Powerplant Flashcards
Max Takeoff Power SHP
5071 SHP
Describe Nl
Low pressure axial compressure
Describe Nh
High pressure centrifugal compressor
What is the engine accessory gear box driven by?
high pressure (Nh) compressor rotor
What components are on the engine accessory gear box?
Fuel Metering Unit (FMU)
Oil Pump
DC Starter-Generator
Permanent Magnet Alternator (PMA)
What drives the propeller reduction gear box?
power turbine shaft
How much extra power does the FADEC deliver when the power levers are over-traveled past the rating detent?
25%
What components are mounted on the propeller reduction gear box?
Hydraulic Pump (main engine-driven pump)
AC Generator
Pitch Control Unit (PCU)
Propeller Overspeed Governor (POG)
Maximum reverse thrust SHP
1500 SHP
Describe the FMU.
The electro-mechanical Fuel Metering Unit is mounted on and driven by the engine accessory gearbox and controls fuel flow to the engine based on signals from the FADEC.
How many fuel pumps are in the FMU?
two integral engine driven fuel pumps; a low pressure pump and a high pressure pump
What are the functions of the FADEC?
controls engine fuel flow
controls various engine bleed valves to prevent compressor surges and stalls
prevents engine overspeed
controls automatic start and shutdown
supplies voltage to the Propeller Electronic Control (PEC)
detects and indicates powerplant faults
Electrical power source for the FADEC
Permanent Magnet Alternator (PMA) driven by the accessory gearbox when Nh is above 20%; essential DC bus initially
Describe how the FMU uses fuel pumps to meter fuel.
The low pressure pump receives low pressure fuel from the fuel tank boost ejector pump and sends it to the heater/filter element. After being heated and filtered the fuel is routed to the high pressure pump which sends it to the metering valve and then to the engine fuel nozzles. A portion of the high pressure fuel returns to the fuel tank to provide the motive flow necessary for the operation of the fuel tank ejector pumps.
Describe a FADEC critical fault.
FADEC will automatically respond to a critical fault with either a power stabilization to flight idle or engine shutdown.
Describe a FADEC Cautionary Fault.
condition that requires caution when applying control inputs; may result in either the necessity to reposition power levers to maintain symmetrical torque, or power lever movement that causes engine surge
Describe a FADEC Advisory Fault.
automatically accommodated by the FADEC and does not result in the illumination of warning lights or caution lights; transmits fault code to the Engine Monitoring Unit (EMU)