ATA 49 APU - Issue 6 January 2023_Compress.pdf

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BOMBARDIER DHC 8-400 (PWC PW150)

ATA 49 - AUXILIARY POWER UNIT
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

B1/B2 MAINTENANCE TRAINING MANUAL

Issue 6 - January 2023
Page 1 of 98

BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
INTRODUCTION
The Auxiliary Power Unit (APU) provides 28V DC electrical power and bleed air to
the aircraft systems. This permits these systems to operate without the use of ground
power sources or the aircraft engines.
The Hamilton Sundstrand APS 1000 Model (T62T-46C12) APU is a turbine-powered
system used to give auxiliary DC electrical power for the aircraft electrical system and
bleed air for the Environmental Control System (ECS). The APU is a non-essential
system and cannot be operated when the aircraft is in flight.

GENERAL DESCRIPTION
The APU engine and its associated components are installed in the tail cone.
The gas turbine engine drives the gearbox module. The gearbox module reduces the
turbine RPM and drives a starter/generator, APU fuel pump and an internal oil pump.
The APU gives bleed air to the ECS and the 28V DC to the right main feeder bus.
The APU has a control/monitoring system, an air induction/compression system, an
exhaust system, a reduction gearbox and a combination starter/generator.
The APU incorporates:
•
•
•
•
•
•
•
•
•
•
•

An air induction/compression system
An exhaust system
A reduction gearbox
A lubrication system
An ignition system
A combination starter/generator
Full Authority Digital Electronic Controller (FADEC)
A control/monitoring system
A control panel
Interconnect harness
Centralized Diagnostic System (CDS) interface

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

OIL SYSTEM PARAMETERS:

GENERAL DESCRIPTION CONTINUED
LEADING PARTICULARS
WEIGHT

140 lbs (dry)

OPERATING ALTITUDE

-1000 TO 15,000 ft (Ground Mode Only)

OIL PRESSURE

35 PSIG (minimum) 60 PSIG (maximum)

OIL TEMPERATURE

275 F (135 C) (maximum)

OIL TYPE

MIL-L-7808
-54°C to +54°C (-65°F to +130°F)
MIL-L-23699
-40°C to +54°C (-40°F to +130°F)

CAUTION:

SEA LEVEL 59 F (15 C) STANDARD DAY:
FUEL CONSUMPTION

202 lb/hr (20 SHAFT HORSEPOWER 84 lb/min
BLEED FLOW)

OUTPUT SHAFT HORSE POWER

60 HP

ROTOR SPEED

100% (64,154 RPM)

ROTOR OVERSPEED

105% (67,362 RPM)

ROTOR UNDERSPEED

95% (54,531 RPM)

BLEED AIRFLOW

113 LBS

BLEED AIR PRESSURE

48 PSIG

DO NOT MIX OR SUBSTITUTE OIL TYPES.
USE ONLY ONE OF THE APPROVED OILS.
IF APU OIL SUMP LEVEL IS LOW AND THE SAME TYPE OF OIL IS
UNAVAILABLE OR UNKNOWN, DRAIN THE OIL SUMP AND CHANGE THE OIL
FILTER.
FILL THE SYSTEM WITH AN APPROVED OIL.

EXHAUST GAS TEMPERATURE (EGT):
Start Acceleration

1890°F (1032°C)

Steady State

1324°F (717°C)

GEARBOX SPEEDS:
Input

64,154 RPM

Starter/Generator

11,860 RPM (output)

Fuel Pump

4,186 RPM (output)

Oil Pump

4,379 RPM (output)

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

INTENTIONALLY LEFT BLANK

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
•
•

AUXILIARY POWER UNIT

Starter/Generator
Fuel control pump

SYSTEM DESCRIPTION
The APU control has a FADEC and various valves, sensors, relays and switches. The
FADEC controls, monitors and diagnoses all phases of the APU system operation
through these components. The FADEC also communicates fault information to the
aircraft CDS through an ARINC link. The CDS displays the fault information on the
ARCDU units for maintenance troubleshooting, when APU PWR selected ON.
The FADEC controls the APU start, fuel flow, ignition, acceleration to 100% speed,
and shutdown. The FADEC monitors engine speed, EGT, oil temperature, oil pressure,
and ambient pressure. During operation, the APU rotor speed is kept at a constant
RPM.
Abnormal conditions during operation are recorded as faults in the FADEC Non Volatile
Memory. The FADEC provides the necessary sequencing, condition monitoring, fault
detection, fault isolation and protection of the APU System. The FADEC also performs
the interface functions between the aircraft and the APU.
The air induction system consists of an air inlet system located in the aircraft tail cone.
The air induction system provides outside air to the APU compressor. Some of the
compressed air is bled off the APU and delivered to the aircraft Environmental Control
System. A bleed control valve controls the flow of air.
The remaining compressed air is heated in a combustor using fuel provided by the
APU fuel system, the combustion products then drive the turbine wheel. The energy
released drives the compressor and the gearbox.
The gearbox drives the starter/generator and the fuel pump. The exhaust gases exit
the APU through the exhaust system.
The gearbox assembly is a one piece aluminium casting with mounting pads for
the engine and gearbox drive accessories. The gearbox also drives the following
accessories:
•

Oil pump

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
Page 6 of 98

BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU/COMPONENT LOCATOR

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
SYSTEM DESCRIPTION CONTINUED
POWER-PLANT
The Auxiliary Power Unit (APU) gives electrical power to the aircraft right main bus,
and bleed air to the Environmental Control System (ECS), when the aircraft is on the
ground.
The APU power-plant is installed in the tail-cone which has interfaces for the APU fuel
line, electrical connections, air inlet assembly, exhaust, starter/generator duct system,
fire detection and the fire extinguishing system.
The Auxiliary Power Unit (APU) is located in a fireproof titanium compartment which
forms the tail cone of the aircraft.
The front of the panel is closed by a titanium firewall. Access to the APU is through
two hinged doors that are part of the tail cone structure.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU ACCESS AND LOWER INTAKES

