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ARRIEL 2SRRIEL 2STURBOSHAFT

ENGINE

Training manualMarch 2001

Ref.: X292 L0 960 2

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Training Manual

FOREWORD

This document provides, in a teaching form, all the intion required for the operation and the maintenance o

ARRIEL 2S1 Turboshaft engine for training purpose

It will not be updated, and if required, modifications included in a new issue.

TURBOMECA T

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Training Manual

SUMMARY

0 - Foreword1 - Introduction

2 - Power plant

3 - Engine

4 - Oil system

5 - Air system

6 - Fuel system

7 - Control system

8 - Measurement and indicating

9 - Starting10 - Electrical system

11 - Engine installation

12 - Operating limitat

procedures

13 - Various aspects ofmaintenance

14 - Maintenance proc

15 - Trouble shooting

16 C i f

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TABLE OF CONTENTS0 - FOREWORD

- Summary ............................................ 0.2

- Table of contents ................................ 0.3

- List of abbreviations .......................... 0.7

- Conversion table ................................ 0.10

1 - INTRODUCTION

- General information ........................... 1.2

- Training method ................................. 1.4

- Training aids ...................................... 1.6

- Training programme ......................... 1.8 to 1.12

2 - POWER PLANT

- Power plant ........................................ 2.2

General ............................................ 2.2

Description ...................................... 2.4

Operation ......................................... 2.8

- Principle of adaptation to helicopter .. 2.12

- Main characteristics ........................... 2.14

- Design and development ................... 2.24 to 2.27

- Centrifugal compressor ...........

- Combustion chamber ..............

- Gas generator turbine ..............

- Power turbine ..........................

- Exhaust system .......................- Reduction gearbox ..................

- Transmission shaft and

accessory gearbox ...................

- Bearings ..................................

4 - OIL SYSTEM

- Oil system ...............................

- Oil tank ...................................

- Oil pumps................................

- Oil valve assembly ..................

- Oil filter...................................

- Filter pre-blockage indicator...

- Oil cooler ...............................

- Centrifugal breather ................

- Electrical magnetic plug .........

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TABLE OF CONTENTS(CONTINUED)4 - OIL SYSTEM (CONTINUED)

- Oil pressure transmitter ...................... 4.34

- External oil pipes ............................... 4.36 to 4.37

5 - AIR SYSTEM

- Air system .......................................... 5.2

- Internal air system .............................. 5.4

- Air tappings........................................ 5.6

- Compressor bleed valve ..................... 5.8

- P3 pressure transmitter....................... 5.12

- Air tapping unions ............................. 5.14

- External air pipes ............................... 5.16 to 5.17

6 - FUEL SYSTEM

- Fuel system ........................................ 6.2

- Fuel control unit ................................. 6.14

Fuel pumps ...................................... 6.16

Metering unit 6 20

- Fuel filter pre-blockage

pressure switch .........................

- Fuel filter blockage indicator ...

- Low fuel pressure switch .........

- Fuel valve assembly .................

- Main injection system ..............

- Engine fuel inlet union.............

- Start injectors ...........................

- Combustion chamber drain valv

- External fuel pipes ...................

7 - CONTROL SYSTEM

- Control system .........................

General .................................

Description ............................

Operation ..............................

Indication and monitoring .....

- Digital Engine Control Unit.....

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TABLE OF CONTENTS(CONTINUED)

8 - MEASUREMENT AND INDICATINGSYSTEMS

- Measurement and indicating systems 8.2- Speed measurement

and indicating system......................... 8.4

- N1 speed sensor ................................. 8.6

- N2 speed sensors ................................ 8.8

- t4.5 gas temperature measurement

and indicating system......................... 8.10

- t4.5 thermocouple probes................... 8.12- t4.5 conformation box........................ 8.14

- Torque measurement

and indicating system......................... 8.16

- Torquemeter ....................................... 8.18

- Torque sensor ..................................... 8.20

- Torque conformation box ................... 8.22

- Indicators ........................................... 8.24- Miscellaneous indications .................. 8.26 to 8.35

9 STARTING

- Starter-generator ......................

