Who Should Attend?
Mechanical, electrical and chemical Engineers, Foremen and technicians, control supervisors, Maintenance and safety technicians.
Objective
This course is designed to provide participants better understanding in, gas and steam turbine components design, functions, performance, troubleshooting, operation, maintenance and safety for gas and steam turbine. Overhaul and assembly, control systems and vibration problems in gas and steam turbines.
Organisation Responsibility
To Design Syllabus for the course,
to meet all the requirements described.
To prepare a manual [hard & soft copy]
To Nominate an Instructor who has the expertise & high qualifications in
the field.
To apply sophisticated training techniques to enable the participants to develop
the required skill.
To schedule the period of the course & the daily time table
To Determine the venue & the date of the course [In-house courses will be
negotiable]
Course program
Day 1:
0730 – 0800 |
Registration and welcome |
0800 – 1000 |
A Gas Turbine 1. Principle design and operation of gas turbine: Turbine blade design, Combustion chamber design, & Compressor design. |
1000 – 1020 |
Break |
1020 – 1220 |
Exhaust systems design, Nozzles and diffusers design, & Operation of gas turbine. |
1220 – 1320 |
Lunch Break |
1320 – 1500 |
2. Construction, installation and component of gas turbine: Methods and technology of construction, & Installation procedure and their precaution. |
1500 – 1520 |
Break |
1520 – 1630 |
Component of gas turbine and their function, & The specifications of materials used for gas turbine components. |
Day 2:
0730-0800 |
Coffee & Social Meeting |
0800-1000 |
3. Thermodynamics, Fluid mechanics, heat transfer and combustion in gas turbine: Thermodynamic principle and theory, Properties of fluid flow via gas turbine components, & The effect of boundary layer on the flow around the gas turbine blade. |
1000-1020 |
Break |
1020-1220 |
Heat transfer and cooling system of gas turbine, & Combustion process and chemical reaction in gas turbine. |
1220-1320 |
Lunch break |
1320-1500 |
4. Performance and shaft power cycles for gas turbine: Performance parameters, and Brayton cycle, Single-shaft and split shaft gas turbine, Theory of compression cycles, Theory of expansion cycles, Optimum design of gas turbine, & Efficiency and power output from gas turbine .
|
1500-1520 |
Break |
1520-1630 |
5. Running parts and auxiliaries in gas turbine: Fuel system and their specification, & Oil system in gas turbine. |
Day 3:
0730-0800 |
Coffee & Social Meeting |
0800-1000 |
6. Trouble shooting & maintenance in gas turbine: Bearing and seals, Vibration and its effect, Scheduled maintenance processes, Unscheduled maintenance processes, & General maintenance and shutdown maintenance. |
1000-1020 |
Break. |
1020-1220 |
7. Control strategies in gas turbine and monitoring: Control based logic system, Gas turbine protection system, & Fuel control system. |
1220-1320 |
Lunch Break |
1320-1500 |
Temperature, pressure and power control system, Types of condition monitoring, Principle of effective monitoring, & Computerized logging and monitoring. |
1500-1520 |
Break. |
1520-1630 |
8. Safety and environmental strategies for gas turbine: Safe running procedure for gas turbine, Overhaul safety features for gas turbine, & Gas turbine exhaust gasses and their effect to the environment. |
Day 4:
0730-0800 |
Coffee & Social meeting |
0800-1000 |
B Steam Turbine 1. Introduction: Why mechanical drive steam turbines are applied, Steam turbine fundamentals, Over view of steam turbine types & controls, The formation of steam, & Steam turbine classification. |
1000-1020 |
Break |
1020-1220 |
2. Turbine casing & major stationary components: Casing design & steam admission sections, Steam turbine diaphragms & labyrinth packing, Bearing for mechanical drive turbines, Rotors for Impulse & Reaction turbines, Turbine blade design overview, & Turbine Auxiliaries. |
1220-1320 |
Lunch Break |
1320-1500 |
3. Boiler: Properties of boiler materials, Strength of shell, Boiler fixtures & attachments, Boiler accessories, Boiler operation, & Boiler repairs. |
1500-1520 |
Break. |
1520-1630 |
4. Governors & control systems: Governor system terminology, NEMA classifications, & PG Governors & electronic governors. |
Day 5:
0730-0800 |
Coffee & social meeting |
0800-1000 |
5. Steam turbine accessories: Boiler feed pump, Economizers, Feed water & deaeration, treatment methods, regulator, & Injectors & safety valves. |
1000-1020 |
Break |
1020-1220 |
6. Steam turbine troubleshooting & maintenance: Consideration of turbine steam path maintenance strategy, Steam path component alignment and stage spatial requirements, Steam path damage induced by water, Operational events giving rise to steam path damage, & Steam oath damage and deterioration from material property degradation and contaminants. |
1220-1320 |
Lunch break |
1320-1500 |
Operating damage mechanisms and refurbishment techniques for stationary components and rotating blades, Seals, glands and sealing system, Quality assurance for replacement and refurbished steam-turbine components, & The manufacture and inspection requirements of steam turbine blades. |
1500-1520 |
Break |
1520-1600 |
Ending the course ceremony, certificates & evaluation of the course |