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
SYSTEM DESCRIPTION CONTINUED
POWER-PLANT CONTINUED
The APU is mounted to the empennage structure and to the tail cone by a three point
mounting system. The two forward mounts are attached to the gearbox and the rear
mount is attached at the top of the APU.
A fish pole hoist is used to install and remove the APU. The hoist is attached to a lug
in the APU compartment and uses quick connects to the APU front and rear lifting
brackets.
The APU is divided into three modules
•
•
•

Turbine Module
Combustor Module
Gearbox Module

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU LOCATION IN TAILCONE

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
COMPONENT LOCATION AND DESCRIPTION
APU ELECTRICAL HARNESS
The engine control harness assembly consists of 15 electrical connectors and
associated connecting wires.
When installed on the APU engine assembly, the engine control harness assembly
gives the electrical interface between the electrical components and the connection
at the tail-cone firewall bulkhead.

INTERCONNECT ELECTRICAL HARNESS
The electrical interconnect harness carries the electrical interface from the connection
point on the tail-cone firewall bulkhead, to the APU Full Authority Digital Electronic
Control (FADEC) which is installed in the rear equipment bay.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU ELECTRICAL HARNESSES AND INTERCONNECT

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

The upper end of the aft mount is attached to the lower side of the centre upper beam
in the tail-cone structure.

COMPONENT LOCATION AND DESCRIPTION CONTINUED
MOUNTS
Mounts are used to support the APU and give vibration isolation to the aircraft
structure. The Auxiliary Power Unit mounting system is designed to be failsafe. Max
limit flight loads will be supported with any single component failure. In the event of
fire, the elastomer may be melted but the mount will snub and the APU location will
be maintained within a safe envelope. The mounting system includes the components
that follow:
•
•
•
•

NOTE:
A lifting eye is located aft of the upper mount. It is the hoist attachment point
used APU installation and removal.

Six side mount struts
Two gearbox mounts
One aft mount
One aft strut

SIDE MOUNTS
The two APU side mounts provide two of the three vibration isolated, failsafe supports
for the APU in the tail-cone structure.
Each mount has three strut assemblies in a tripod arrangement, a strut bracket, two
part vibration isolator, gearbox isolator mount and isolator snubbing washer.
Each strut terminates in a standoff fitting attached to the spar of the vertical stabilizer.
The firewall incorporates a cup around each fitting, sandwiched between the fitting
and the spar.

AFT MOUNTS
The aft APU mount is the third, of the three, vibration isolated, failsafe supports for the
APU. The lower end of the aft mount is attached to the APU at the uppermost point of
the turbine combustor flange.
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU FRONT AND TOP MOUNTS

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
COMPONENT LOCATION AND DESCRIPTION CONTINUED
INLET DUCT
The duct (silencer) interfaces with the aircraft air inlet system to supply ambient air to
the APU compressor. The duct is a fireproof, acoustically treated, bonded assembly.
The duct has a glassfibre/phenolic resin outer shell of approximately rectangular
section, lined with Nomex/phenolic resin honeycomb. This lining has Felt metal
acoustic material bonded to the inner surface for improved sound suppression. An
inlet screen doubler assembly is sandwiched between the inlet duct flange and the
tail-cone inner surface.
At the bottom end of the duct where it attaches to the APU is a fireproof silicone
rubber seal. It is used to prevent tail-cone compartment air from entering the APU
inlet system, while allowing for minor misalignment and relative motion between the
APU and the structure.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU INLET DUCT

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
COMPONENT LOCATION AND DESCRIPTION CONTINUED
APU EXHAUST AND TAIL-CONE VENTILATION
The exhaust system has an exhaust nozzle and a silenced exhaust duct. These
components are not connected and are arranged to form an ejector system for tailcone ventilation. Exhaust gas is discharged from the duct through an upwards pointing
outlet at the aft end of the duct.
NOTE:
The exhaust nozzle is removed as part of the APU. The exhaust duct is easily
removed after first removing the APU.
Tail-cone ventilation is achieved by using the APU exhaust flow to drive the ejector
system. This system cools the APU and tail-cone section.
Ambient air enters the tail-cone through a 4” diameter cut-out near the bottom
centreline of the tail-cone between the firewall and the access door. This cut-out is
protected by a stainless steel 0.25” mesh screen which is located between a riveted
titanium doubler and the tail-cone skin. From the cut-out the air is ducted by a tube to
the area immediately in front of the oil sump to assist in oil cooling.
The air then flows around the APU before being educted into the exhaust ejector gas
flow. Soak-back cooling after shutdown is accommodated by convective flow primarily
through the normal ventilation system, as the exhaust duct outlet is the highest point
of the system. This is supplemented by flow around the outside of the exhaust duct,
which has a diametral clearance with the tail-cone structure.
NOTE:
Operating the APU with the access doors open may result in an oil over heat
automatic shutdown.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU EXHAUST AND TAILCONE VENTILATION

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
COMPONENT LOCATION AND DESCRIPTION CONTINUED
APU DRAINS
Drain connections are supplied for:
•
•
•
•