- Ignition system.........................

- Ignition unit ..............................- Ignition cables ..........................

- Igniter plugs .............................

10 - ELECTRICAL SYSTEM

- Electrical system ......................

- Alternator .................................

- Electrical harnesses ..................

11 - ENGINE INSTALLATION

- Engine compartment ...............

- Engine mounting and handling

- Power drive ..............................

- Air intake and exhaust system .

- Engine interfaces ...................... Oil system..............................

Fuel system............................

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TABLE OF CONTENTS(CONTINUED)12 - OPERATING LIMITATIONS AND

PROCEDURES

- Operating limitations ........................ 12.2

- Operating procedures ........................ 12.4 to 12.7

13 - VARIOUS ASPECTS OF MAINTENANCE

- Maintenance concept ........................ 13.2

- TBOs and life limits ........................... 13.4

- Preventive maintenance ..................... 13.6

- "On-condition" monitoring ................ 13.8

- Corrective maintenance ..................... 13.10

- Lubricants - Fuels - Materials ........... 13.12

- Tooling ............................................... 13.14

- Standard practices .............................. 13.16

- Technical publications ...................... 13.18

- Product support ................................. 13.22 to 13.23

14 - MAINTENANCE PROCEDURES

- 1st line ................................................ 14.2

- 2nd line 14 8

15 - TROUBLE SHOOTING

- General .....................................

- Trouble shooting ......................

16 - CHECKING OF KNOWLE

- Introduction..............................

- Questionnaire 1 .......................

- Questionnaire 2 .......................

- Questionnaire 3 .......................

- Questionnaire 4 ........................

OBSERVATIONS .......................

This training manual is establishrequirements and takes into consideraATA 104 specifications.

This document has 446 pages. It w

desktop publishing system.

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EECU............ Engine Electronic Con

EGT .............. Exhaust Gas Tempera

FAA .............. Federal Aviation Agen

FADEC ......... Full Authority Digital

FCU .............. Fuel Control Unit

FMU ............. Fuel Metering Unit

FOD .............. Foreign Object Damag

ft .................... FeetFWD ............. Forward

G ................... Mass air flow

g .................... Gram

HE................. High Energy

HP ................. Horse Power

HP ................. High Pressure

HUMS........... Health and Usage Mon

Hz ................. Hertz

ICP ................ Intermediate Continge

ID .................. Identification

A/C ............... Aircraft

AC................. Alternating Current

ACMS........... Automatic Control Monitoring System

ACW ............. Anti-clockwise

AEO .............. All Engines Operating

ATA .............. Air Transport Association

BITE ............. Built In Test Equipment

cc/h ............... Cubic centimetres per hourCFT ............... Frequency/Voltage Converter

CH................. Fuel consumption

cSt ................. Centistoke

CW................ Clockwise

daN ............... DecaNewton

dB ................. Decibel

DC................. Direct Current

DDR.............. DECU Digital Read-out

DECU ........... Digital Engine Control Unit

DGAC........... Direction Gnrale de l'Aviation Civile

LIST OF ABBREVIATION

The abbreviations / symbols shown below may be used during training :

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LIST OF ABBREVIATION(CONTINUED)

IIDS .............. Integrated Instrument Display System

ILS ................ Integrated Logistic SupportISA................ International Standard Atmosphere

ISV................ Servo-valve intensity

kHz ............... Kilohertz

kPa ................ Kilopascal

kW ................ Kilowatt

lb ................... Pound

lb/HP.hr ........ Pounds per Horse Power per hour

lb/hr............... Pounds per hour

lb/sec. ............ Pounds per second

LRU .............. Line Replaceable Unit

LTT ............... Learning Through Teaching

LVDT ........... Linear Voltage Differential Transducer

m ................... Metre

mA ................ Milliampere

MAX ............. MaximumMCP.............. Max Continuous Power

MCQ ............. Multi Choice Questionnaire

MGB Main gearbox

mm................ Millimetre

mP................. Micro-processorMTBF ........... Mean Time Between F

MTBUR ........ Mean Time Between U

MTCP ........... Maintenance Test Con

mV ................ Millivolt

N ................... Rotation speed

N1 ................. Gas generator rotation

N2 ................. Power turbine rotation

NMD ............. Navigation and Missio

NOVRAM .... Non Volatile Read On

NR................. Rotor rotation speed

O/S ................ Overspeed

OEI ............... One Engine Inoperativ

P .................... Pressure

P3 .................. Compressor outlet pre

PH ................. Oil pressurePOS............... Position

PPM .............. Parts per million

PSI Pounds per Square Inc

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LIST OF ABBREVIATION(CONTINUED)

