Mechanical Integrity and Reliability in Refineries Petrochemical and Process Plants
Introduction
Mechanical Integrity and Reliability in Refineries Petrochemical and Process Plants
Objectives
The key objectives of this course are as follows:
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- To assist participants in clearly understanding and applying the various aspects of engineered safety to ensure mechanical integrity in a responsible and cost-effective manner.
- To enhance the knowledge and skills of the participants in hazard identification and analysis, and in risk assessment and management.
- To provide participants with practical and effective methods and tools to perform practical likelihood and consequence analyses.
Who Should Attend?
This course is particularly valuable for refinery and petrochemical plant technical managers, engineers, inspectors, maintenance personnel, as well as for project and consulting engineers and engineering and technical personnel involved in plant mechanical integrity and reliability.
Course Outline
Day 1: Technical integrity, industrial failures, and safety in design
- Technical Integrity ¡V An Overview
- Definition, scope, and key elements
- Potential threats to technical integrity in a hazardous environment
- Regulatory requirements ¡V SH&E, OSHA, SEVESO II
- Life cycle implications ¡V design/operation/maintenance, regulatory/industrial interface, training/staff development, networking.
- Industrial Failures
- Statistics
- Typical examples
- Causes and implications
- Estimation of Consequences of Pressure and Storage Equipment Failures - vessels, exchangers, heaters, storage tanks, and piping.
- Types of Hazards ¡V release of hazardous substances, bleves, fractures, explosions, vapour cloud explosions,
- Guidelines and Procedures for quantifying consequences
- Safety in Design I
- Project development and design bases
- Appropriate Codes, Standards, Specifications, Industrial Practices
- Safeguarding premises
- Calculation methods, heuristics
- Safety in Design II
- Quality Control in Design
- Inherent Safety
- Reliability and availability of premises
- Integration of operability and maintainability in the design
- Health, Safety and Environmental Considerations
- Roles and responsibilities of Engineering/Operation/Maintenance
- Operating Strategies ¡V Run Length, shifts
- Startup, Shutdown, Emergency Operating Procedures
- Steam-out and Flushing procedures
- Isolation, blanking, vents, and drains
- The human factor: training modules, operator training
- Workshop 1 ¡V Failure Consequences; Case studies and worked examples
Day 2: IV Material selection and design of major equipment and piping systems
- Design Codes, Standards, Specifications, and Best Practices
- Fit-for-purpose facilities
- Business-focused facilities
- Liability and due diligence
- Engineering Materials I
- Types and application
- Imperfections and defects
- Specifications and standards
- Engineering Materials II
- The behavior of Metals Under Stress
- Degradation processes
- Selection methodology and guidelines
- Design of Major Plant Equipment ¡V Methodology and key considerations
- Pressure Vessels
- Heat Exchangers
- Fired heaters and boilers
- Design of Piping Systems I ¡V Pressure Integrity
- Methodology and key considerations
- Design of Piping Systems II ¡V Mechanical Integrity
- Special design considerations ¡V dynamic and transients loadings
- Piping flexibility and supports
- Workshop 2 ¡V Failures Due To Design Deficiencies - Case studies
Day 3: IV Failures and failure prevention
- Safeguarding Systems I - Guidelines and Best Practices
- Principles
- Guidelines and Best Practices
- Documentation
- Safeguarding systems integrity ¡V design
- Safeguarding Systems II ¡V Safety Systems Key Design Considerations
- Safeguarding safety systems - SIL
- Relief and depressuring systems
- Safeguarding systems integrity and effectiveness
- Failures in Piping and equipment Pressure Vessels, Piping and Boilers
- Degradation processes
- Failures in pressure equipment
- Piping System Vibration and Failure
- Failures in Rotating Equipment
- Causes
- Monitoring and analysis
- Reliability improvement
- Failure Prevention
- FMEA
- Cause analysis
- Testing and Monitoring
- NDT methods
- Inspection, Testing and Repair Regulations, Codes, and Practices
- Evaluation of Inspection Data
- Workshop 3 ¡V Failures due to Improper Operation and Maintenance
- Case studies
Day 4: IV Hazard and risk identification, assessment & management
- Hazard Identification and Assessment
- Risk Analysis, Assessment, and Management
- Probability basics
- Probabilistic risk assessment concepts and methodology
- Fault tree and event tree analysis
- Quantitative risk assessment concepts and methodology
- Integrated Safety Management Plan
- Hazard and Effect Management Plan
- Bow-Tie process
- Risk Matrix
- Determining acceptability of risk
- Hazard and Operability (HAZOP) Reviews
- Process and guidelines
- Management of Change
- Change Control Policy and Procedures
- Process Changes
- Plant Changes
- Assessment and Authorization
- Documentation
- Illustrative Change Control Procedure
- Workshop 4
- Case studies - Failures Due to Improper Management of Change System
- Examples of HAZOP reviews.
Day 5: IV Operation and maintenance aspects of plant integrity
- Fitness-For-Service / Engineering Critical Assessments
- API RP 579 Fitness-For-Service
- Fracture Mechanics and Mode of Failure of Material
- Flaw Characterization, Growth, Stability
- Factors of Safety
- Disposition versus Repair
- Maintenance Strategies and Programs
- Risk-based Inspection
- Reliability-centered maintenance
- Rerating Piping and Pressure Vessels
- Engineering Information and Systems Management
- Troubleshooting Plant equipment and Piping systems
- Guidelines and best practices
- Resonance and Vibration
- Excessive Thrusts and Moments on Connected Equipment
- Leakage at Joints
- Excessive Piping Sag, Disengagement of Piping From Supports
- Interference With Expansion and Contraction
- Technical Integrity Audits
- Guidelines and procedures
- Checklists
- Implementation plans
Subject Areas
- VAT, Banking
- Administration and Behavioral Skills
- Civil Engineering
- Corrosion, Metallurgy
- Corrosion, Metallurgy
- Down Stream
- Economics, Investment and Financing
- Electrical Engineering
- Engineering
- Environmental
- External Program 2015 - 2016
- Financial and Accounting
- Fire Section
- Fire Section
- Geology, Drilling, Reservoir & Petroleum
- Health, Safety and Environment
- Health, Safety and Environment
- Human Resources And Personnel Management
- Hydrocarbon Process
- Information Technology Systems
- Instrumentation, Automation & Process Control
- Insurance and Takaful Insurance
- Laboratory Management and Medical Services
- Legal ,Tenders and Contracts Management
- Maintenance in Petroleum Field
- Managerial and Leadership Skills
- Mechanical Engineering
- Office Management and Secretarial Skills
- Oil & Gas
- Oil & Gas and Process Engineering
- Oil & Gas and Process Engineering
- Oil and Gas Sector
- Online Courses
- Operation
- Petrochemical & Gas
- Ports Management and Logistics
- Process, Production & Chemical Engineering
- Public Relations and Media
- Purchasing and Warehouses Management
- Safety Section
- Sales and Marketing
- Security Occupational Health , Safety
- Security Sector
- Sefety Section
- Training and Development Management
- Upper Stream