Our Training Areas
We offer specialized training in two core engineering disciplines
Centrifugal Compressors Training Course
A comprehensive 5-day program designed for engineers with up to three years of experience and operators in the oil and gas industry. Covers essential topics in aerodynamics, thermodynamics, mechanical components, and safety.
Course Structure:
- • Ch 1: Aerodynamics
- • Ch 2: Thermodynamics
- • Ch 3: Mechanical Parts
- • Ch 4: Auxiliary Systems
- • Ch 5: Control & Monitoring
Advanced Topics:
- • Ch 6: System Integration
- • Ch 7: Start Sequence & Operation
- • Ch 8: Safety & Failures Workshop
- • Ch 9: Intro to Rotor Dynamics
Introduction to Rotodynamics and Failure Case Study
Comprehensive introduction to rotordynamics principles with real-world failure analysis case studies. Designed for engineers working with rotating machinery who need to understand dynamic behavior and failure mechanisms.
Fundamentals:
- • Rotor dynamics theory and principles
- • Critical speed analysis
- • Bearing dynamics and stiffness
- • Unbalance and misalignment effects
- • Stability analysis methods
Case Studies:
- • Compressor rotor failure analysis
- • Turbine blade dynamics issues
- • Pump shaft instability cases
- • Bearing failure investigations
- • Vibration troubleshooting examples
Learning Outcomes:
Additional Training Areas:
- • Pump systems and troubleshooting
- • Vibration analysis and diagnostics
- • Bearing and seal technologies
- • Performance optimization techniques
- • Predictive maintenance strategies
Decision-Making and Business Value
A comprehensive program focusing on advanced decision-making methodologies and business value optimization through modeling and simulation techniques for industrial assets and business contexts.
Business Context:
- • Forecast-based decision-making
- • External performance drivers
- • Business dynamics modeling
- • Prices, demand & competition
- • Environmental influences
Industrial Assets:
- • Digital assets & decision making
- • CAPEX, OPEX, REX and LCC
- • Flows & processing units
- • Reliability & maintainability
- • Production & maintenance logistics
Key Topics:
Weibull Analysis & Reliability Modeling
Comprehensive training in Weibull analysis, reliability growth modeling, and statistical methods for failure prediction and maintenance optimization in industrial applications.
Core Analysis:
- • Weibull/Lognormal distributions
- • Data processing & fitting methods
- • Goodness of fitness evaluation
- • Confidence interval analysis
- • Special conditions handling
Advanced Applications:
- • Forecasting & failure prediction
- • Optimal replacement intervals
- • Monte Carlo simulations
- • Accelerated testing methods
- • Reliability growth modeling
Specialized Topics:
Additional Training Areas:
System Reliability Modeling Techniques
Advanced reliability engineers, analysts
- • Probabilistic failure functions for failure modes
- • Effect propagation modeling, FTAs and RBDs
- • Markov Models and Petri Nets
- • System State vs System Flow modeling
Life-Cycle Costing (LCC) and Economic Decision-Making
Project engineers, asset managers, financial analysts
- • Cost, Costing, and Life-Cycle Cost concepts
- • CAPEX, OPEX, REX, FDEX breakdowns and modeling
- • LCC computational complexity and computing structure
- • Unitaries, cost rates, and cost-rules modeling
Data Analytics and Digital Transformation
Digital engineers, data scientists, asset integrity teams
- • From data to probabilistic descriptions
- • Information systems and analytics infrastructure
- • Introduction to Digital Assets: "A thinking mind for a Plant!"
- • Application examples of digital twins and predictive analytics
Risk, Reliability, and Safety Engineering Modeling
Reliability engineers, HSE professionals
- • Probabilistic vs. Physics of Failure approaches
- • Damage mechanisms and element functions modeling
- • Materials, thermodynamics, and activation energy modeling
- • Risk, reliability, availability and safety representations
FMEA and Advanced System Analysis
Design, maintenance, and quality engineers
- • System functions and various flavours of FMEA
- • Interaction with event modeling
- • Fault Tree Analysis and Reliability Block Diagrams
- • Integration with risk assessment frameworks
Integrated System Analysis and Decision Support
Senior engineers, technical leads, managers
- • System integration and information flow modeling
- • Decision-making support and causality chains
- • From technical performance estimates to business performance
- • Scalar vs. probabilistic values in forecasting
Why Choose Our Training?
Industry-leading training programs designed for professional development
Expert Instructors
Learn from industry professionals with decades of real-world experience
Small Class Sizes
Personalized attention with limited enrollment for optimal learning
Professional Certification
Receive industry-recognized certificates upon successful completion