Fuel pump drive
Gearbox breather
Inlet plenum
Combustor housing

These connections have stainless steel tubes to connect them to the drain mast. The
drain mast is titanium, airfoil shaped and protrudes through the left door of the tailcone. The mast has a separator plate to segregate the inlet plenum (front) drain from
the other drains to prevent ingress of flammable fluids into the inlet.
The combustor housing drain valve is threaded into the combustor drain boss.
The valve is closed during engine operation by air pressure in the combustor housing.
The valve is spring-loaded open when the engine is shut down, to let any accumulation
of fuel in the combustor drain into the combustor drain system.
All intercostals and frames in the tail-cone and doors, have drain cut-outs or holes at
the lowest point to prevent the accumulation of liquids in the tail cone.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU DRAINS

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE
GENERAL DESCRIPTION
The engine assembly of the Auxiliary Power Unit (APU) supplies shaft power to the
gearbox module which has mounting pads for the starter/generator, and fuel control
unit. Bleed air from the compressor section is supplied to the Environmental Control
System (ECS) through a port on the right side of the engine.
The Engine Assembly is a single-spool, gas turbine engine with a single-stage
centrifugal compressor, an annular combustor and a single-stage radial inflow turbine.
A Full Authority Digital Electronic Controller (FADEC) controls operation of the Engine
Assembly.
The engine assembly has the following three modules:
•
•
•

Turbine Module
Combustor Module
Gearbox Module

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - ENGINE MODULES

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

prevents compressor discharge air from bypassing the combustor.

ENGINE

TURBINE NOZZLE/CONTAINMENT ASSEMBLY

COMPONENT LOCATION AND DESCRIPTION

The Nozzle/Containment assembly has a containment ring and a turbine nozzle.
The turbine nozzle is attached to the containment ring by seven radial pins.

TURBINE MODULE

Four bolts that pass through the diffuser and the air intake housing secure the
complete assembly by fasteners on the forward side of the air intake housing.

The turbine module has the following components:
•
•
•

Inside the turbine nozzle are 21 vanes, which direct the high velocity gas stream to
the turbine wheel. Hot gas flows through the wheel and discharges axially through the
turbine exhaust. Rotational energy derived from the hot gas flow stream by the turbine
wheel drives the compressor and the shaft loads imposed by the generator and APU.

Air Inlet Housing
Balanced Rotor Assembly
Turbine Nozzle/Containment Assembly

AIR INLET HOUSING
The Auxiliary Power Unit (APU) Air Inlet Housing assembly interfaces with the air inlet
system to supply ambient air to the APU compressor.
The air inlet housing supplies air to the compressor and provides a rigid support
between the gearbox and combustor assemblies.
The cast Inconel housing serves as the air inlet and supports the rotating assembly,
diffuser and turbine nozzle containment assembly.
The housing also provides containment for the compressor wheel of the rotor assembly
in the event an over-speed above 110% causes the rotor assembly to burst.

BALANCED ROTOR ASSEMBLY
The single stage rotor is a balanced assembly that has an overhung radial compressor
wheel and turbine wheel positioned on a two-bearing shaft system.
The bearings are located in the air intake housing.
A stationary segmented seal plate between the compressor and turbine wheel
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - COMBUSTOR AND TURBINE ASSEMBLIES

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE
COMPONENT LOCATION AND DESCRIPTION CONTINUED
COMBUSTOR MODULE
The combustor module includes the following components:
•
•

Combustor Housing
Combustor Liner

The combustor housing is attached to the air inlet housing with bolts.
The Combustor Module consists of the combustor housing, combustor liner, start and
main fuel nozzles, fuel manifolds, and associated hardware.
A 2.5 inch bleed port is provided on the right side of the combustor housing for the
extraction of bleed air for the Environmental Control System (ECS).
Compressed air from the impeller is discharged into the combustor housing which
forms a plenum surrounding the combustion chamber liner. When required, bleed air
is ducted off this plenum and the remainder of the air enters the combustion chamber
liner through dilution holes.
Combustion takes place within the annular type combustor chamber liner, in the
vicinity of the fuel injectors. Dilution air is added to produce a uniform flame and
subsequent hot gas stream. Two start nozzles, six air atomizing fuel injectors, two
ignitors and one radial pin go through the combustor chamber and help to locate it in
the housing.
A single combustor drain valve is threaded into the combustor drain boss. The drain
valve is closed during engine operation by air pressure in the combustor housing.
The valve is spring loaded open when the engine is shutdown. This ensures any
accumulation of fuel in the combustor is drained overboard through the combustor
drain system.
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - COMBUSTOR MODULE

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE
COMPONENT LOCATION AND DESCRIPTION CONTINUED
GEARBOX MODULE
The gearbox housing is a machined aluminium casting. The casting provides, at the
bottom, a fireproof oil sump. All gear shafts are supported in the housing by roller
and ball bearings. The aft section of the gearbox provides a flange for the attachment
to the engine turbine module. The gearbox has a main output pad for the starter/
generator and a second pad for the fuel control/pump assembly.
Bosses on the housing allow for the mounting of high oil temperature and low oil
pressure switches.

GEAR REDUCTION SPEEDS
The gearbox module provides for the reduction of the turbine rotor speed to those
speeds that are required for starter/generator, fuel pumps, and oil pump drives. The
input quill drives a set of fixed star gears, which transfer power to a ring gear. The oil
pump gear is driven from the output shaft.
The fuel pump gear is driven through a single idler gear. The fuel pump gear includes
an air/oil separator for gearbox venting.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - GEARBOX MODULE GEAR ROTATIONS

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
INTRODUCTION
The Engine Fuel and Control System delivers the fuel required to start and maintain a
constant 100% RPM under varying load conditions and field elevations.

