Name: Advanced Subsea Xmas Tree Engineering & Components Reliability Assessments (ASXECRA) Level 3
SKU: 3309
Price: 550.00 USD
Availability: InStock

Advanced Subsea Xmas Tree Engineering & Components Reliability Assessments (ASXECRA) Level 3

~~$2050.00~~ $550.00 exc VAT

Purpose

The purpose of the Advanced Subsea Xmas Tree Engineering & Components Reliability Assessments (ASXECRA) Level 3 course is to provide participants with advanced knowledge and skills in conducting reliability assessments and managing the maintenance and integrity of subsea Xmas tree components.

Advanced Subsea Xmas Tree Engineering & Components Reliability Assessments (ASXECRA) Level 1 to Level 3 is structured to bridge the needed knowledge gap at intermediate to mastery level.

Course Objectives

The course aims to achieve the following objectives across the different levels:

Introduction: Participants gain a foundational understanding of subsea Xmas trees, their components, and their role in controlling oil and gas flow in subsea wells. They learn about the basic principles, functions, and operational requirements of Xmas trees, including their configuration, control systems, valves, connectors, and interfaces with other subsea equipment.
Detailed Engineering: Participants develop in-depth knowledge of the design considerations, materials selection, and manufacturing processes involved in the construction of subsea Xmas trees. They gain an understanding of structural integrity, pressure containment, fatigue analysis, and performance optimization of Xmas trees. Advanced engineering techniques, such as computational fluid dynamics (CFD) and finite element analysis (FEA), are covered to assess the performance and reliability of Xmas trees.
Reliability Assessments: Participants learn specialized skills and methodologies for conducting reliability assessments of subsea Xmas tree components. They acquire knowledge of tools and techniques such as failure mode and effects analysis (FMEA) to identify potential failure modes, their causes, and their effects on Xmas tree performance and reliability. Participants understand how to analyze the reliability of individual components and the overall system, considering factors such as material properties, environmental conditions, and operational constraints.
Reliability-Centered Maintenance (RCM): The Level 3 course emphasizes the application of reliability-centered maintenance (RCM) principles to subsea Xmas trees. Participants learn how to develop maintenance strategies and schedules based on the criticality and failure modes identified during the reliability assessments. They gain insights into optimizing maintenance activities to minimize downtime and maximize the reliability and availability of the Xmas tree system.

Training Mode: Online Only

Description

The Advanced Subsea Xmas Tree Engineering & Components Reliability Assessments (ASXECRA) course is a comprehensive training program that focuses on the engineering and reliability assessments of subsea Xmas trees and their components. The course is divided into three levels: Level 1, Level 2, and Level 3, each addressing specific aspects of Xmas tree engineering and reliability assessments.

Level 1 of ASXECRA provides participants with a fundamental understanding of subsea Xmas trees and their components. Participants will learn about the basic principles, functions, and operational requirements of Xmas trees, including their role in controlling oil and gas flow in subsea wells. The course covers topics such as Xmas tree configuration, control systems, valves, connectors, and interfaces with other subsea equipment.

Level 2 of ASXECRA focuses on the detailed engineering of subsea Xmas trees and components. Participants will gain a deeper understanding of the design considerations, materials selection, and manufacturing processes involved in the construction of Xmas trees. The course includes topics such as structural integrity, pressure containment, fatigue analysis, and performance optimization. Participants will also learn about advanced engineering techniques, such as computational fluid dynamics (CFD) and finite element analysis (FEA), to assess the performance and reliability of Xmas trees.

Level 3 of ASXECRA centers around the reliability assessments of subsea Xmas tree components. Participants will explore methodologies and tools for conducting reliability analyses, failure mode and effects analysis (FMEA), and reliability-centered maintenance (RCM) specific to Xmas trees. The course emphasizes the importance of data collection, monitoring, and analysis to identify potential failure modes, mitigate risks, and optimize maintenance strategies. Participants will also gain knowledge in the field of subsea inspection, repair, and maintenance (IRM) techniques and technologies for Xmas trees.

