This comprehensive course includes the work processes and the business systems needed to coordinate and achieve maximum production plant and equipment performance. You will find out how to institute the vital practices and systems to achieve maximum life-cycle profits from your operating plant and equipment.
Upon successful completion of this course, the delegates will be able to:
- The candidates will be able to have all the information, knowledge, techniques and tools they need to take their business to Operational Excellence success. There are simple concepts that they need to know and understand which bring you world class production.
Physics of Failure
- Component Distress
- Deformation and Degradation
- Physics of Failure (PoF)
- Failure Rates
Reliability
- Definitions
- Modeling
- Distributions
- Process Variation
Risk
- The True Risk Equation
- Risk Modeling
- Operating Risk Reduction
Cost of Failure
- Defect and Failure Total Cost
- Reactive Breakdown
- Proactive Reliability
- Series Arrangements
- Series Arrangements
- Parallel Arrangements
- Properties of Series Systems
Human Error
Human Factors
Controlling Human Error
Life Cycle
Maximizing ROI
Profit Optimization
Least Operating Costs
Reliability Improvement
- Component Reliability
- Standardization
- Systemization
Operating Risk Identification
- Process Mapping
- Defect Identification
- Downtime Costing
Operating Risk Selection
- Risk Rating
- Risk Response Rating
- Equipment Criticality
Risk Control Planning
- Risk Strategy Selection
- Risk
- Cost Calculator
- Confirming Risk Reduction
Risk Control Introduction
- Improving Process Design
- Work Quality Assurance
- Organization Structure
Operating Risk Monitoring
- Operation Performance Measure
- Selecting KPIs
- View Process Stability
Risk Continual Elimination
- Failure Prevention Cycle
- Root cause Analysis
- Precision Maintenance
Business Risk Reduction
- Design Operational Excellence into Operating Processes
- Selecting Useful Quality Controls
- Document the Correct Ways
Stress to Process Model
- Machine Health Creation Process
- Supporting Business Processes
- Introducing the Right methods
Life Cycle Risk Reduction
- Key Life Cycle Decisions
- Totally Optimized Risk
- Gauge Likely Profit Improvement
Operational Risk Reduction
- Failure Factors Analysis
- Risk Reduction Strategy Selection
- Economic Maintenance Selection
Machinery Risk Reduction
- Reliability Growth Cause Analysis
- Reliability Maintenance Standards
Making Changes
- Change Management
- Map the Improvement Journey
- People Working Together
OE champions, Maintenance managers, engineers & planners, reliability and maintenance engineers, facilities and utilities managers, top level maintenance technicians, operations and production managers & engineers, plant engineers, design engineers, reliability engineers & technicians, operators, safety engineers, risk engineers, CMMS and spare parts personnel, safety engineers and anyone who is involved in reliability engineering strategies or methodologies to include design engineers for capital projects engineers