•
•
•
•
•
•
•
•
•
•

Start Fuel Valve
Main Fuel Valve
Flow Divider
Purge Check Valve
Start Fuel Nozzle
Main Fuel Nozzle
Start Fuel Manifold
Main Fuel Manifold
Fuel Filter Assembly
Fuel Filter Element

The Engine Fuel and Control system monitors and supplies fuel to the APU. The
system automatically compensates for field elevation and APU load conditions.
Operation of the APU is controlled by the FADEC engine control system.

GENERAL DESCRIPTION
Fuel delivery to the APU fuel control and pump assembly is by gravity from the left
wing fuel tank.
The APU fuel valve is opened and closed by the FADEC during normal start and stop
operations. The APU fuel valve is also closed during the following conditions:
•
•
•
•

Auto shutdown relay
APU caution relay
Weight off wheels (WOFFW) signal from the PSEU
Fire Control amplifier

APU fuel valve status is shown on the Fire Protection Panel (FPP) in the flight
compartment.
The Full Authority Digital Electronic Control (FADEC) supplies the signals that operate
the fuel control of the APU.
The system has the components that follow:
•
•

FADEC
Fuel Control Assembly

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU FUEL VALVE CONTROL ELECTRICAL SCHEMATIC

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
GENERAL DESCRIPTION CONTINUED
SYSTEM DESCRIPTION
The gearbox driven fuel control receives fuel from the aircraft fuel system.
Fuel flows through the low pressure centrifugal fuel pump to the fuel/oil cooler, fuel
filter, high pressure fuel pump, the fuel servo valve and to the fuel solenoid manifold
assembly. Excess fuel is circulated through the relief valve across the high pressure
fuel pump. A differential pressure valve is in parallel with the fuel servo valve to
maintain a constant differential pressure across the fuel servo valve. This results in a
fuel flow linear relationship to the servo current command from the FADEC.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU FUEL SYSTEM SCHEMATIC

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
SYSTEM DESCRIPTION CONTINUED
The Auxiliary Power Unit (APU) receives fuel from the aircraft left wing tank. Fuel
flows to the APU when the APU fuel shutoff valve is open.
Pushing the APU Control Panel PWR switch ON causes the FADEC to send 28V DC
to open the valve.
At start initiation, the Full Authority Digital Electronic Control (FADEC) records the
Exhaust Gas Temperature (EGT). This EGT value is used for reference during the
start sequence where specific rises in EGT need to occur before the start sequence
can continue. The FADEC also records the ambient air pressure for field elevation
compensation of the fuel supply. During the start sequence the FADEC uses signals
from the speed sensor to initiate the transition to each successive stage of the start
sequence and then to monitor Auxiliary Power Unit (APU) operation for over-speed/
under-speed conditions.

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TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU FUEL FEED SYSTEM

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
SYSTEM DESCRIPTION CONTINUED
FADEC
The Full Authority Digital Electronic Controller (FADEC) is a microprocessor based
controller. The FADEC has the necessary functions for control sequencing, condition
monitoring, fault detection, fault isolation and protection of the APU system. The
FADEC also transmits fault and maintenance data to the aircraft Centralized Diagnostic
System (CDS) through an ARINC 429 data link. This data is used to provide APU
maintenance information.
During operation FADEC also monitors the:
•
•
•
•

Exhaust gas temperature
Oil pressure
Oil temperature
Turbine speed

The conditions that follow will cause an APU shutdown:
•
•
•
•
•
•
•
•
•
•
•
•
•

Power switch OFF
Oil pressure <35 psig (241 kPag)
Oil temperature >275°F/135°C
EGT >1890°F/1032°C on start
EGT >1324°F/718°C during run
Turbine speed <95%
Turbine speed >105%
Starter/Generator Overheat
Weight off wheels signal (from the PSEU)
Fire (test)
Fire (detected)
Loss of both EGT sensors
Loss of both speed sensors

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU CONTROL SCHEMATIC

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

EVENT

14-17

FADEC
initiates
updates to
EGT, AMB, Oil
Data

On

On

Off

START SEQUENCE

50

Starter
switched off

Off

On

Off

The Full Authority Digital Electronic Control (FADEC) controls the fuel flow to provide
starting and operation of the Auxiliary Power Unit (APU).

60

GCU
ready to
generate

Off

On

Off

The start sequence begins with the momentary start command signal from the APU
CONTROL panel.

70
+ 60 msec

Start fuel
valve
De-energized

Off

On

Off

85
Ignition
turned
off

Off

On

Off

95
+ 3 sec

APU
Ready To Load

Off

Off

ENGINE FUEL AND CONTROL
SYSTEM DESCRIPTION CONTINUED

This opens the fuel servo valve.
The start fuel valve is energized open at 3% gas generator (Ng) speed and fuel flows
to the two start nozzles and is ignited by the two ignitors.
When 70% Ng speed is reached the main fuel valve is energized open and fuel flows
to six additional main fuel nozzles.

