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Pump and Compressor Maintenance

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Pump and Compressor Maintenance

O1471

Istanbul (Turkey)

25 Oct 2026 -05 Nov 2026

10450

Overview

Introduction:

Pumps and compressors represent critical rotating equipment within industrial systems, supporting fluid transfer, pressure control, and process continuity across energy, manufacturing, and utility environments. Their operational reliability depends on structured maintenance frameworks, mechanical integrity systems, and performance monitoring architectures that govern equipment behavior under varying load conditions. Industrial facilities rely on coordinated maintenance strategies, fault analysis models, and reliability engineering frameworks to minimize downtime and extend equipment lifecycle. This training program examines pump and compressor system structures, maintenance governance frameworks, diagnostic models, and reliability management systems that support operational continuity and performance stability.

Program Objectives:

By the end of this program, participants will be able to:

  • Analyze mechanical and operational structures of pump and compressor systems.

  • Evaluate maintenance strategies supporting reliability of rotating equipment.

  • Assess fault detection and diagnostic frameworks within pump and compressor systems.

  • Examine performance monitoring and condition based maintenance models.

  • Explore reliability engineering frameworks supporting lifecycle optimization of rotating equipment.

Target Audience:

  • Mechanical and maintenance engineers.

  • Reliability and asset management professionals.

  • Plant operations and maintenance supervisors.

  • Rotating equipment specialists.

  • Technicians involved in pump and compressor maintenance.

Program Outline:

Unit 1:

Fundamentals of Pumps and Compressors:

  • Classification of pumps and compressors within industrial systems.

  • Mechanical configuration and operating principles of rotating equipment.

  • Fluid dynamics frameworks within pump and compressor operation.

  • Performance parameters within pressure and flow systems.

  • Operational roles of pumps and compressors within process environments.

Unit 2:

Pump System Operation and Performance:

  • Centrifugal and positive displacement pump operational frameworks.

  • Pump performance curves and system interaction models.

  • Cavitation mechanisms and hydraulic instability frameworks.

  • Pump efficiency evaluation structures.

  • Operational monitoring frameworks within pump systems.

Unit 3:

Compressor System Operation and Performance:

  • Compressor classification including reciprocating, rotary, and centrifugal systems.

  • Compression thermodynamics and performance structures.

  • Compressor performance curves and capacity control frameworks.

  • Operational efficiency parameters within compressor systems.

  • Process integration frameworks within compressor operation.

Unit 4:

Mechanical Components and System Integrity:

  • Shaft, bearing, and seal structures within rotating equipment.

  • Coupling systems and alignment frameworks.

  • Lubrication system architectures within pump and compressor systems.

  • Mechanical wear and degradation structures.

  • Equipment integrity frameworks within maintenance environments.

Unit 5:

Preventive and Predictive Maintenance Frameworks:

  • Preventive maintenance planning structures within rotating equipment systems.

  • Condition based maintenance frameworks within asset management systems.

  • Predictive maintenance technologies within equipment monitoring environments.

  • Maintenance scheduling and resource planning frameworks.

  • Maintenance documentation and reporting systems.

Unit 6:

Vibration Analysis and Condition Monitoring:

  • Vibration analysis frameworks within rotating equipment diagnostics.

  • Frequency spectrum interpretation structures.

  • Condition monitoring technologies within maintenance systems.

  • Thermography and oil analysis integration frameworks.

  • Performance trend monitoring structures.

Unit 7:

Fault Detection and Troubleshooting Frameworks:

  • Fault classification structures within pump and compressor systems.

  • Diagnostic frameworks for mechanical and operational issues.

  • Root cause analysis structures within equipment failures.

  • Systematic troubleshooting methodologies within maintenance environments.

  • Operational failure patterns within rotating equipment systems.

Unit 8:

Alignment, Balancing, and Installation Integrity:

  • Shaft alignment frameworks within rotating equipment systems.

  • Dynamic balancing structures within rotating components.

  • Installation integrity frameworks within pump and compressor systems.

  • Foundation and vibration isolation structures.

  • Mechanical tolerance and alignment verification models.

Unit 9:

Safety and Operational Risk Management:

  • Safety governance structures within rotating equipment environments.

  • Pressure system safety frameworks within compressor operations.

  • Hazard identification frameworks within maintenance activities.

  • Emergency shutdown and protection system architectures.

  • Compliance structures within industrial safety systems.

Unit 10:

Reliability Engineering and Lifecycle Management:

  • Reliability centered maintenance (RCM) frameworks within rotating equipment.

  • Asset lifecycle management structures within maintenance systems.

  • Performance optimization frameworks within equipment reliability systems.

  • Maintenance performance indicators within asset management environments.

  • Continuous improvement structures within rotating equipment maintenance systems.