Training Safety Integrity System
Recommended prerequisites: Attendees should have strong technical skills and prior training in PHA/HAZOP and LOPA for determining (Safety Integrity Level) SIL requirements; prior completion of Course 11: Layer of Protection Analysis (LOPA) or equivalent is highly recommended. Students should also have good understand of process engineering and instrumented controls.
Are you involved in determining SIL levels or designing SIS? Do you think that too many SIS (or too high of SIL ratings) are being recommended for your site? Do you just want to understand what SIS are and where they fit in to control risk and how these are specified, designed, installed, and maintained? Do you want to know how human error dominates the ACTUAL performance in the field of installed SIS? Then this is the course for you.
This Training safety Integrity System explains Safety Integrity System (SIS) from the ground up and explains how these have replaced the definitions of emergency shutdowns (ESDs) and how they different from basic process control systems, such as a DCS. This course differs from others in that you will also learn the state of the art in SIL Verification (and Design) calculations, including how to account for systemic errors caused by human error; these can dominate the failure rate for SIL 2 and SIL 3 systems.
|What You Will Learn on this Training Safety Integrity System :|
|History of SISWhat is a safety instrumented function (SIF) and safety integrity level (SIL)How to determine if a SIF is needed or not, and especially learn if the the other independent protection layers are sufficient for controlling risk to as low as reasonably practical (ALARP). NOTE: other courses will teach you methods that OVER SPECIFY the need for SIS; this course teaches you the unbiased way to determine the proper number of SIF and proper SIL for each.Minimal requirements from international SIS standards such as ANSI/ISA 84 and IEC 61511 (and the basics of 61508). But, also learn the industry best practices behind and beyond these standards||How to specify and design SIS to meet the required functions and SIL.How to verify the SIL for a designRequirements for installation and validation of the SISRequirements for ongoing inspection, testing, and maintenance of SIS, including ongoing proving of the SIL.|
Typical Course Candidates
This Training Safety Integrity System Course is designed for those needing to learn what SIS are, and especially those wanting to learn how to verify SIL design and install and validate SIS/SIL. Those who may benefit from this course include:
- Managers – Operations, Safety
- Project, Engineering, and Technical Managers
- Engineers – Instrumentation, Electrical, Process, Safety, and Mechanical
- Technicians/Specialist – instrumentation
- PSM Coordinators and Managers
Training Safety Integrity System Outline Introduction to SIS
- Learning objectives and goals of using SIS
- History of SIS and basic definitions
- Where does SIS fit with other ways to control process risk?
- Relationship of SIS to ESD and basic process control systems (BPCS), such as field PLCs, relays, and DCS
- What are safety integrity levels (SILs) and what are the basic requirements for SIL 1, 2, & 3
- Lifecycle of SIS
- Overview of related international standards, ANSI/ISA 84 and IEC 61511 (and 61508)
- Overview of human factors and the impact of human error on SIS.
Determining if a Safety Instrumented Function (SIF) is Needed and if so, what SIL is needed.
- Evaluating all IPLs using qualitative (brainstorming) hazard evaluations methods (such as HAZOP), semi-quantitative methods (such as LOPA and Risk Graphs), and quantitative methods (such as fault tree analysis)
- Determining the risk reduction to allocate to the SIF (if any), which in turn specifies the SIL
- Workshop 1: Determining the need for SIF and the related SIL from a HAZOP report
Specifying the SIF and Designing the Related SIS.
- Determining the process requirements, such as how the process will be brought to safe state, in what order of steps, and with what delays, and also how the process will be restarted after a trip.
- Using the process requirements to develop the Safety Requirements Specification (SRS)
Designing the SIS to meet the required SIL
- Basic reliability terms (such as failure rates, MTTF, MTTR, and MART) and limitations of reliability data
- Basic reliability equations and converting between failure rates and probability of failures on demand (PFD)
- Options for improving SIL rating of a base design, including use of redundancy, changing test intervals, changing reliability of base components, and reducing chances for systemic errors (especially human errors)
- Workshop 2: Basic SIL calculation
- Workshop 3: Using redundancy to improve SIL rating
- Workshop 4: Using shorter test intervals to improve SIL rating
Estimating the PFD of a SIF to Verify the SIL.
- Definitions, rules, and exceptions for determination of SIL
- Using a look-up tables of reliability data and PFDs
- Calculations using simple equations
- Workshop 5: Extending calculations on Workshops 3 and 4 to include systemic failure probability
- Calculations using other methods, such as Fault Tree and Markov analyses
SIS fabrication, installation, and startup
- Issues for fabrication and vendor qualifications
- Installation issues, especially related to maintainability and survivability and and limit common cause failures
- Startup and initial validation test, leading to site acceptance test (SAT)
- SIS maintenance and proof testing (validation) for the life of the SIS
- Maintenance planning and procedures
- Proof testing and record-keeping requirements for ongoing SIL Validation
- Industry example of SIS and issues with each
- Specialized SIS designs: HIPPS, Burner Management Systems (BMS)
- Workshop 6: Pulling it all together from beginning to end
- Planning your path forward with SIS
TRAINER TRAINING SAFETY INTEGRITY SYSTEM:
|Dr. Bambang Murtjahjanto, M.Sc, P.E.(klik untuk melihat cv singkat trainer)||Ir. Suhatri Agus|
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FAQ ( Frequently Asked Question)
Phitagoras sudah disertifikasi ISO 9001:2015 oleh BSI dengan nomor sertifikat FS 669848 dan OHSAS 18001:2007 dengan nomor sertifikat OHS 669850