Root Cause Analysis (Electrical)
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- Root Cause Analysis (Electrical)
Programs
May 17, 2025
Course Visits: 2,536
20 Hours
Objective:
Reliability engineering and predictive maintenance have two major objectives: preventing catastrophic failures of critical plant production systems and avoiding deviations from acceptable performance levels that result in personal injury, environmental impact, capacity loss, or poor product quality. Unfortunately, these events will occur no matter how effective the reliability program is. Therefore, a viable program also must include a process for fully understanding and correcting the root causes that lead to events having an impact on plant performance.
This course provides a logical approach to problem resolution. The method can be used to accurately define deviations from acceptable performance levels, isolate the root causes of equipment failures, and develop cost-effective corrective actions that prevent a recurrence.
Root Cause Analysis provides the concepts needed to effectively perform industrial troubleshooting investigations. It describes the methodology to perform root cause analysis (RCA), one of the hottest topics currently in maintenance engineering. It also includes detailed equipment design and troubleshooting guidelines, which are needed to perform RCA on machinery found in most production facilities.
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Contents:
Chapter 1: Introduction
- Maintenance definition and objectives
- Maintenance Policies
- Failure prevention
- Failure analysis and troubleshooting
Chapter 2: Root Cause Analysis
- RCA objective
- RCA definition
- RCA purpose
- RCA effectiveness
- Personal requirement
- When to use RCA?
- Why RCA?
- RCA Process – PROACT
- RCA general principles
- RCA a Successful Business Improvement Strategy
Chapter 3: Root Cause Analysis Techniques
- 5 whys? Process failure analysis
- Cause Mapping
- Failure Mode and Effect Analysis (FMEA)
- Fault tree analysis
- Cause and Effect analysis (fishbone analysis)
- The sequence of events analysis
Chapter 4: Root Cause Analysis Methodology
- Reporting an incident or problem
- Incident classification
- Data gathering
- Design review
- Application / Maintenance review
- Observation and measurements
- Determining the root cause
- Evaluating potential corrective actions
- Cost-Benefit analysis
- Report and recommendations
- Verify corrective action
Appendix
List of abbreviations
Glossary of terms
Cases studies
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Activities and workshops:
Maintenance definition and policies |
Failure prevention voting |
RCA Techniques |
RCA 5 whys process
RCA Fault tree technique RCA fishbone analysis |
RCA Group meeting interview |
RCA case study (fire in a gas turbine enclosure) |
RCA case study (submersible pump motor failure) |
FMEAÂ case study (manufacturing a complex part) |
RCA centrifugal pump design review activity
RCA sequence of the events case study (process ESD) Failure modes of common components |
By the end of the course, attendees will be able to:
- Identify common manufacturing errors and deviations
- Understand how to prioritize failure events to analyze, preserve failure data, and order a failure analysis
- Explore systems failure analysis methods and techniques
- Develop and implement effective and efficient root cause analysis programs
- How to make RCA a structured, team-based, analytical approach
- Solve plant Problems using a single but accurate techniques
- Calculate the financial impact by solving the problem and how to assign a cost to failure
- Practice failure modes of common components
- Use RCA as an analytical failure prevention technique
- and more...