Gas turbine components and working principle
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Components of a Gas Turbine:
Download PDF: Gas turbine engineering handbook
1. Compressor:
- Function: Compresses incoming air to high pressure, increasing its density and preparing it for combustion. It typically consists of multiple axial or centrifugal stages.
2. Combustion Chamber:
- Function: Mixes the compressed air with fuel and ignites the mixture. The combustion process generates high-temperature, high-pressure gases.
3. Turbine:
- Function: Extracts energy from the high-temperature gases produced in the combustion chamber. The turbine converts thermal energy into mechanical energy, which drives the compressor and produces useful work (e.g., electricity).
4. Shaft:
- Function: Connects the turbine to the compressor, allowing mechanical energy transfer. It may also drive other components, such as generators in power generation applications.
Download PDF: Handbook of turbines, compressors, and fans
5. Nozzles:
- Function: Direct the flow of hot gases from the combustion chamber into the turbine. They are designed to maximize the velocity of the gases as they expand.
6. Exhaust System:
- Function: Guides the spent gases out of the turbine. In some systems, the exhaust heat can be recovered for additional energy through combined cycle processes.
7. Fuel System:
- Function: Delivers the appropriate amount of fuel to the combustion chamber, often using pumps and injectors to ensure proper mixing and combustion.
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8. Control System:
- Function: Monitors and regulates the operation of the turbine, managing parameters like fuel flow, air intake, and turbine speed.
Download PDF: Handbook of gas turbine engineering
Working Principle of a Gas Turbine:
1. Air Intake:
- Ambient air enters the gas turbine through the intake, where it is filtered and directed into the compressor.
2. Compression:
- The compressor compresses the incoming air, raising its pressure and temperature. This process involves multiple stages of rotating blades that increase the air's energy.
3. Combustion:
- The compressed air flows into the combustion chamber, where it is mixed with fuel (such as natural gas or jet fuel) and ignited. The combustion generates high-pressure, high-temperature gases.
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4. Expansion:
- The high-energy gases exit the combustion chamber and pass through the turbine. As the gases expand, they pass over the turbine blades, causing them to spin. This rotation drives the connected compressor and generates mechanical power.
5. Exhaust:
- After passing through the turbine, the gases exit the turbine through the exhaust system. The remaining thermal energy can be utilized in combined cycle setups, where it is used to produce steam and drive a steam turbine for additional power generation.
6. Power Output:
- The mechanical energy produced by the turbine can be used to generate electricity, power aircraft, or drive mechanical equipment in industrial applications.
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