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15.1 Basic Principles
Potential energy, kinetic energy, Newton's laws of motion, Brayton cycle;
The relationship between force, work, power, energy, speed, and acceleration;
Structural adjustments and operation of turbojet, turbofan, turboshaft, and turboprop engines. |
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| 2 |
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15.1 Basic Principles
Potential energy, kinetic energy, Newton's laws of motion, Brayton cycle;
The relationship between force, work, power, energy, speed, and acceleration;
Structural adjustments and operation of turbojet, turbofan, turboshaft, and turboprop engines. |
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| 3 |
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15.2 Engine Performance
Gross thrust, net thrust, converging nozzle thrust, thrust distribution, resultant thrust, thrust horsepower, equivalent shaft horsepower, specific fuel consumption (SFC);
Engine efficiencies;
Bypass ratio and engine pressure ratio;
Pressure, temperature, and velocity of gas flow;
Engine "ratings", static thrust, speed-altitude-temperature effects, flat rating limitations. |
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| 4 |
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15.2 Engine Performance
Gross thrust, net thrust, converging nozzle thrust, thrust distribution, resultant thrust, thrust horsepower, equivalent shaft horsepower, specific fuel consumption (SFC);
Engine efficiencies;
Bypass ratio and engine pressure ratio;
Pressure, temperature, and velocity of gas flow;
Engine "ratings", static thrust, speed-altitude-temperature effects, flat rating limitations. |
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| 5 |
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15.2 Engine Performance
Gross thrust, net thrust, converging nozzle thrust, thrust distribution, resultant thrust, thrust horsepower, equivalent shaft horsepower, specific fuel consumption (SFC);
Engine efficiencies;
Bypass ratio and engine pressure ratio;
Pressure, temperature, and velocity of gas flow;
Engine "ratings", static thrust, speed-altitude-temperature effects, flat rating limitations. |
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| 6 |
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15.3 Inlet
Compressor inlet ducts;
Effects of different inlet configurations;
Ice protection systems. |
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| 7 |
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15.3 Inlet
Compressor inlet ducts;
Effects of different inlet configurations;
Ice protection systems. |
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| 8 |
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MID-TERM EXAM |
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| 9 |
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15.4 Compressors
Axial and centrifugal types;
Structural characteristics, operating principles, and applications;
Fan balancing;
Compressor operation: Stall and surge, their causes, and effects;
Airflow control methods: Bleed valves, variable inlet guide vanes, variable stator vanes, rotating stator blades;
Compressor ratio. |
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| 10 |
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15.4 Compressors
Axial and centrifugal types;
Structural characteristics, operating principles, and applications;
Fan balancing;
Compressor operation: Stall and surge, their causes, and effects;
Airflow control methods: Bleed valves, variable inlet guide vanes, variable stator vanes, rotating stator blades;
Compressor ratio. |
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| 11 |
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15.4 Compressors
Axial and centrifugal types;
Structural characteristics, operating principles, and applications;
Fan balancing;
Compressor operation: Stall and surge, their causes, and effects;
Airflow control methods: Bleed valves, variable inlet guide vanes, variable stator vanes, rotating stator blades;
Compressor ratio. |
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| 12 |
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15.4 Compressors
Axial and centrifugal types;
Structural characteristics, operating principles, and applications;
Fan balancing;
Compressor operation: Stall and surge, their causes, and effects;
Airflow control methods: Bleed valves, variable inlet guide vanes, variable stator vanes, rotating stator blades;
Compressor ratio. |
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| 13 |
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15.5 Combustion Section
Structural characteristics and operating principles. |
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| 14 |
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15.5 Combustion Section
Structural characteristics and operating principles. |
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| 15 |
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15.5 Combustion Section
Structural characteristics and operating principles. |
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| 16 |
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FINAL EXAM |
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| 17 |
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FINAL EXAM |
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