PSIG ............. Pounds per Square Inch GaugePT ................. Power Turbine

Q ................... Fuel flow

RAM ............. Random Access Memory

ROM ............. Read Only Memory

RPM.............. Revolutions Per Minute

RTD .............. Resistive Temperature Device

SFC ............... Specific Fuel ConsumptionShp ................ Shaft horse power

SI................... International System

t ..................... Time

T/O................ Take-Off

TBO .............. Time Between Overhauls

TET ............... Turbine Entry Temperature

TM ................ Turbomeca

Tq.................. Torque

t ................... Temperature

t4 ................. Gas temperature

VAC.............. Volt, Alternating CurrVDC.............. Volt, Direct Current

W .................. Power

XTL .............. Throttle position signa

XCP .............. Collective Pitch Signa

Z.................... Altitude

Zp.................. Pressure altitude

C .................. Degrees CelsiusF .................. Degrees Fahrenheit

K.................. Degrees Kelvin

.................... Positive and negative

................... Ohm

.................... Difference

P ................. Pressure difference

% ................... Percent

< .................... Is lower than

> .................... Is higher than

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Training Manual

1 mm = 0.039 i

1 m = 3.28 ft

1 dm3= 1 litre = 0.26 U

1 kg = 2.2 lbs

1 kW = 1.34 H

C = (F-32)

K = [(F-32

1 kPa = 0.01 bar = 0.145 P

1 kg/s = 2.2 lbs

Length

Volume

Mass

Power

Temperature

Pressure

Flow (air, oil, fuel)

CONVERSION TABLEUNIT International System British or Ame

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1-INTRODUCTION

- General information...................................................... 1

- Training method ............................................................ 1

- Training aids .................................................................. 1

- Training programme .................................................... 1

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GENERAL INFORMATION

The power of knowledge

Adequate training is essential for obvious safety reasons,but also to reduce additional maintenance costs incurredby unjustified removals and excessive downtime.

"Greater knowledge leads to greater efficiency".

Objectives of training

The main objective is the acquisition of the knowledgerequired for the tasks to be achieved (know and knowhow).

Further informationis also communicated to widen theskill and the experience of the trainee.

Training approach

- Performance based training according to taskanalysis, with classroom sessions, student involvement,practical work and troubleshooting techniques

- Advanced training aids :training manual, Computer

Aided Presentation (or overhead projection), multimediacourseware and demonstration mock-ups

- Experienced and formally trained instructors

Training CentreThe Training Centre is located in onTURBOMECA's TARNOS factory.

TARNOS .... 5 kms north of tANGLET - BIARRIby train (BAYONN(BIARRITZ-PARM

(A63 highway, TAR

Address ...... TURBOMECA - FRANCE

Telex ........... 570 042

Telephone .. (33) 5 59 74 40 07 o

Fax .............. (33) 5 59 74 45 16 o

E-mail ......... centre.instruction@t

The training centre is organized intraining demands (administratiinstructors).

Training sites

Training courses are also conducteapproved training centres and on site

- by a TURBOMECA qualified inb idi i d d i i

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PARIS

TARNOS

BORDES

SPAIN

FRANCE

BAYONNE

ATLANTIC

OCEAN

TRAINING OBJECTIVES O

TRAINING A

The power of knowledge

Adequate training is essential for obvious safety

reasons, but also to reduce additional

maintenance costs incurred by unjustified

removals and excessive downtime.

"Greater knowledge leads to greater efficiency".

