCR) Production Riser Simulations

Module 6: 10 inch Lazy S Wave Production Riser Hands on Simulation

Hands On Workshop 2: 10″ Lazy S Wave Production Riser Simulations

Building the Model & Setting General Data
Hydrodynamics Data Set Up
Building the Model & Setting Vessel Data
Building the Model & Setting Line Data
Clump Weight Attachment & Data Model Setup
Building the Model & Setting SHEAR 7 Data
Building the Model & Setting VIVA Data
Building the Model & Setting All Object Data
Result Analysis of 10″ Lazy S Wave Production Riser Simulations

Module 7: 8 inch Pliant Wave Production Riser Hands on Simulation

Hands On Workshop 3: 8″ Pliant Wave Subsea Production Gas Riser

Building the Model & Setting General Data
Hydrodynamics Data Set Up
Building the Model & Setting Vessel Data
Building the Model & Setting Line Data
Clamp Weight Attachment & Data Model Setup
Building the Model & Setting SHEAR 7 Data
Building the Model & Setting VIVA Data
Building the Model & Setting All Object Data
Building the Model & Setting Tether Data
Result Analysis of 8″ Pliant Wave Subsea Production Gas Riser Simulations

Module 8: FPSO Single Point Mooring (SPM) Hands on Simulation

Hands On Workshop 4: Single Point Mooring (SPM) Simulations

Building the Model & Setting General Data
Hydrodynamics Data Set Up
Building the Model & Setting Vessel Data
Building the Model & Setting Line Data
Clump Weight Attachment & Data Model Setup
Building the Model & Setting SHEAR 7 Data
Building the Model & Setting VIVA Data
Building the Model & Setting All Object Data
Result Analysis of Single Point Mooring (SPM) Simulations

Module 9: Riser Installation Pull In Analysis (PIA) Hands on Simulation

Hands On Workshop 5: Production Riser Installation Pull In Analysis (PIA) Simulations

Building the Model & Setting General Data
Hydrodynamics Data Set Up
Building the Model & Setting Vessel Data
Building the Model & Setting Line Data
Clump Weight Attachment & Data Model Setup
Building the Model & Setting SHEAR 7 Data
Building the Model & Setting VIVA Data
Building the Model & Setting All Object Data
Result Analysis of Production Riser Installation Pull In Analysis (PIA) Simulations

Outcome

Participants will gain an in debt understanding of Subsea Structures Installation & Hydrodynamics Analysis with ORCAFLEX at Level 1 to Level 3.

They will also be able to function with minimum supervision as a Subsea Engineer for IOCs, subsea pipeline company contractor, vendor or installation company.

Certificate of Completion

At the end of the course certificate of Completion Based on Scottish NVQ standard Level 4 & 5 shall be issued directly from Chess Subsea Engineering Europe.

How to Register Email [email protected] directly for registeration booklet or watsapp us on +447946739882 (International) or +2348151453146 (Africa).

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Chess Subsea Engineering is an international underwater subsea training, technical manpower supply and offshore engineering consultancy company, with proven competence in delivering results to client’s satisfaction. Our extensive experience with EPIC Contract Management, Renewable Energy, Big Data Statistical Analysis, Floating Production Storage & Offloading (FPSO) Unit, Drillships, Risers, Pipelines & Underwater Engineering services enable us to provide the clients with professional and cost effective solutions that stands out for their quality, enabling Oil Major as well as marginal E&P hit their production objectives.

As an innovative technology driven company; we are positioned to further strengthen our customers offerings both in CAPEX and OPEX overall cost reduction via digitalization of E&P deepwater subsea assets; utilizing machine learning, deep learning and artificial intelligence to accelerate deployment of new technologies and applications for overall system reliability and security.

Chess Subsea Engineering is a relatively young company – but the sum of our experience is substantial. Our employees have an average of more than 20 years of experience from the oil and gas industry globally. ...

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