Safety Integrity Level Determination
Using Layers of Protection Analysis, Risk Matrix and Risk Graphs
All plant operators and project engineering teams need to consider instrument protection systems as a part of the overall health, safety and environmental protection facilities. Safety and environmental risks need to be reduced to a tolerable level as required by national regulatory authorities and commercial risks reduced to meet business needs
In times of rising costs for materials and resources, risk reduction must be handled cost effectively, incorrect determination of integrity requirements can mean that costs escalate to double or even triple the original budget. If the process is managed following the IEC 61511 safety lifecycle model then only moderate changes to existing company safety system practices, with relatively minor costs may be required. More importantly, if the work is done well, the safety lifecycle process of "plan, implement, and review" significantly reduces wasteful over-design of instrument protection systems, as well as limiting unsafe under-design.
This 2 day comprehensive workshop: Safety Integrity Level Determination will equip delegates with a solid fundamental knowledge of the principles which they can apply immediately by getting a practical understanding of the key requirements of SIL Determination using the methods in IEC 61511
The objectives of the workshop are to equip participants to:
- Understand the principles of ALARP and risk assessment.
- Understand the principles of Risk Graph and LOPA.
- Understand the tolerable risk targets and how to set them
- Understand how to set up and record SIL Determination studies.
- Use the HAZOP to identify cause and consequence scenarios
- Identify Safety, Asset and Environmental consequences
- Break down the causes and apply failure and frequency data.
- Identify Independent protection layers and apply the associated rules.
- Understand prevention and mitigation protection layers.
- Assign values to protection layers and avoiding common cause issues.
- Use conditional modifiers and enabling conditions / events.
- Take part in Risk Graph LOPA risk assessment.
The workshop will be based around a case study and a number of practical team exercises to stimulate a realistic risk assessment experience.
As this course is not accredited there is no formal assessment, however our team can write a basic competency assessment to suit your needs and provide a certificate of completion.
No previous experience necessary.
Who Should Attend?
Instrument Engineers, Process Engineers and Safety Engineers as well as Operating and Maintenance personnel who are involved in any of the lifecycle phases for safety instrumented systems from hazard and risk assessment, shut down system/fire and gas systems design to testing maintenance.
Many thanks to all of you at EFSTAS for a challenging, but enjoyable course