Risk-Based Inspection and Maintenance Strategies Course

Introduction:

In an organization, Risk-Based Inspection (RBI) and Risk-Based Maintenance (RBM) approaches are structured methods for evaluating the probability and impact of equipment and infrastructure failures. These strategies allow for prioritizing and optimizing inspection and maintenance activities, enhancing safety, reducing equipment malfunctions, minimizing unplanned shutdowns, and lowering operational costs. Understanding these risk-based strategies is essential for developing effective maintenance and inspection procedures.

The Risk-Based Inspection and Maintenance Strategies course is designed to provide participants with a thorough understanding of RBI and RBM concepts, risk assessment methods, and practical applications. The course covers how to determine optimal inspection and maintenance actions based on risk profiles, aiming to develop proactive maintenance plans that improve safety, reliability, and cost-effectiveness.

Objectives:

Upon completion of this Risk-Based Inspection and Maintenance Strategies course, participants will be able to:

Master RBI and RBM concepts, including their practical application and benefits.
Understand how RBI and RBM enhance plant equipment and infrastructure reliability.
Describe the interconnection between RBI and Reliability Centered Maintenance (RCM).
Perform risk-based fitness-for-service evaluations.
Develop and manage effective RBI and RBM programs.
Apply methods for likelihood and consequence analysis.
Define optimal inspection intervals based on degradation mechanisms.

Training Methodology:

Case Studies
Workshops
Simulations
Group Discussions
Interactive Exercises
Scenario Analysis
Project-Based Learning

Course Outline:

Unit 1: Importance of Inspections with Respect to Plant Integrity and Maintenance Costs

Purpose and Importance of Inspection
Key Performance Indicators for Inspection
Typical Inspection Approaches and Their Limitations
Introduction to Risk-Based Management Principles
Risk Evaluation: Failure Probability and Impact
Risk Control: Elimination and Reduction
Risk Communication, Awareness, and Handling
Risk Assessment Principles and Methods

Unit 2: How to Conduct Risk-Based Inspection (RBI) Strategy

Definitions and Core Components of RBI
Development and Benefits of RBI
RBI as Part of Plant Integrity Management
API Risk-Based Inspection Programs and Standards
Analytical Tiers of RBI Study
Integration of RBI with Other Codes and Standards

Unit 3: Identifying Risks and Conditions

Damage Mechanisms and Failure Modes
Standard Damage Events: Corrosion, Fracture, Fatigue, etc.
Appraisal of Deterioration Mechanisms
Active and Inactive Damage Mechanisms
Choosing Appropriate Materials for Deterioration
Asset Management and Risk Management Integration

Unit 4: Creating an Inspection Work Plan Based on RBI Risk Levels

Guidelines for Inspection Planning
Justification for Recommended Inspections
Elements of a Successful RBI Program
Structure and Mandate of the RBI Team
Inventory Management and Equipment Criticality Assessment
RCM and RBI Integrated Database
Importance of Data Quality and CMMS

Unit 5: Adjusting Resource and Maintenance Intervals Based on Risk Assessment

Evaluation of Inspection Results
Data Quality in RBI
Corrosion Rate and Useful Life Calculation
Fitness-for-Service Assessment
Estimation of Failure Consequences and Inspection Frequencies

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Risk-Based Inspection and Maintenance Strategies

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