HTME

COURSE OVERVIEW

IE0350 : Safety Integrity Level (SIL) Determination and Verification
Safety Integrity Level (SIL) Determination and Verification
OVERVIEW
COURSE TITLE : IE0350 : Safety Integrity Level (SIL) Determination and Verification
COURSE DATE : Oct 06 - Oct 10 2024
DURATION : 5 Days
INSTRUCTOR : Mr. Sydney Thoresson
VENUE : Doha, Qatar
COURSE FEE : $ 6000
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OTHER SCHEDULED DATES
Date : Apr 14 - Apr 18 2024 (5 Days) Location : Al Khobar, KSA Classroom Fee (US$) : $ 5500 Course Info
Date : May 05 - May 09 2024 (5 Days) Location : Dubai, UAE Classroom Fee (US$) : $ 5500 Course Info
Date : Jul 01 - Jul 05 2024 (5 Days) Location : Abu Dhabi, UAE Classroom Fee (US$) : $ 5500 Course Info
Date : Aug 18 - Aug 22 2024 (5 Days) Location : Istanbul, Turkey Classroom Fee (US$) : $ 6000 Course Info
Date : Dec 08 - Dec 12 2024 (5 Days) Location : Doha, Qatar Classroom Fee (US$) : $ 6000 Course Info
Date : Sep 27 - Oct 01 2025 (5 Days) Location : Kuwait City, Kuwait Classroom Fee (US$) : $ 5500 Course Info
Date : Sep 28 - Oct 02 2025 (5 Days) Location : Kuwait City, Kuwait Classroom Fee (US$) : $ 5500 Course Info

Course Description

This practical and highly-interactive course includes various practical sessions and exercises. Theory learnt will be applied using our state-of-the-art simulators.This course covers the systematic method for selecting safety integrity levels (SILs) for safety instrumented systems (SIS). Although numerous methods have been proposed and adopted by industry, layer of protection analysis (LOPA) is rapidly becoming the most frequently used method. Its popularity stems from its ease of use and the accuracy of the results it provides. LOPA accounts for most existing layers of protection, more than any other method. With this proper accounting, the SIS is neither overdesigned nor overpriced. The LOPA method ensures that users achieve the maximum return on their risk reduction investments. The result of using poor methods to select SILs is typically either an overdesigned or an underdesigned safety instrumented system. The risk analysis that forms the basis for SIL selection, however, can be greatly improved. This will provide the user with more accurate results so formerly inflated requirements can be relaxed, which will in turn lower not only the initial installation costs, but the cost of ongoing maintenance. Much of the material in this course is based on the application of the safety life cycle as it is described in the international standards ANSI SP 84 ?Application of Safety Instrumented Systems for the Process Industries? and EN/IEC 61508/61511. This course expands upon the framework developed in these standards. In addition to describing the tasks that users should perform during the safety life cycle, this course also provides detailed procedures for accomplishing these tasks. These procedures are based on risk analysis and reliability engineering principles from a variety of disciplines

TRAINING METHODOLOGY

This interactive training course includes the following training methodologies:

Lectures
Workshops & Work Presentations
Case Studies & Practical Exercises
Videos, Software & Simulators

In an unlikely event, the course instructor may modify the above training methodology for technical reasons.

VIRTUAL TRAINING (IF APPLICABLE)

If this course is delivered online as a Virtual Training, the following limitations will be applicable:

Certificates : Only soft copy certificates will be issued
Training Materials : Only soft copy materials will be issued
Training Methodology : 80% theory, 20% practical
Training Program : 4 hours per day, from 09:30 to 13:30

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