START LIGHT WARN LIGHT

RUN LIGHT

% RPM

On

A flow divider valve that is located in the fuel solenoid manifold assembly opens when
fuel pressure reaches 300 psid (2068.4 kPad).
The valve makes sure proper fuel pressure is maintained and limited to the start
nozzles.
The start fuel valve stays open until 70% Ng speed is reached and then is deenergized closed.
At this time, the purge check valve, located down stream of the start fuel valve, opens
to push residual fuel from the start fuel manifold and nozzles.
The start fuel check valve is opened by APU compressor air pressure (PCD) when
fuel pressure is no longer present. The valve supplies a continuous PCD air flow
through the nozzles during APU operation.
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - START SEQUENCE

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
SYSTEM DESCRIPTION CONTINUED
STOP SEQUENCE
The stop sequence can begin in one of two methods:
Full Authority Digital Electronic Control (FADEC) generated auto shutdown:
•
•
•
•
•
•
•
•
•
•
•

Illogical switch input example: - APU ON switch pushed while either Weight
Off Wheels (WOFFW) signal from the PSEU is present
Airborne operation
Low oil pressure
Both speed signals failed
Over-speed
Under-speed
Both EGT probes fail
High EGT
Main fuel valve failed (open, short, stuck)
High oil temperature
FADEC internal timer fail

Aircraft generated auto shutdown:
•
•
•
•
•

APU fire detection system
APU fire bottle low pressure
Generator overheat
#1 WOW indicating air mode
#2 WOW indicating air mode

At any time that a major failure is detected by the FADEC, the APU is automatically
shutdown. The ‘fault’ signal closes the fuel valves and illuminates the APU Caution
light in the flight compartment, the WARN annunciation on the APU control panel, and
extinguishes the RUN light.
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - STOP SEQUENCE

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION
FUEL CONTROL ASSEMBLY
The servo valve is energized open at start up. The fuel servo receives milliamp signals
from the Full Authority Digital Electronic Control (FADEC) to maintain 100% Ng speed
during all APU load conditions.
In the shutdown sequence the FADEC maintains current to the fuel servo valve for 0.5
seconds and then de-energizes the valve.
The differential pressure valve is in parallel with the fuel servo valve to maintain a
constant 100 psi differential pressure across the fuel servo valve. This results in a fuel
flow linear relationship to the servo current command from the FADEC.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU FUEL CONTROL ASSEMBLY LOCATION

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
START FUEL VALVE
The start fuel valve is installed on the fuel solenoid manifold assembly.
The valve is energized open at 3% Ng speed and fuel flows to the two start nozzles
and is ignited by the ignitors The valve stays open to 70% Ng speed + 60 msec and
then is de-energized closed.

MAIN FUEL VALVE
The main fuel valve is installed on the fuel solenoid manifold assembly.
The valve is energized open when 70% Ng speed is reached to allow fuel flow to the
six main fuel nozzles. The valve stays open during engine acceleration and throughout
engine operation.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU START FUEL VALVE AND MAIN DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
COMBUSTOR DRAIN CHECK VALVE
The valve is threaded into the combustor drain boss and is closed, during engine
operation, by air pressure in the combustor housing. The valve is spring loaded open
when the engine is shut down, to let any accumulation of fuel in the combustor drain
into the combustor drain system.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - COMBUSTOR DRAIN AND CHECK VALVE

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
FLOW DIVIDER (AND PURGE CHECK VALVE)
The flow divider valve is located in the fuel solenoid manifold assembly.
The valve opens when start fuel pressure reaches 300 psi (2068.4 kPa). This will
make sure proper fuel pressure is maintained and limited to the start nozzles.
The purge check valve is spring loaded and is opened by the engine compressor air
pressure (PCD) when start fuel pressure is not present.
The open purge check valve routes a continuous flow of air from the compressor to
purge the residual fuel from the start fuel manifold and start nozzles. The air flow also
cools and prevents the fuel from coking the start nozzles.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU FLOW DIVIDER AND PURGE CHECK VALVE

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
START FUEL NOZZLE
The two start fuel nozzles are threaded into individual nozzle assemblies and installed
in the combustor housing with bolts.

START FUEL MANIFOLD
The flexible start fuel manifold is located on the engine combustor housing and
supplies fuel to the two start fuel nozzles.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - START FUEL MANIFOLD AND NOZZLES LOCATOR

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
MAIN FUEL NOZZLE
The six fuel nozzle assemblies are installed in the combustor housing with bolts.

MAIN FUEL MANIFOLD
The main fuel manifold is flexible and is attached around the engine combustor
housing. The manifold supplies fuel to the six fuel nozzle assemblies.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - MAIN FUEL MANIFOLD AND NOZZLES DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
FUEL FILTER ASSEMBLY
The low-pressure, 10 micron fuel filter protects the fuel control from contamination.
The filter differential pressure indicator and bypass valve are located on the side of
the filter housing. The impending bypass indicator gives a visual warning when fuel
flow through the filter becomes restricted and a pressure differential of 1 to 2 psid
(6.89 to 13.8 kPad) occurs. The filter bypass valve will open at a pressure differential
of 7 psid (48.3 kPad) to let fuel bypass the filter and maintain flow through the system.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - FUEL FILTER LOCATOR

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
DATA MEMORY MODULE
The Data Memory Module (DMM) is a solid state unit located on the bottom side of
the Auxiliary Power Unit (APU). The DMM stores APU operating hours, fault history
(50 shutdowns and advisory faults), plus APU and Full Authority Digital Electronic
Control (Full Authority Digital Electronic Control (FADEC) serial numbers.
The FADEC updates the DMM at the same time it updates its own Non-Volatile
Memory. If the FADEC or the DMM is replaced, the data is transferred to the unit that
has been changed automatically.

