aerospace propulsion study for shenyang aerospace university by lale420 (final_eaxm_5 )
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1 © Devinder K Yadav
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Engine Indicating Systems
Instruments that indicate oil pressure, oil temperature, engine speed, exhaust gas temperature, and fuel flow are common to both turbine and piston engines. The instruments, which are unique to turbine engines are: • Engine pressure ratio (EPR) indicator • Torque meter.
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Engine Indicating Systems
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Engine Indicating Systems
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Engine
Indicating
Systems
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Engine Indicating Systems
For a typical turbine engine atleast one
of the following variables is monitored to
measure thrust.
• EPR
• N1 (Low pressure compressor shaft)
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Engine Indicating Systems
Thrust:
Engine
Pressure Ratio
(EPR):
The ratio of jet
pipe (Exhaust
duct) pressure to
compressor inlet
pressure 9
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Engine Indicating Systems
Thrust (EPR) Pressure measurements are recorded by probes installed in the engine inlet and at the exhaust. Once collected, the data is sent to a differential pressure transducer, which is indicated on a cockpit EPR gauge.
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Thrust (N1) N1 represents the rotational speed of the low pressure compressor (LPC) and is presented on the indicator as a percentage of design RPM. After start the speed of LPC is governed by the N1 turbine wheel. The N1 turbine wheel is connected to the low pressure compressor through a concentric shaft.
Engine Indicating Systems
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Engine Indicating Systems Engine Speed Measurement
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Engine Indicating Systems
Torque
Turboprop/turboshaft engine power output is measured by the torquemeter. These engines are designed to produce torque for driving a propeller. Torque is a twisting force applied to a shaft. The torquemeter measures power applied to the shaft. Torquemeters are calibrated in percentage units, foot-pounds, or pounds per square inch.
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Engine Indicating Systems
Torque
Torque replaces thrust indication on
turboprop and turboshaft engines
The engine torque or turning moment is
proportional to power and is transmitted
through the propeller reduction gear
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Torque Measurement
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Engine Indicating Systems
Engine Speed
Usually calibrated as a percentage of
maximum engine RPM
Multi spool engines will have gauges for each
spool with the highest number spool always
being the high pressure compressor
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Engine Indicating Systems
Engine Speed (N2)
N2 represents the rotational speed of the high pressure compressor (HPC) and is presented on the indicator as a percentage of design RPM. The high pressure compressor is governed by the N2 turbine wheel. The N2 turbine wheel is connected to HPC through a concentric shaft.
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Engine Indicating Systems
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Engine Indicating Systems
Engine Speed
Turboprop engines may be either fixed
or free turbine
Free turbine engines have RPM broken
down into free turbine RPM (Nf) and gas
generator RPM (Ng)
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Engine Indicating Systems
A limiting factor in a gas turbine engine is the temperature of the turbine section. It must be monitored closely to prevent overheating the turbine blades and other exhaust section components. One common way of monitoring the temperature of a turbine section is with an exhaust gas temperature (EGT) gauge.
Exhaust Gas Temperature (EGT)
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Engine Indicating Systems
Variations of EGT systems bear different names based on the location of the temperature sensors. Common turbine temperature sensing gauges include: • Turbine inlet temperature (TIT) gauge • Turbine outlet temperature (TOT) gauge • Interstage turbine temperature (ITT) gauge •Turbine gas temperature (TGT) gauge.
Exhaust Gas Temperature (EGT)
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Engine Indicating Systems
Turbine Gas Temperature
Ideally should be turbine inlet temperature (TIT)
Probes other than TIT will have compensation
values to equate to TIT
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Engine
Indicating
Systems
EGT Probe
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Engine Indicating EGT System
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Engine Indicating EGT System
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Engine Indicating Systems
Vibration Indicators
Vibration indicators are important when
monitoring very high revving engines
Can often detect pending failure of a
rotating part giving sufficient warning to
shut an engine down before catastrophic
failure occurs
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Engine Indicating Systems
Vibration Indicators
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Engine Indicating Systems
Chip detector
Detects chips or flakes of ferrous metal in
the oil
Consists of two closely spaced magnets
exposed to the lubricating oil
If a ferrous chip bridges the gap between the
magnets a circuit is made that illuminates a
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Engine Indicating Systems
Other indicating instruments
As with reciprocating engines
temperature, pressure, and fuel flows
must also be indicated
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© Devinder K Yadav 1
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Engine Operational Considerations
• Temperature limits • Foreign object damage • Hot start • Compressor stall • Flameout
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Engine Operational Considerations
The highest temperature in any turbine engine occurs at the turbine inlet. Turbine inlet temperature is therefore usually the limiting factor in turbine engine operation.
