Engineering and Maintenance
Gas Turbine Condition Monitoring and Fault Diagnosis Training

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Gas Turbine Condition Monitoring and Fault Diagnosis Training Course
Introduction:
Course Objectives:
Operators and engineers who are involved with gas turbines, operation and maintenance, and those who have engineering backgrounds and work on gas turbines.
Who Should Attend?
This is an interactive course. There will be open question and answer sessions, regular group exercises and activities, videos, case studies and presentations on best practice. Participants will have the opportunity to share with the facilitator and other participants on what works well and not so well for them, as well as work on issues from their own organizations.
Course Outlines:
- General Introduction on gas turbines
- Basic thermodynamics (entropy, compression and expansion processes, gas turbine cycles)
- Gas turbines background and forma (open cycle gas turbines, the closed cycle gas turbine,
- Uses of gas turbines
- Gas turbine power and sizes
- Gas turbines components
- GT combustion monitoring and protection the combustion chambers
- gas turbines fuels, calculation types, wet and dry analysis, stoichiometric, gravimetric method, air/fuel ratio exhaust gas temperature monitoring
- combustion products, check balance, exhaust gas analysis exhaust gas as pollutants
- combustion intensity, fuel calorific value, upper and low limits
- GT over-speed control and protection
- The basic function of the control system calibrates and cost
- lubrication system, start-up system, ignition, and flaming system, fuel control and governor system
- control and safety system
- Vibration protection
- Vibration in gas turbines, blade, and disc vibration, rotor vibration, flame and casing vibration, noise level, vibration monitoring,
- Ignition and flame control system, fuel control and governor system, control and safety system, Application of vibration analysis
- Hand on equipment
- Case study & Troubleshooting techniques
- GT generators and transformers
- Background, financial, environmental, calculations, overall efficiency, WHB, combined cycle cogeneration, system description,
- Maintenance, preventive maintenance, condition monitoring, endoscopes checking, trend analysis, maintenance documentation & records, cost of maintenance, factors affecting maintenance,
- Case study & Troubleshooting techniques