Setup Menus in Admin Panel

+447946739882, +2348151453146   INFO@CHESSSUBSEAENGINEERING.ORG
     
Sale!

Deepwater Offshore & Subsea Field Flow Assurance Engineering (DOSFAW) Level 1 & Level 2

$2350.00 $550.00 exc VAT

Course Purpose

The purpose of Deepwater Offshore & Subsea Field Flow Assurance Engineering (DOSFAW) Level 1 and Level 2 courses is to provide engineers with specialized knowledge and skills to ensure the smooth and efficient flow of oil and gas in deepwater offshore and subsea fields.

Deepwater Offshore & Subsea Field Flow Assurance Engineering (DOSFAW) Level 1 & Level 2 is designed for Offshore Engineers, Subsea Engineers, Offshore Project Engineers, Offshore Installation Manager, Structural Design Engineers & Business Development Managers.

Course Objectives

The objectives of Deepwater Offshore & Subsea Field Flow Assurance Engineering (DOSFAW) Level 1 and Level 2 courses can be summarized as follows:

  • The primary objective of DOSFAW Level 1 is to provide engineers with a comprehensive understanding of the fundamental principles and concepts of flow assurance engineering in deepwater offshore and subsea fields. Participants gain knowledge of fluid properties, thermodynamics, flow behavior, pipeline design, and production chemistry, enabling them to analyze and address flow assurance challenges effectively.
  • DOSFAW Level 2 aims to build upon the foundation established in Level 1 by focusing on advanced topics in flow assurance engineering. The objective is to provide engineers with in-depth knowledge and skills in complex areas such as multiphase flow, hydrate management, and deposition phenomena (such as wax and asphaltene). The course equips participants to design and implement effective flow assurance strategies in challenging deepwater offshore and subsea environments.

Training Mode : Online (Only)

Category:

Description

Deepwater Offshore & Subsea Field Flow Assurance Engineering (DOSFAW) is a comprehensive training program designed to equip engineers with the knowledge and skills necessary to ensure the safe and efficient flow of oil and gas in deepwater offshore and subsea fields. The course is divided into two levels, Level 1 and Level 2, each focusing on different aspects of flow assurance engineering.

Level 1: The DOSFAW Level 1 course serves as an introduction to flow assurance engineering. Participants learn the fundamental principles and concepts related to flow assurance in deepwater and subsea environments. This includes understanding fluid properties, thermodynamics, flow behavior, pipeline design, and production chemistry. The course also covers key challenges specific to deepwater operations, such as hydrate formation, wax deposition, and erosion.

Level 2: Building upon the foundation established in Level 1, DOSFAW Level 2 delves into more advanced topics in flow assurance engineering. This includes in-depth studies of multiphase flow, hydrate management, wax and asphaltene deposition, and other complex phenomena. The course emphasizes problem-solving strategies and provides real-world case studies to enhance participants’ ability to design and implement effective flow assurance strategies.

Both levels of the DOSFAW course place a strong emphasis on practical applications and industry best practices. Engineers learn how to analyze and address flow assurance challenges through a combination of theoretical instruction, hands-on exercises, and interactive discussions. The courses are designed to provide participants with a comprehensive understanding of flow assurance concepts and equip them with the skills needed to optimize production and mitigate risks in deepwater offshore and subsea fields.

Deepwater Offshore & Subsea Field Flow Assurance Engineering (DOSFAW) Level 1 & Level 2 covers Subsea Fields i.e. Types of Fields, Engineering Phases e.g.Feasibility / Concept Phases, Front End Engineering Design (FEED) phase, Operation, Tail End Production / Increase Oil (Gas) Recovery (IOR), Main Flow Assurance Challenges in System Design Fluid Properties, Pipe Flow, Hest Transfer, Hydrates i.e. Hydrate Control Strategy, Hydrate Prevention, Hydrate Control Remediation etc. Flow Induced Vibration & Fatigue, Wax, Erosion i.e. Causes of Erosion, Cavitation, Erosion Corrossion, Sand Production and Erosion due to Produced Sand and more

DOSFAW Level 1 & Level 2 is designed to provide detailed knowledge of Deepwater Subsea Field Development & Systems Integration Engineering and will assist those who are switching or enhancing there career in deep and ultra deepwaters subsea engineering.

