Operator Training Simulator Handbook Best Practices for Developing and Investing in OTS
Make the most of OTS systems in operator training and engineering Key Features Learn OTS project delivery best practices from the author's 30 years of experience Explore use cases to understand how your OTS systems can maximize ROI for users Discover how to best develop OTS training models for...
| Main Author: | |
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| Format: | eBook |
| Language: | English |
| Published: |
Birmingham
Packt Publishing, Limited
2022
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| Online Access: | |
| Collection: | O'Reilly - Collection details see MPG.ReNa |
Table of Contents:
- Third-party representation
- What is good for me?
- Some use cases
- Case study 1
- Case study 2
- Case study 3
- Case study 4
- Case study 5
- Summary
- Questions
- Section 2: Best Practices for the Development of OTS Systems
- Chapter 2: OTS Benefits and Best Use
- Technical requirements
- Generic simulators
- Replica simulators
- Low-fidelity simulators
- Medium-fidelity simulators
- Emulated ICSS representation
- High-fidelity replica simulators
- digital twins
- Operations
- Control engineering
- Process engineering
- Examples of OTS projects
- Project 1
- Project 2
- Project 3
- Project 4
- Best use of an OTS
- Examples of best use
- Project build
- Procedure checkouts
- Control tuning
- Training
- Emergency response training
- Engineering studies
- Updating the OTS system
- Examples of OTS issue findings
- Potential safety incident
- Water injection pumps
- Water injection pump not starting
- Control valve mechanical stop
- Cooling high-temperature water
- Simple HMI mistake
- Sand sequence issues
- Trip and alarm schedule
- Turning gear engage
- Compressor train 2
- Well alignment
- Summary
- Questions
- Cover
- Title
- Copyright and Credits
- Foreword
- Table of Contents
- Section 1: Introduction, Definitions, and Classifications
- Chapter 1: OTS Introduction
- Technical requirements
- Introduction to OTS
- What is an OTS?
- Who is this book directed toward?
- OTS
- MPDS or digital twin
- OTS jargon and definitions
- The instructor station
- Run/freeze
- Initial conditions
- Snapshots
- Backtracks
- Malfunctions
- Instructor scenarios
- Record and playback
- Simulator speed (real time)
- FODs
- OTS types
- Representation
- Fidelity
- ICSS representation
- Chapter 3: OTS Project Execution and Best Practices
- V-model
- Making the decision to acquire an OTS
- The SOR
- Project decision and award
- Kick-off meeting
- Typical agenda for the KOM
- Introductions and project contacts
- KOM objectives
- Project overview
- Project organization
- End user
- Project manager
- OTS consultant
- Training instructor
- Document controller
- ICSS control engineer
- Process engineer
- Other third-party controls
- Operations
- Engineering procurement c
- Scope-of-work review
- Schedule review
- Specification and design
- Test and acceptance
- Data collection
- Action list
- Meeting close
- Detailed design specification
- Functional design specification
- Documentation
- Model topology
- Model thermodynamics
- Instructor station
- ICSS controls
- Non-ICSS controls
- Model build
- MAT
- Integration with the ICSS
- FAT readiness
- FAT
- Shipping and installation
- SAT
- Warranty
- Training
- System maintenance
- Engineering maintenance
- Train the trainer
- Summary
- Questions
- Section 3: OTS' Future, Training Model, and Reference Documents
- Chapter 4: OTS Going Forward Toward Digital Twins