TRAINING SITES

Training courses are also

TRAINING CENTRE,TURBOMECA Tarnos

(FRANCE)

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TRAINING METHOD

Knowledge transmission process

The required knowledge is transmitted in such a mannerthat the student may use it efficiently in variouscircumstances.

The training is conductedin accordance with a processwhich considers :

- A phase of explanationfor understanding

- A phase of assimilation leading to the complete acqui-sition and long-term retention of the knowledge.

Continuous checking of knowledge helps to ensure theinformation is assimilated. It is more a method of workthan a testing in the traditional sense (refer to chapter 16).

Training method

The training method is a carefully bof :

- Lecture

- Discussions

- Exercises

- Practical work.

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1

4

KNOWLEDGE

TRANSMISSION PROCESS

TRAININ

1 - LECTU2 - EXERC

3 - DISCUS

4 - PRACT

INSTRUCTOR

MEDIA

STUDENT

EXPLANATION ASSIMILATION

KNOWLEDGE TRANSMISSION,PHASES :

- Explanation

- Assimilation

CHECKING OF KNOWLEDGE :

- Continuous checking, treated inchapter 16

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TRAINING AIDS

Training manual

The training manual is the basic source of information.

It contains, in a teaching form, all required informationand explanations, following a layout derived from theATA 104 standard. Thus each subject is treated followinga plan which allows the material to be adapted to different

levels of training.

Typical plan :

- General (function, position, main characteristics, maincomponents)

- Description (general and detailed)

- Operation (phases, synthesis).

Other technical publications are also used during a course.

Computer Aided Presentation or overheadprojection

Computer Aided Presentation or overhead projection isused to display the illustrations contained in the trainingmanual (the instructor's explanations follow the manual).

Multimedia courseware

Interactive courseware is used to tduring a course.

This multimedia system uses text, panimation and video.

Certain courses are available for sale

This system with quick and easy efficient for maintaining knowledge le

However, only a course delivered binstructor or TURBOMECA qualifiallow the issue of an engine maintecard.

Demonstration mock-ups

Demonstration mock-ups are also uidentification and maintenance proce

Note : The information contained imust be considered for traini

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COMPUTER AIDED PREOR OVERHEAD PRO

TRAINING MANUAL

Note : Theinformation contained in

the Training Aids must beconsidered for training

purposes only.

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TRAINING PROGRAMME

The course programme follows the manual. However, itshould be noted that the "classroom sessions" alternatewith periods devoted to demonstrations and practicalwork.

According to the contents, each session is mainly devotedto description and operation.

The engine maintenance aspect is mainly covered by the

last part of the manual, which also deals with variouselements related to maintenance (standard practices,technical publications, logistics and mainly fault analysisand fault finding).

Examples of programme :The following pages provide exprogramme :

- Familiarization course

- 1stline maintenance (O level) : prevmaintenance

- 2ndline maintenance (I level) : mo

- 3rdline maintenance (H level) : de

- 4thline maintenance (D level) : rep

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FAMILIARIZATION COURSE

Objective : At the end of this course, the student will be able to describe the engine, to explain its prand to identify the main components of the engine and systems.

Programme :

- Engine systems (continued)

- Main aspects of maintenance

- Revision - Checking of knowledge

FIRST DAY

SECOND DAY

- Introduction

- General presentation of the engine

- Engine description

- Engine systems

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1stLINE MAINTENANCE COURSE (O LEVEL) : PREVENTIVE AND CORRECTIVE M

Objective : At the end of this course, the student will be able to identify the engine componentsexplain the operation of the engine and its systems, to carry out 1stline maintenance

diagnose operating failures.

Programme :

FIRST DAY- Introduction - General

- Engine presentation - Engine description - Oil system

- Air system - Fuel system - Control systemSECOND DAY

THIRD DAY

FOURTH DAY

FIFTH DAY

- Measurement and indicating systems - Starting

- Electrical system - Engine installation

- Operating limitations and procedures - Various aspects of

- Maintenance procedures - Trouble shooting

- Visits - Revision

E i ti Mi ll ti

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2ndLINE MAINTENANCE COURSE (I LEVEL) : MODULES, SRU

Objective : At the end of this course, the student will be able to identify the engine components2ndline maintenance procedures (mainly the removal/installation of modules and sho

Programme : The programme mainly includes practical work. This programme can be carried maintenance programme.

