Fluid Machinery Excellence: Operation and Maintenance of Pumps, Compressors, and Turbines

Course Category : Oil & Gas Management

A technically authoritative programme designed to build professional competence in operating and maintaining fluid machinery in line with international standards and industry best practices.
5 Days – Advanced Level.

Starts On

23 - November - 2026

Ends On

27 - November - 2026

Location

Germany - Berlin

Language

English

View the course details and register to enroll.

Register Now

Targeted Audience

  • Mechanical, chemical, and process engineers
  • Operation and maintenance engineers in industrial and energy sectors
  • Engineering consultants and project specialists
  • Rotating equipment and machinery professionals
  • Experienced technical staff seeking advanced competency development

Targeted Skills

  • Analysing fluid behaviour within machinery systems
  • Evaluating pumps, compressors, and turbines performance
  • Diagnosing operational and mechanical failures
  • Selecting suitable machinery for industrial applications
  • Applying best practices in operation and maintenance

Expected Outcomes

  • Explain the engineering principles governing fluid machinery
  • Differentiate between pumps, compressors, and turbine types
  • Analyse performance issues such as cavitation, vibration, and surge
  • Select appropriate machinery and sizing for applications
  • Develop cost-effective operation and maintenance strategies

Training Topics Index

  • Fluid properties and flow behaviour
  • Interaction between fluids and rotating machinery
  • Design influence on operational performance
  • International standards for fluid machinery

  • Pump classification and applications
  • Selection and sizing principles
  • Common operational problems and solutions
  • Preventive and corrective maintenance

  • Types of compressors and applications
  • Efficiency and performance analysis
  • Load and speed control
  • Safe operation and maintenance practices

  • Turbine types and characteristics
  • Thermodynamic and dynamic principles
  • Vibration and deterioration monitoring
  • Operation and maintenance strategies

  • Failure analysis techniques
  • Downtime reduction strategies
  • Economic performance optimisation
  • Applied industrial case studies