AMBIENT PRESSURE SENSOR
The Ambient Pressure Sensor (APS) is mounted on the left side of the air inlet
assembly and senses air inlet pressure to the engine. Pressure signals are sent to the
FADEC for altitude correction of the fuel scheduling. After ready to load, which occurs
at 95% plus 3 seconds, ambient pressure is used by the FADEC to set the minimum
and maximum fuel set points. If the APS fails, the FADEC uses the preset standard
day/pressure altitude value.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - DMM AND APS LOCATOR

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
ENGINE FUEL AND CONTROL
COMPONENT LOCATION AND DESCRIPTION CONTINUED
SPEED SENSOR
The sensor is installed to the air inlet housing. The sensor is a single probe, dual
coil device. The magnetic probe extends through the air inlet housing and aligns with
the lobes on the quill shaft. The dual coils give redundant speed signals. The sensor
generates redundant sinusoidal signals, which are transmitted to the FADEC and
used for start sequencing and speed sensing (over-speed and under-speed). The two
signals are averaged by FADEC to give the rated speed. If the difference between the
two signals exceeds 5%, the FADEC will use the higher value. Failure of one signal
will result in an advisory fault. Loss of both signals will cause an automatic APU
shutdown.

THERMOCOUPLE
The two single-element, closed end, chromel/alumel thermocouples are located on the
APU exhaust flange and extend into the exhaust gas stream. The thermocouples are
installed 90° apart, at the five and eight o’clock positions and supply millivolt signals
that are used by FADEC for exhaust gas temperature sensing. The FADEC averages
the two signals to give the exhaust gas temperature. If the difference between the two
thermocouples is greater than 93.3°C (200°F), the FADEC will use the higher value.
An open or short failure of one thermocouple will result in an advisory message.
Failure of both thermocouples will cause an APU shutdown.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU SENSORS DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
IGNITION/STARTING
INTRODUCTION
The Auxiliary Power Unit (APU) ignition system is used to initially start the fuel burning
and the starter system provides the initial rotation of the APU.
The starting and ignition system includes the controls, indicators and switches for
automatic starting, and acceleration of the APU to a sustained running speed of
64,154 RPM at 100%.

GENERAL DESCRIPTION
The Ignition/Starting system includes the components that follow:
•
•
•
•

Auxiliary Power Unit (APU) Control Panel
Starter/Generator
Ignition Exciter (1)
Ignitor Plugs (2)

The APU is started by pushing the START switch on the APU CONTROL panel. The
start sequence and operating sequence are then automatically controlled by the Full
Authority Digital Electronic Control (FADEC).

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU IGNITION SYSTEM DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
IGNITION/STARTING
COMPONENT LOCATION AND DESCRIPTION
APU CONTROL PANEL
The panel is the input and information output to the flight crew.
The APU CONTROL panel is installed on the right side of the flight compartment
overhead panel. Four switches and one annunciator are installed side-by-side. The
panel is supplied with 5V DC background lighting when selected. The START switch
is a momentary switch, the other switches are alternate actuation switches.
Pushing the power (PWR) switch applies 28V DC power from the right side essential
bus CB (F7) to the Full Authority Digital Electronic Control (FADEC), enabling APU
functions and the control panel advisory lights. This also closes contacts in the Power
Control Relay (K10) which supplies 28V DC from the right side essential bus CB (R7)
to the FADEC. This power also is used to close the APU fuel relay (K3). Relay (K3)
now will supply 28V DC from the left essential bus CB (S7) to open the wing fuel valve.
Pushing the START switch starts the auto start sequence. The FADEC signals the
Generator Control Unit to begin the start sequence.
The relays are located on the relay panel behind the wardrobe.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU CONTROL PANEL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
IGNITION/STARTING
COMPONENT LOCATION AND DESCRIPTION CONTINUED

The outlet duct, also of fireproof composite construction, is bolted to the QAD at the
inboard end. The outlet duct incorporates a fireproof silicon composite seal at the
outboard end where it interfaces with the tail-cone right side access door. The brushes
and commutator are completely enclosed within the casting and are therefore not
exposed to the tail-cone fire zone.
A bi-metallic strip in the stator assembly provides a means for indicating a starter/
generator overheat.

STARTER/GENERATOR
The DC Starter/Generator is an electromagnetic rotating machine that has two distinct
modes of operation.
In “Starter Mode” the machine converts electrical 28V DC power into mechanical
torque that is used to drive the Auxiliary Power Unit (APU) rotor for engine starting.
In “Generator Mode” the machine converts mechanical power from the gearbox into
electrical 28V DC power.
The modes of operation are controlled by the Full Authority Digital Electronic Control
(FADEC) and the Generator Control Unit (GCU).
The 28V DC, 400 A starter/generator is mounted on the forward face of the gearbox,
coaxial with the rotor.
The unit comprises the starter/generator and a quick attach/detach adapter (QAD).
The QAD incorporates the cooling air outlet. The APU gearbox pad conforms to
standard MS 3327-2, and the QAD is attached to it via six studs and self-locking nuts.
A V-band clamp attaches the starter/generator to the QAD.

When an overheat condition is detected the FADEC will receive a APU shutdown
signal from the Generator Control Unit (GCU) and the APU will shutdown. The GCU
will turn on the GEN OHT lamp on the APU CONTROL Panel and the FADEC will turn
on the APU caution lamp on the Caution Warning Panel.
The Starter/Generator is a four pole machine, with a design speed of 12,000 RPM.
During the start sequence it is energized by 28V DC from the aircraft electrical system.
At 50%speed the starter is de-energized.
When the APU reaches 95% speed plus 3 seconds the generator function is available.
The generator supplies electrical power to the aircraft right main bus and has the
same generating capacity as the aircraft main generators. Although the generator is
of the same capacity as the main engine generators they are not interchangeable. The
(GCU) regulates the generator output and controls the starter/generator contactor.
The GCU is located under the cabin floor near the main engine GCU.