- Introduction

- Revision (if this course is not conducted directly aftcourse)

- Removal of modules

SECOND DAY- Removal of modules

- Inspection and check of modules

- Installation of modules

- Inspection and checks after installation

FIRST DAY

THIRD DAY

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3rdLINE MAINTENANCE COURSE (H LEVEL) : DEEP MAINTENANCE

Objective : At the end of the course, the trainee will be able to carry out the 3rd line maintenancemaintenance).

Programme :

4th

LINE maintenance course (D level) : repair or overhaul

Objective : At the end of the course, the trainee will be able to carry out the specific tasks regardrelated to his skills (eg : control system, assembly, machining procedures...).

Programme :

- Introduction- Definition of procedures

- Practical work

FROM 3 DAYS TO 3 WEEKS

- Introduction

- Definition of proceduresSEVERAL WEEKS

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2-POWER PLANT

- Power plant .................................................................... 2

General .................................................................... 2

Description .............................................................. 2

Operation ................................................................ 2

- Principle of adaptation to helicopter ........................... 2

- Main characteristics ...................................................... 2

- Design and development ............................................... 2

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POWER PLANT - GENERAL

Function

The power plant provides power by transforming theenergy contained in the air and fuel into mechanical poweron a shaft.

Main characteristics

- Type : Free turbine turboshaft engine, with forwardpower drive, external power transmission shaft

- Concept : Modular

- Max take-off power : (engine installed) : 639 kW(856 Shp)

- Specific fuel consumption : 390g/kW.h at 350 kW

- Output shaft speed : 6000 RPM (at 100 %)

- Mass : 130 kg (286 lbs) dry with "specific equipment".

"Specific equipment" : without starter and exhaust pipeextension, with Digital Engine Control Unit andcorresponding electrical harness.

Note :ARRIEL 2S1 : output shaft nominal speed : 6409RPM (107 %).

Main components

- Turboshaft engine with its equipm

- Digital Engine Control Unit (DEC

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POWER PLANT

POWER

DIGITAL ECONTRO

(DEC

IRAIR

G SGAS- Free turbine type

- Modular

- Mass : 130 kg (286 lbs)

Max ta(engi639 k

Specific fu

390 g/k

FU LFUEL

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POWER PLANT - DESCRIPTION

This description considers the main functional componentsof the engine.

Gas generator

- Single stage axial compressor

- Centrifugal compressor

- Annular combustion chamber with centrifugal fuelinjection

- Single-stage axial turbine.

Power turbine

- Single-stage axial turbine.

Exhaust pipe

- Elliptical, axial exhaust pipe.

Reduction gearbox

- Reduction gearbox comprising three helical gears.

Transmission shaft- External shaft located in a protecting

the reduction gearbox to the acces

Accessory gearbox

- Gearbox containing the accessory dr

driven by the gas generator) and th

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ACCESSORY

GEARBOX

Accessorydrive train

GAS GENERATOR

Axial

compressor

Centrifugal

compressor

Combustion

chamber

Turbine

POWER TURBINE

RTRANSMISSION SHAFT

Main

power drive

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POWER PLANT - DESCRIPTION - ENGINESYSTEMS

This part deals with the systems and functions of theengine.

Oil system

The oil system lubricates and cools the engine components.

Dry sump system, synthetic oil, tank and cooling unit

installed in the aircraft. Pressure, temperature and magneticplug indications.

Air system

Internal system to pressurise and cool engine internalparts. Accessory air supply system (ventilation of startinjectors, engine control). Compressor bleed valve. Air

supply to the aircraft.

Fuel system

Fuel supply through Low Pressure (LP) and High Pressure(HP) pumps. Delivery through a metering unit and a valveassembly. Start injection through 2 simple injectors. Maininjection by a centrifugal wheel.

Control system

Constant power turbine rotation speed Acceleration

Engine handling procedure

Entirely automatic with manual back

Engine indicating

N1 and N2 rotation speeds. t4.5 gas

torque. Oil temperature and pressindications. Monitoring system.