Temperature limits
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Engine Operational Considerations
Foreign object damage Due to the design and function of a turbine engine’s air inlet, the possibility of ingestion of debris always exists. This causes significant damage to the compressor and turbine sections. It is called foreign object damage (FOD).
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Engine Operational Considerations
Foreign object damage FOD consists of small nicks and dents caused by ingestion of small objects from the ramp, taxiway, or runway. FOD damage caused by bird strikes or ice ingestion can also occur, and may result in total destruction of an engine.
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Engine Operational Considerations
Hot/Hung Start
A hot start is when the EGT exceeds the safe limit. Hot starts are caused by too much fuel entering the combustion chamber, or insufficient turbine RPM. If the engine fails to accelerate to the proper speed after ignition or does not accelerate to idle RPM, a hung start has occurred. A hung start, may also be called a false start. A hung start may be caused by an insufficient starting power source or fuel control malfunction.
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Engine Operational Considerations
Compressor Stall Compressor blades are small airfoils and are subject to the same aerodynamic principles that apply to any airfoil. A compressor blade has an angle of attack. The angle of attack is a result of inlet air velocity and the compressor’s rotational velocity. These two forces combine to form a vector, which defines the airfoil’s actual angle of attack to the approaching inlet air.
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Engine Operational Considerations
Compressor Stall
A compressor stall can be described as an imbalance between the two vector quantities, inlet velocity and compressor rotational speed. It occurs when the compressor blades’ angle of attack exceeds the critical angle of attack. At this point, smooth airflow is interrupted and turbulence is created with pressure fluctuations.
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Engine Operational Considerations
Compressor Stall
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Engine Operational Considerations
Compressor Stall Indication
If the stall develops and becomes steady, strong vibration and a loud roar may develop from the continuous flow reversal. Cockpit gauges will not show a mild or transient stall, but will indicate a developed stall. Typical instrument indications include fluctuations in RPM, and an increase in EGT.
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Engine Operational Considerations
Compressor Stall Recovery • By reducing power • Decreasing the airplane’s angle of attack • Increasing airspeed
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Engine Operational Considerations
Compressor Stall Recovery Most engines have systems that inhibit these stalls. One such system uses variable inlet guide vane (VIGV) and variable stator vanes (VSV), which direct the incoming air into the rotor blades at an appropriate angle. Operate the airplane within the parameters established by the manufacturer.
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Engine Operational Considerations
Flameout It is a condition in the operation of a gas turbine engine in which the fire in the engine unintentionally goes out. Flameout may occurs due to: • Prolonged unusual attitudes • A malfunctioning fuel control system • Turbulence • Icing
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Engine Operational Considerations
Rich Flameout If the rich limit of the fuel/air ratio is exceeded in the combustion chamber, the flame will blow out. This condition is often referred to as a rich flameout. Results from very fast engine acceleration, where an overly rich mixture causes the fuel temperature to drop below the combustion temperature. It also may be caused by insufficient airflow to support combustion.
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Engine Operational Considerations
Lean Flameout Flameout may occurs due to low fuel pressure and low engine speeds, which typically are associated with high-altitude flight. This situation also may occur with the engine throttled back during a descent, which can set up the lean-condition flameout.
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Engine Performance
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Engine Performance
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Engine Performance
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Engine Performance
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Engine Performance
Commercial Ratings • Takeoff (wet) • Takeoff (dry) • Max continuous • Normal rated • Maximum cruise • Idle
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Engine Performance
Commercial Ratings
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Engine Performance
Commercial Ratings
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Engine Performance
Commercial Ratings
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Engine Performance
Commercial Ratings
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Engine Performance
Commercial Ratings
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