The drive spline is of the “wet” type, lubricated by air oil mist from the gearbox. Any oil
leakage will be entrained in the cooling airflow to exit overboard through the discharge
duct, and therefore will not enter the tail-cone fire zone. The starter/generator is an
air cooled unit and has an integral cooling fan. The inlet system comprises a short
titanium inlet duct with a metal mesh screen at the tail-cone penetration located in the
lower forward skin, an interconnecting fireproof duct, and an inlet duct which is part
of the starter/generator. Each end of the composite duct is secured and sealed with a
fireproof silicone composite boot and hose clamps.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - STARTER/GENERATOR LOCATOR

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
IGNITION/STARTING
COMPONENT LOCATION AND DESCRIPTION CONTINUED
IGNITION EXCITER
The ignition exciter is installed on the left side of the engine. The exciter is a capacitor
discharge unit that uses 28V DC to give intermittent high voltage to the ignitor plugs.
Operation of the exciter is controlled by the FADEC during the start sequence.
The exciter generates high voltage outputs that can be lethal. When replacing the
ignition exciter, be sure electrical power is removed from the exciter for a minimum of
5 minutes.
Disconnect ignitor cables from the ignitor plugs. Discharge the exciter by touching the
ignitor cable ends to the ignitor plug shells. Be sure exciter is fully discharged before
removing the ignitor cables and exciter.

IGNITOR PLUGS
Two ignitor plugs are installed, one on the left side and one on the right side of the
engine. The ignitor plugs are threaded into the engine combustor housing.
The 10 millimetre, gap type ignitors supply a high voltage intermittent spark that
ignites the fuel-air mixture in the combustor. The ignitors are connected to the ignition
exciter by two separate shielded ignition cables.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU IGNITION SYSTEM DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
AIR
INTRODUCTION
The Auxiliary Power Unit (APU) bleed air system supplies compressed air for the
Environmental Control System (ECS).

GENERAL DESCRIPTION
The aircraft air inlet supplies air to the Auxiliary Power Unit (APU) air inlet assembly
that is then compressed by the APU compressor. The compressed air is used in the
operation of the APU and to supply air to the aircraft Environmental Control System
(ECS).

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU BLEED AIR SCHEMATIC

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

Modulating bleed air flow in response to the APU exhaust gas temperature limits
allows generator loads to have priority over bleed air delivery.

AIR

BLEED VALVE

SYSTEM DESCRIPTION

The bleed valve is an electro-pneumatic butterfly valve that is normally closed.

The Auxiliary Power Unit (APU) bleed valve is controlled by the Full Authority Digital
Electronic Control (FADEC). When BL AIR OPEN is selected on the APU CONTROL
PANEL, the FADEC will fully open the bleed valve. Bleed air flow is now controlled at
the Environmental Control System (ECS) pack inlet flow control and shutoff valve by
the ECU control in accordance with the mass flow schedule.

The valve is located on the APU combustor housing bleed air duct and controlled by
the Full Authority Digital Electronic Control (FADEC). The FADEC receives a signal
from the BL AIR switch on the APU CONTROL panel.

The FADEC will modulate the APU bleed valve in the closed direction as required to
limit the APU exhaust gas temperature (EGT) to 692°C (1278°F), overriding the ECS
pack inlet valve.
Selecting either engine BLEED 1 or 2 switch ON will interrupt the bleed demand
signal to the FADEC via relay K11; the FADEC will close the APU bleed valve.
A leak in either the APU or dorsal duct will cause the associated temperature switch to
close. This will close a relay which interrupts the bleed demand signal to the FADEC.
The K6 relay incorporates a ground latching circuit which requires the APU bleed
switch or POWER to be cycled to unlatch.
The relay is located on the relay panel behind the wardrobe. To prevent APU reverse
wind-milling in the event that the bleed valve fails open, a check valve is installed in
the APU bleed pipe in the rear fuselage.
.
Control of the bleed valve is accomplished by the bleed servo valve receiving
milliampere signals from the FADEC. The FADEC receives signals from the APU
exhaust gas thermocouples and the flight compartment APU bleed air switch.
The FADEC uses signals from the APU exhaust thermocouples to control the bleed
valve during bleed air delivery. If the APU exhaust temperature reaches 692°C
(1278°F) the bleed valve will be modulated to reduce bleed air flow. This will allow the
bleed valve to deliver the maximum air flow without exceeding the APU exhaust gas
temperature limits.
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - BLEED VALVE AND DUCT

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
AIR
CONTROLS AND INDICATORS
BLEED AIR SWITCH
When the BL AIR push switch on the Auxiliary Power Unit (APU) Control Panel is
pushed, 28V DC from the APU control circuit breaker (F7) is directed through the
engine bleed logic relays (K6, K11) to the APU Full Authority Digital Electronic Control
(FADEC).
The FADEC will then command the bleed valve to open. The logic relay K11 prevents
the selection of APU bleed air when either #1 or #2 engine bleed air is selected.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU CONTROL PANEL AND BLAIR SWITCH ELECTRICAL SCHEMATIC

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
AIR
CONTROLS AND INDICATORS CONTINUED
OVER HEAT/DUCT LEAK
In the event of a bleed supply over-temperature or a leak in the duct which supplies
air to the Air Conditioning Unit, the #1 and #2 BLEED HOT caution lights will come on
and the green OPEN light on the APU CONTROL panel will go out.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - APU BLEED HOT

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

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Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

During engine operation, centrifugal force lets the oil flow through the internal passages
to the ball and roller bearings. Oil return from the rotor bearings is accomplished by
gravity flow to the gearbox oil sump.

OIL

The oil system contains the components that follow:

INTRODUCTION
The Auxiliary Power Unit (APU) oil system supplies pressurized oil to the gearbox and
the engine rotor assembly to lubricate and cool the gears and the bearings.

