CHEMICAL ENGINEERING

SAFETY INTEGRITY LEVEL (SIL) & LAYER OF PROTECTION ANALYSIS (LOPA)

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Rp4,500,000
SIL

The International Electrotechnical Commission (IEC) provides an IEC61508 & IEC 61511 standard. These codes are established rules of the design, and selection of safety instrumented systems (SIS), they are the statistical representations of the reliability on the particular functions when a process demand occurs.

The objective of the rules is to provide a margin for SILs in service, such as; SIL 1, 2, 3, and 4. This course will centers on the on the practical aspects of SIL and the methodologies used for determining SILs that include but are not limited to; LOPA, Safety layer, FTA and also discuss an overview various steps for assignment of target SIL.

SIL TRAINING OBJECTIVE

On Successful completion of this module the participant will be able to:

  • Learn the core concepts of fundamental SIL & application in industry
  • Understand how to modify & improve the existing control system without avoiding safety and business aspects.
  • Learn how to implement the tools of SIL based upon the IEC and the other standard a basic to control production program
  • Be able to measure the reliability of SIS outcome

LOPA TRAINING OBJECTIVE

On Successful completion of this module the participant will be able to:

  • How to establish risk acceptance (risk tolerance) criteria for use within your company (this is also called the development of ALARP criteria)
  • How to calculate “as-is” risk for a cause-consequence pair: Estimate the frequency of the initiating event and estimate consequence
  • What is meant by “independence” and “uniqueness” with respect to IPLs
  • How to use LOPA to determine the Safety Integrity Level (SIL) necessary for an instrument IPL (to comply with the requirements of IEC 61508/61511)
  • How other companies worldwide use LOPA to:
    – Decide which PHA/HAZOP recommendations to reject and which to accept
    – Focus limited resources within mechanical integrity departments and operations on what is critical to managing risk to ALARP
    – Avoid wasting resources on quantifying risk using QRA methods
    – Perform specialized risk modeling for facility siting questions

TRAINER 

Dr. Zahirsyah, Senior Risk Engineer/HAZOP/HAZID/SIL Chairman DNV GL(former)

WHO SHOULD ATTEND 

  • Managers – Operations, Safety, and Executive
  • Engineers – Process, Safety, Instrument, and Mechanical
  • Engineering and technical personnel employed process industries, power, oil and gas, being of direct relevance to engineers involved in the provision and operation who work closely and respond to SIS.

Course Features

  • Students 54 students
  • Max Students12
  • Duration2 day
  • Skill levelall
  • LanguageIndonesia
  • Re-take course5

Instructor

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