Starting

Cranking by an electric starter. Ignitignition unit. Automatic start controup.

Electrical system

Starting system. Control system. Harness with three connectors.

Engine installation

- Interfaces designed for quick remof the engine

- Front and rear supports. Lifting rin

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ENGINE INSTALLATION

AIR SYSTEM

FUEL SYS

CO

HANDL

ENGINE INDICATINGSTARTING

ELECTRICAL SYSTEM

OIL SYSTEM

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POWER PLANT - OPERATION

This part deals with the basic operation of the engine.

Gas generator

- Admission of air through the aircraft air intake

- Compression of the air in the axial and centrifugalcompressors

- Combustion of the fuel/air mixture in the annularcombustion chamber

- Gas expansion in the single stage turbine which drivesthe compressors and engine accessories.

Power turbine

- Expansion of the gas in the single stage turbine whichdrives the output shaft through the reduction gearbox.

Exhaust

- Discharge overboard of the gas.

Reduction gearbox

- Drive, at reduced speed, to the transmission shaft.

Transmission shaft- Transmission of the power from th

to the output shaft.

Accessory gearbox

- Power take-off to drive the helicop

- Drive of the accessories by the gasbevel gear, a vertical drive shaft an

Digital Engine Control Unit

- Control and monitoring of the eng

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GAS GENERATOR

Compression Combustion Expansion

POWER TURBINE

AND EXHAUST

REDTRANSMISION SHAFT

ACCESSORYGEARBOX

Expansion

Driv

AIR

INLET

Accessory

drive

Power

drive

Forward power transmission

FUEL

DIGITAL ENGINE

CONTROL UNIT

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POWER PLANT - OPERATION -ADAPTATION

This part deals with the parameters and the adaptation ofthe gas generator and power turbine.

Component adaptation

For the engine operation, two functional assemblies can beconsidered :

- The gas generator which provides kinetic energy

- The power turbine which transforms the gas energy intomechanical power on a shaft.

The two assemblies have different rotation speeds.

Gas generator

The gas generator operation is defined by :

- The air mass flow G (air flow which enters the engine)

- The air pressure P3 and air temperature t3 at thecentrifugal compressor outlet

- The fuel flow Q injected into the combustion chamber

- The gas temperature TET at the turbine entry

Th i d N1 f h

Power turbine

The power turbine operation is defbetween the power received from the gtorque applied on the shaft, that is trotation speed N2.

Operation

The operationis represented by the dthe power W, the rotation speeds N1torque limit C imposed by the mech

- The torque C is a function of the N

- The power W is equal to the torqueangular velocity w

- At constant N2 speed, the power is torque

- The engine parameters can be reprof a reference parameter ; N1 for e

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W

N2

C

N2

W = C .

= 2 N60

G(air mass

flow)

N1(rotation speed)

N2(constant,rota

Tq(shaft to

Q(fuel flow)

TET(turbine entry temperature)

P3, t3(compressor outlet

pressure and temperature)

Ec(kineticenergy)

W(shaft po

GAS GENERATOR POWER TURBINE

ENG

PARAMETE

Power W and speeds N1 N2 P3/P0 : CompressionTorque as a function of N2

Maxt

orqu

eIsospeeds

N1

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PRINCIPLE OF ADAPTATION TO HELICOPTER

Power transmissionThe mechanical power supplied by the engine, is used todrive the helicopter rotors through a mechanicaltransmission.

This power drives :

- The main rotor (approximately 82 %)

- The tail rotor (approximately 10 %)

- The main gearbox (approximately 8 %).

Twin engine configuration

In a twin engine configuration, the engines are installed at

the rear of the main gearbox.

The power turbines of the two engines are mechanicallyconnected to the main gearbox which drives the rotors(main and tail rotors).

Installation requirementsThe main functional requirements of

- Constant rotor rotation speed Nconditions

- Max torque limit C (usually imptransmission)

- Complete engine protection (N1 atemperature, acceleration control

- Good load sharing (in the caseconfiguration).