GENERAL DESCRIPTION
A positive displacement gear type oil pump is located inside the gearbox and supplies
oil flow to the system. The oil pump supplies oil to the gearbox and the engine rotor
assembly through the fuel/oil cooler where the oil is cooled by fuel.
If oil flow is restricted through the cooler, a cooler bypass valve opens at 65 to 70 psig
(448 to 483 kPag). The valve is located in the gearbox. The oil is filtered through a 10
micron replaceable filter and then flows into the oil system.

•
•
•
•
•
•
•
•
•
•
•
•
•
•

Gear type pump
De-prime valve
Fuel/oil cooler
Fuel/oil cooler bypass valve
Filter
Pressure relief valve
High temperature switch
Low pressure switch
Oil/air separator
Carbon seal drain
Labyrinth seal
Oil filler port
Sight glass
Magnetic chip detector/drain plug

The oil pressure relief valve, located between the oil filter and the gearbox oil jets,
maintains the system oil pressure of 60 psig (414 kPag).
The valve is a non-adjustable component.
High oil temperature and low oil pressure switches monitor the oil system.
If either low oil pressure or high oil temperature condition occurs, the Auxiliary Power
Unit (APU) will automatically shutdown.
The gears and bearings are lubricated and cooled by oil jets and oil mist that is
generated by the rotating gears. The oil/air separator is part of the fuel control gear
and separates the oil from the air inside the gearbox. The oil returns by gravity to the
oil sump and the air is vented overboard through the drain mast vent.
Lubrication and cooling of the rotor bearings is supplied by the gearbox oil pressure
system. Oil is injected into the hollow pinion shaft that is splined into the rotor shaft.
The pinion shaft delivers oil to the passages located inside the rotor shaft.
TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
Page 76 of 98

BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - OIL SYSTEM SCHEMATIC

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT

OIL FILTER

OIL

Oil filtration is supplied by a disposable 10 micron filter. The oil filter bypass valve
assembly includes a visual impending by pass indicator and a bypass valve. The
indicator is visible when differential pressure across the filter reaches 60 to 80 psid
(414 to 552 kPad). The bypass valve opens when the differential pressure across the
filter reaches 105 to 125 psid (724 to 862 kPad).

COMPONENT LOCATION AND DESCRIPTION
OIL PUMP
A positive displacement gear type oil pump is located inside the gearbox and supplies
oil flow to the system.

DE-PRIME VALVE

OIL PRESSURE RELIEF VALVE
The oil pressure relief valve, located between the oil filter and the gearbox oil jets,
maintains the system oil pressure of 60 psig (414 kPag).
The valve is a non-adjustable and non-replaceable component.

The de-prime valve is a solenoid operated valve and is located on the lower, right side
of the gearbox. The valve is energized open by the Full Authority Digital Electronic
Control (FADEC) to prevent the oil pump from supplying oil during engine start-up and
shutdown. This reduces the load on the starter/generator during cranking to improve
acceleration.
Above 50% engine speed the de-prime valve is de-energized closed and the oil pump
produces oil flow. During engine shutdown the de-prime valve is energized open by
the FADEC for 16 seconds, to prevent oil pump output and to let the oil remaining in
the system drain back into the sump.

FUEL/OIL COOLER
The Fuel/Oil cooler is located on the lower, right side of the gearbox.
The cooler is a fuel/oil heat exchanger that uses fuel from the fuel control to supply
cooling of the oil.

FUEL/OIL COOLER BYPASS VALVE
The valve is located in the gearbox. In the event the oil flow is restricted through the
cooler, the cooler bypass valve opens at 65 to 70 psig (448 to 483 kPag).

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - OIL SYSTEM COMPONENTS DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
OIL
COMPONENT LOCATION AND DESCRIPTION
HIGH OIL TEMPERATURE SWITCH
The high oil temperature switch is a normally open switch and closes if the oil
temperature is more than 275°F ± 5°F (35°C ± 3°C). A closed switch will result in the
Auxiliary Power Unit (APU) shutting down.

LOW OIL PRESSURE SWITCH
The Low Oil Pressure Switch senses oil pressure downstream of the oil filter. The
normally closed switch opens when oil pressure is more than 35 ± 5 psig (241 ± 34.5
kPag) and remains open during normal operation of the APU. Oil pressure is not
monitored until the APU has reached 100% speed and the switch has been closed
for 12 seconds.
A closed switch will initiate a shutdown of the APU.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - January 2023
Page 80 of 98

BOMBARDIER DHC 8-400 (PWC PW150)

AUXILIARY POWER UNIT - OIL SYSTEM SWITCHES DETAIL

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

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BOMBARDIER DHC 8-400 (PWC PW150)
AUXILIARY POWER UNIT
OIL
COMPONENT LOCATION AND DESCRIPTION
OIL/AIR SEPARATOR
The oil/air separator is part of the fuel control gear and separates the oil from the
air inside the gearbox. The oil returns by gravity to the oil sump and separated air is
vented overboard through the drain mast vent.

CARBON SEAL
The carbon face seal prevents oil in the bearing area from entering the compressor.
The stationary seal supplies a leak proof seal between the rotating inner race of the
roller bearing and the carbon face seal.

LABYRINTH SEAL
The Labyrinth Seal is pressed on to a machined shoulder located on the hub of the
compressor wheel. The seal uses engine compressor air to give a non-contact air
seal between the Labyrinth Seal and the bearing area. The air across the seal is
vented into the carbon seal drain passage. If oil leaks through the carbon face seal,
the Labyrinth Seal prevents oil from entering the compressor.

TO BE USED FOR MAINTENANCE
TRAINING PURPOSES ONLY

ATA 49 - AUXILIARY POWER UNIT

Issue 6 - Janua