Course Outline

  • Types of Field
  • Engineering Phases e.g. Feasibility /Concept Phases, Front End Engineering Design (FEED) phase, Operation,
  • Tail End Production / Increase Oil (Gas) Recovery (IOR)

  • Main Flow Assurance Challenges in System Design
  • Fluid Properties
  • Pipe Flow
  • Heat Transfer

  • Multiphase Flow Regimes
  • Multiphase Sluggings

  • Hydrate Control Strategy
  • Hydrate Prevention
  • Hydrate Control Remediation
  • Flow Induced Vibration & Fatigue

  • Causes of Erosion
  • Cavitation
  • Erosion Corrossion
  • Sand Production and Erosion due to Produced Sand

Technical Support References

Ref 1: Overview of flow assurance in offshore oil and gas production
Ref 2: Importance of flow assurance for ensuring uninterrupted production
Ref 3: Fluid properties and their effect on flow assurance
Ref 4: Flow regime and flow assurance challenges
Ref 5: Flow assurance modeling and simulation techniques
Ref 6: Identifying and assessing flow assurance risks
Ref 7: Risk management techniques and flow assurance mitigation strategies
Ref 8: Introduction to operational excellence and process safety management
Ref 9: Overview of subsea production systems
Ref 10: Flow assurance issues specific to subsea production systems
Ref 11: Subsea flowline and riser design considerations for flow assurance
Ref 12: Formation of hydrates and their impact on production
Ref 13: Hydrate management techniques and technologies
Ref 14: Hydrate prevention and remediation strategies
Ref 15: Formation of wax and asphaltene deposits and their impact on production
Ref 16: Wax and asphaltene management techniques and technologies
Ref 17: Wax and asphaltene prevention and remediation strategies
Ref 18: Corrosion mechanisms and their impact on subsea production systems
Ref 19: Corrosion monitoring and mitigation strategies
Ref 20: Introduction to cathodic protection and chemical inhibition
Ref 21: Formation of scale deposits and their impact on production
Ref 22: Scale management techniques and technologies
Ref 23: Scale prevention and remediation strategies
Ref 24: Overview of pipeline pigging and inspection
Ref 25: Types of pipeline pigs and their functions
Ref 26: Pipeline inspection technologies and techniques
Ref 27: Overview of project management principles and methodologies
Ref 28: Applying project management to flow assurance
Ref 29: Project risk management, scheduling, and cost estimation for flow assurance projects

Assessment

Participant underpinning knowledge of engineering of deepwater subsea control systems architecture & umbilical will be accessed with short answer multiple-choice questionnaire at the conclusion of the course.

Outcome

Participants will gain an in debt understanding of Deepwater Offshore & Subsea Field Flow Assurance Engineering along with flow assurance management. They will also be able to function with minimum supervision as a Subsea 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

Click here to download registeration booklet on msword and email completed booklet to info@chesssubseaengineering.org directly.

Get Social with US ON FACEBOOK

9 inch Subsea Production Riser Steep Wave Configuration ORCAflex Simulation

8 inch Subsea Production Riser Lazy S Wave Configuration ORCAflex Fatigue Simulation

8 inch Subsea Production Riser Lazy S Wave Configuration ORCAflex Fatigue Simulation

Transient Flow Over a Cylinder : Pressure Contour

Live Testimonials from some of our Candidates

Transient Flow Over a Cylinder : StreamLine Velocity

Engineering of Subsea Production Systems Level 1 and Level 2

Transient Flow Over a Cylinder : Eddy Viscosity

Subsea Hydraulic Flying Leads & Cable Cutters Engineering Design

Steel Catenary Riser & Hook Up Components Engineering Design

SURFs Carousel Engineering Design 3D Animations

Piggyback Block Render & Subsea Bend Restrictor Engineering Design

16 inch Subsea Pipe Pull In Installation Simulation with ORCAFLEX

16 inch Subsea Lazy S Riser with Mid Water Arch Orcaflex Simulation

8 inch Subsea Production Pipeline S Lay Installation Simulation via Articulated Stinger

Subsea Riser Bouyancy Modules 3D Front End Engineering Conceptual Design & Simulations

10 inch Production Pipeline S Lay Installation Simulation via Articulated Stinger ORCAflex Explicit

16 inch Subsea Pipeline Davit Lift Orcaflex Simulation

8 inch Subsea Production Steel Catenary Riser ORCAflex Simulation

2 x 10 inch Subsea Production Riser Pliant Wave Configuration ORCAflex Simulation

ENGINEERING COMPETENCE AT ITS BEST!

From talent development and organizational performance to engineering and operational needs, we are driven by one goal: improve your performance through innovative solutions.

Continuing Professional Development

Our Renewable Energy, Offshore & Subsea Engineering CPD OJT courses are structured for engineers seeking to attain or maintain Chartered Status. Get to know more.

Computational Fluid Dynamics (CFD)

Using CFD, you are able to analyze complex aerodynamics and hydrodynamics problems involving fluid-fluid, fluid-solid or fluid-gas interaction.

top
© 2023. All Rights Reserved.
X