Fundamentals of Process & Mechanical Technology

  • Fundamentals of Process & Mechanical Technology
  • Germany – Frankfurt

Fundamentals of Process & Mechanical Technology

Course Category : Oil & Gas Management

A practice-oriented technical programme integrating process and mechanical engineering fundamentals to support safe operations, equipment reliability, and sound engineering decision-making in process industries.
5 Days | Level: Intermediate.

Starts On

14 - September - 2026

Ends On

18 - September - 2026

Location

Germany – Frankfurt

Language

English

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View Course Introductory PDF

Targeted Audience

  • Process Engineers
  • Maintenance and Production Engineers
  • Petroleum and Energy Engineers
  • Industrial and Plant Chemists
  • Utilities and Facility Engineers
  • Technical and Middle Management Professionals

Targeted Skills

  • Integrated understanding of process and mechanical engineering
  • Analysis of fluid flow, heat transfer, and separation systems
  • Evaluation of material behaviour and mechanical failure
  • Interpretation of process flow diagrams and P&IDs
  • Application of inspection, maintenance, and condition monitoring
  • Linking safety and economics to engineering decisions

Expected Outcomes

  • Apply core process and mechanical engineering principles in industrial facilities.
  • Analyse and operate separation units, heat exchangers, and rotating equipment.
  • Interpret failure and corrosion mechanisms and mitigation methods.
  • Use inspection and non-destructive testing techniques for asset integrity.
  • Support operational and maintenance decisions using engineering and economic analysis.

Training Topics Index

  • Mass and energy balances
  • Batch and continuous processes
  • Process flow diagrams and P&IDs
  • Fluid flow and hydraulics
  • Industrial safety and hazard studies

  • Heat transfer mechanisms and insulation
  • Heat exchangers, boilers, and condensers
  • Reaction engineering fundamentals
  • Catalysis and green engineering concepts
  • Process control principles

  • Pressure vessels and piping systems
  • Pumps, compressors, and mixers
  • Performance curves and safe operation
  • Valves and flow control devices
  • Equipment integration with process systems

  • Material properties and selection
  • Fracture, fatigue, and creep
  • Corrosion mechanisms and protection
  • Non-destructive testing techniques
  • Fitness for Service principles

  • Maintenance strategies and philosophies
  • Maintenance management systems
  • Condition monitoring and vibration analysis
  • Process and maintenance economics
  • Engineering decision support