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6 - OGE - Oil & Gas - General/Miscellaneous
OGE 223 - Safety Instrumentation System (SIS)
Code | Start Date | Duration | Venue | |
---|---|---|---|---|
OGE 223 | 16 December 2024 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 13 January 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 10 March 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 05 May 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 30 June 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 25 August 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 20 October 2025 | 5 Days | Istanbul | Registration Form Link |
OGE 223 | 15 December 2025 | 5 Days | Istanbul | Registration Form Link |
Course Description
This 5-day course focuses on the management, planning and execution of automatic safety systems in accordance with IEC 61511, the newly released international standard for process industry safety controls. Participants will be able to create a checklist that they can use to quickly assess if the plant complies with the latest international safety standards. They will walk away with a solid fundamental knowledge of IEC 61511 and IEC 61508 which you can apply immediately to your plant.
Course Objectives
- Comply with the IEC 61511 and IEC 61508 standards
- Get a practical understanding of the key sections of IEC 61511 and 61508
- Be able to configure safety systems to minimize or avoid spurious trips and create the potential to reduce production losses
- Know what can be done and what should not be done with PLC’s and smart sensors
- Know how to take advantage of smart positioners and other self-testing devices
- Have overall knowledge of the key design and procedural requirements of IEC 61511
- Know how to set up function safety management procedures to meet international standards
Who Should Attend?
- Instrumentation and control engineers and technicians
- Design, installation and maintenance engineers and technicians in the process industries
- Process operation stuff.
- Engineering firms
- System integrators
- System consultants
Course Details/Schedule
Day 1
- Industrial Disasters, Accidents History
- What is Safety?
- Why do we need Safety Instrumented System
- What is Basic Process Control System (BPCS) & Industrial Automation
- Introduction to Safety instrumented systems (SIS)
- Difference between SIS and BPCS
- Safety Standards: ANSI/ISA-84
- IEC 61508/61511
- Functional Safety
- Layers of Protection Analysis - LOPA Definition
Day 2
- SIS Loop, Components of Safety Instrumented System
- SIS Sensors, Initiators, Sensor Diagnostics & Safety PLC
- Safety instrument logic solver
- Final control element and valves
- Redundancy in SIS system
- Achieving target SILs
- Safe control system design
- Safety-related controls.
- Safety control loops
- SIS Function Blocks
- SIS Diagnostics
Day 3
- Control Systems and Safe Guarding System
- Protection Concepts and process component analysis
- ESD and Isolation System Standard
- Safety Integrity Level
- Fault Detection
- Voting Principles
- Pressure Relief Device
- HIPPS High Integrity Pressure Protection System
- Definitions & Engineering Formula Applied
- Shutdown/Interlock/Instrumented Systems (Safety Instrumented Systems – SIS)
- Physical Protection
- Mitigation Layers
- Containment Systems
- Scrubbers and Flares
- Fire and Gas (F&G) Systems
Day 4
- Introduction to Root Cause Analysis
- Preserve Failure Information
- Different RCA Techniques
- Generic RCA Steps
- RCA Methods - Fault Tree
- (HAZOP) Study
- Purpose of HAZOP
- Documents Needed for HAZOP Study
Day 5
- Later Development – HAZOP
- How and Why HAZOP is Used
- HAZOP Study Procedure
- Strength of HAZOP
- Weakness of HAZOP
- Planning for HAZOP Study
- Responsibility of HAZOP Team Members
- FMEA: Failure Mode and Effect Analysis
- Method to Conduct an FMEA
- Layer of Protection Analysis