Asset Reliability Practitioner – Engineer [ARP-E]

This course is intended for industrial reliability engineers charged with helping the organization improve reliability and performance, and for anyone else in the organization who desires to have an in-depth knowledge of the reliability and performance improvement process. Whether your organization manufactures products or a commodity; provides an essential service; relies on machinery/electrical equipment, or […]

This course is intended for industrial reliability engineers charged with helping the organization improve reliability and performance, and for anyone else in the organization who desires to have an in-depth knowledge of the reliability and performance improvement process. Whether your organization manufactures products or a commodity; provides an essential service; relies on machinery/electrical equipment, or is involved with protecting their country, this course will provide a memorable explanation of how and why to improve reliability and performance.

You will have 4 1/2 days to master everything from defect elimination, asset strategy development with RCM, PMO, and FMEA, planning and scheduling, spares and materials management, condition monitoring, precision maintenance practices, reliability data analysis, criticality and Pareto analysis, root cause analysis and FRACAS, lubrication and asset care, and other topics.

The Asset Reliability Practitioner (ARP) certification scheme follows the independent format of the time-tested ISO certification programs, such as ISO 18436, and it follows the guidelines defined under ISO/IEC 17024 – the same process followed by the independently accredited Mobius Institute Board of Certification [MIBoC] certification scheme

Who Should attend?

This course is designed for reliability engineers who are completely responsible for plant reliability and for anyone else in the organization who desires to have an in-depth knowledge of the reliability and performance improvement process.

INTRODUCTION

CULTURE CHANGE

TRAINING AND SKILLS ASSESSMENT

RISK AND CONSEQUENCES

LIKELIHOOD AND DETECTABILITY

RELIABILITY DATA ANALYSIS

ASSET CRITICALITY RANKING

PARETO ANALYSIS

DEFECT ELIMINATION

MINIMIZE LIFE CYCLE COST

OPERATIONS AND RELIABILITY

ASSET STRATEGY DEVELOPMENT

MASTER ASSET LIST AND BILL OF MATERIALS

FAULT TREE ANALYSIS (FTA)

FAILURE MODES

EFFECTS

AND CRITICALITY ANALYSIS (FMECA)

RELIABILITY CENTERED MAINTENANCE (RCM)

PREVENTIVE MAINTENANCE OPTIMIZATION (PMO)

ROOT CAUSE (FAILURE) ANALYSIS (RCA)

WORK MANAGEMENT

SPARES AND MATERIAL MANAGEMENT

PRECISION LUBRICATION AND CONTAMINATION CONTROL

PRECISION SHAFT ALIGNMENT

ROTOR BALANCING

MECHANICAL AND ELECTRICAL FASTENING

VIBRATION ANALYSIS

ULTRASOUND

OIL ANALYSIS

INFRARED THERMOGRAPHY

INSPECTIONS PERFORMANCE AND NDT

ELECTRICAL EQUIPMENT

THE FUTURE OF CONDITION MONITORING

BREAKING OUT OF REACTIVE MAINTENANCE

CONTINUOUS IMPROVEMENT (Kaizen)

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