ASXECRA Level 2 & Level 3 covers Subsea Wellhead Systems, Functional & Operational Requirements, Casing Design Programs & Running Tools, Wellhead Systems Analysis & theoretical methodology, Wellhead loading analysis & Guide Base Requirements, Subsea Xmas Trees & Major Functional Requirements, Subsea Trees Configurations, key components of subsea Xmas trees, Types of subsea Xmas trees (e.g., horizontal, vertical, dual bore), Design considerations for subsea Xmas trees (e.g., depth, pressure, temperature), Subsea Xmas trees materials selection and corrosion protection, Subsea Xmas trees finite element analysis (FEA) and computational fluid dynamics (CFD), Subsea Xmas trees fabrication methods and techniques, Subsea Xmas trees quality control and inspection, Failure Modes and Effects Analysis (FMEA) of subsea Xmas tree components, Fault Tree Analysis (FTA) of subsea Xmas tree components, Reliability Block Diagram (RBD) of subsea Xmas tree components, Monte Carlo simulation of subsea Xmas tree components, Subsea xmas tree installation methods and techniques (e.g., diver, remotely operated vehicle), Subsea xmas tree testing and commissioning procedures (e.g., pressure testing, hydraulic control testing), Subsea xmas tree corrosion management, Subsea xmas tree components Non-destructive testing (NDT), Remote operated vehicles (ROVs) and underwaterinspections of subsea xmas tree, Life extension and decommissioning of subsea xmas tree, Real-world examples of subsea Xmas tree engineering and reliability assessments, Lessons learned from past projects of subsea Xmas tree engineering and reliability assessments, Emerging technologies and future developments in subsea Xmas tree engineering in advancements in materials and coatings, Emerging technologies and future developments in subsea Xmas tree engineering in developments in remote monitoring and control systems Emerging technologies and future developments in subsea Xmas tree engineering in opportunities for cost reduction and improved performance and more and more.

Course Outline

Module 1: Subsea Completions Wellhead & Casing Configurations

Overview of Subsea Completions
Subsea Wellhead Systems
Subsea Wellhead Functional & Operational Requirements
Casing Design Programs & Running Tools
Wellhead Systems Analysis & theoretical methodology
Wellhead loading analysis & Guide Base Requirements

Module 2: Subsea Xmas Trees & Valves Architecture

Subsea Xmas Trees & Major Functional Requirements
Subsea Trees Configurations, Selection Criteria & Design Process
Main Component of Subsea Tree
Tree Mounted Controls
Subsea Tree Running Tools

Module 3: Subsea Xmas Tree Design Insulation & Installations

Subsea Xmas Tree Design & Analysis
Subsea Trees Insulation and Coatings
Subsea Trees Installations

Technical Support References

Ref 1: Definition and purpose of subsea Xmas trees
Ref 2: Overview of the key components of subsea Xmas trees
Ref 3: Types of subsea Xmas trees (e.g., horizontal, vertical, dual bore)
Ref 4: Design considerations for subsea Xmas trees (e.g., depth, pressure, temperature)
Ref 5: Subsea Xmas trees materials selection and corrosion protection
Ref 6: Subsea Xmas trees finite element analysis (FEA) and computational fluid dynamics (CFD)
Ref 7: Subsea Xmas trees fabrication methods and techniques
Ref 8: Subsea Xmas trees quality control and inspection
Ref 9: Failure Modes and Effects Analysis (FMEA) of subsea Xmas tree components
Ref 10: Fault Tree Analysis (FTA) of subsea Xmas tree components
Ref 11: Reliability Block Diagram (RBD) of subsea Xmas tree components
Ref 12: Monte Carlo simulation of subsea Xmas tree components
Ref 13: Subsea xmas tree installation methods and techniques (e.g., diver, remotely operated vehicle)
Ref 14: Subsea xmas tree testing and commissioning procedures (e.g., pressure testing, hydraulic control testing)
Ref 15: Subsea xmas tree corrosion management
Ref 16: Subsea xmas tree components Non-destructive testing (NDT)
Ref 17: Remote operated vehicles (ROVs) and underwater inspections of subsea xmas tree
Ref 18: Life extension and decommissioning of subsea xmas tree
Ref 19: Real-world examples of subsea Xmas tree engineering and reliability assessments
Ref 20: Lessons learned from past projects of subsea Xmas tree engineering and reliability assessments
Ref 21: Emerging technologies and future developments in subsea Xmas tree engineering in advancements in materials and coatings
Ref 22: Emerging technologies and future developments in subsea Xmas tree engineering in developments in remote monitoring and control systems
Ref 23: Emerging technologies and future developments in subsea Xmas tree engineering in opportunities for cost reduction and improved performance

Assessment

Participant underpinning knowledge of subsea pipeline engineering will be accessed with short answer multiple-choice questionnaire and case studies at the conclusion of the course.