HAZOP and HAZID
April 27, 2017
Jadwal Pelatihan HAZOP and HAZID
| Tanggal | Tempat | Kota | | Belum ada jadwal terbaru |
DESCRIPTION
HAZOP means hazard studies (HAZARD) & Operability. It is a systematic method of analysis of the operability parameters deviations using a specific vocabulary. The required documents in order to accomplish the study are the equipment sketches (PID, PFDs) and a process description.
HAZID- is an utilized technique for the identification of the significant hazards related to an operational activity. The study is based on key-words such as Control philosophy/Flammable/Toxic materials Hazards related to Electricity/Security hazards/Health hazards/Hazards related to Height Safety Equipment – State of the Art/Operation philosophy (Manning, Training, etc.).
OBJECTIVES
Upon completion of this course participants will :
- Understand the concept of risk and the risk management process
- Be able to provide a framework for HAZOP within risk assessment and an HSE Management System
- Be able to review the role of HAZOP within HSE project plans
- Be able to increase familiarity with HAZOP protocol, logic, structure and methodology
- Be able to describe the role and structure of the HAZOP Team and procedures
- Be able to introduce the role, responsibilities and conduct of a HAZOP Team Leader
- Be able to provide sufficient hands-on experience in the application of HAZOP to different processes and systems
COURSE OUTLINE
1. HAZOP Method
- HAZOP study Assumptions
- HAZOP Review Applications
- Ideal HAZOP Review Reference Data
- Credible Scenarios or Causes
- Non-Credible Scenarios or Causes
- HAZOP Technical Suggestions
- HAZOP Review Suggestions
- HAZOP Recommendations and reporting
- Administrative Controls
- Engineering Controls
- Approaches of Assigning Protection layers
- Performance Based Approach
- Prescriptive Approach API-RP-14C
- HAZOP Workshop
2. HAZARD Identifications
- Hazard Management Process
- Factors Increases the Hazards Potential for Process Industries
- Risk
- Consequences
- Voluntary and Involuntary Risk
- Tolerable Risk in the industries
- Evaluating the Risk
- ALARP
- Risk Matrices
- Evaluating the Frequency
- Evaluating the Severity
- Evaluating the Overall Risk
- Principals of Protective Measures
- Risk reduction
- Protection Layers
- Prevention Layers
- Mitigation Layers
- Initiating event
- Process Deviation
- Loss of Containment or Release of Energy
- Undesirable Events
- Process Controls Vs Safety Controls
- Separation of Process Control system and Safety control System
3. HAZARD Analysis
- Risk Criteria
- Estimating Likelihood
- Failure Modes
- Safe Failures
- Dangerous Failures
- Detected/Undetected Failures
- Random failures
- Common Cause Systematic failures
- Hazard Rate
- Probability of Failure on Demand (PFD)
- Safety Instrumented System(SIS)
- Role of (SIS)
- Safety Integrity Requirement
- Safety Integrity Level (SIL)
- Determining Safety Integrity Level (SIL)
- Risk Reduction and Reliability Assessment
- Reliability Analysis
- Voting And Redundancy
- Diversifications
- Risk Graph
- Layer of Protection Analysis (LOPA)
- (LOPA) Procedure
- Independent Protection Layers (IPLs)
- Fault Tree Analysis (FTA)
- Events and Gates
PARTICIPANT
Production and facilities managers, engineers (design, process, facilities, instrumentation and control), operations and safety of process operators, safety/environment personnel, plant operators, maintenance personnel
TRAINING METHOD
Pre test
Presentatio
Discussion
Case Study
Post test
Evaluation
FACILITIES
Training Kit
Handout
Certificate
1x Lunch,
2x Coffee Break
Souvenir