Adaptation to requirements

To have a constant rotation speed of ththe power supplied by the engine is auto the demand. This adaptation is ensystem which meters the fuel flowcombustion chamber so as to deliver(variation of the gas generator N1 rokeeping the engine within its operati

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N2

N2

N2

W

t

MAIN GEARBOX 8%

MAIN ROTOR82%

TAIL ROTOR10%

POWER TRANSMISSION TWIN ENGINE CONFIGUR

MAIN GEARBOX

MAIN ROTOR

W - Power

Max torque

NR

N1, N2, TET, N1/t

ENGINE100%

ENGINE

ENG

ENG

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MAIN CHARACTERISTICS (1)

This part considers the following points :- Mass and dimensions

- Operating ratings

- Operating performance

- Rating limitations

- Factors affecting performance

- Operating envelope.

Mass and dimensions

Mass (dry)

- Engine with specific equipment : 130 kg (286 lbs)

- Digital Engine Control Unit : 4.2 kg (9.24 lbs).

Dimensions

- Engine :

Length : 1166 mm (45.5 inches)

Width : 465.5 mm (18.2 inches)

Height : 609 mm (23.8 inches)

- Digital Engine Control Unit : Length : 300 mm (11.7 inches)

Width : 200 mm (7.8 inches)

Height : 80 mm (3 inches).

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(dry with specific eq

130 kg (286 lb

POWER PLANT M

DIGITAL ENGINE CONTRO

4.2 kg (9.24 lb

465,5 mm

(18.2 inches)

609mm

(23

.8in

ches

)

1166 mm(45.5 inches)

80mm

(3inch

es

)

300mm

(11.7

inch

es)

200mm

(7.8inches)

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MAIN CHARACTERISTICS (2)

Operational ratingsThe operational ratings correspond to given conditions ofhelicopter operation. The ratings are generally definedunder determined speed and temperature conditions.

The following operational ratings are considered :

- AEO ratings (All Engines Operating) :

Max take-off power : max rating which can be usedduring take-off. This rating has a limited duration(5 minutes continuous)

Max continuous power : rating which can be usedwithout time limitation (this does not imply that it isused permanently)

- OEI ratings (One Engine Inoperative) :

Max contingency power (OEI 30 sec) : rating whichcan be used in the case of one engine failure duringtake-off or landing.

Intermediate contingency power (OEI 2 min) :rating which can be used in the case of one enginefailure in flight.

OEI continuous power : single engine maxcontinuous power.

- Training ratings : Training OEI 30 sec

Training OEI 2 min

Training OEI continuous.

- HIP / SARM rating :

Hovering at increased power fmission.

This rating is considered to be in usein the hover, out of take-off phase,higher than MCP.

It is limited to a max continuous peEach usage of this rating requires 20 to be recorded in the engine log book

Note 1 : Use of the OEI 30 sec ratinrequires certain maintenancarried out. It may howeduring one flight.

Use of the OEI 2 minutetime, 10 minutes max.

Note 2 : The AEO max continuouelectronic stop, it is a con

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N1

735 kW

Note : The power indicated corresponds to the following configuration : engine inst i th di ti

639 kW

O.E.I. RATINGSA.E.O. RATINGS

TRAINING RATIN

HIP / SARM

MCP

30minutes

T/O

5minutes

continuous

continuous30

seconds2

minutes

30seconds

2minutes

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MAIN CHARACTERISTICS (3)

Operational performanceThe performance values specified correspond to minimumvalues defined under the following conditions :

- ISA conditions at sea level on test bed

- Min swirl angle at the compressor inlet less than 0.5

- Engine equipped with a test bed air intake and a primaryexhaust pipe

- No air bleed

- No extra power taken (other than those of the engineaccessories)

- Under determined conditions of speeds

- With a given calorific power of fuel

- Without torque limitations.

The power is the power available onexpressed in kilowatt (kW) or shaft h

The fuel consumption (CH or WF) iconsumed in a unit of time. It is expreper hour (kg/hr).

The specific fuel consumption (SFfuel required to produce one unit of

time (SFC = CH/W). It is expressed inkilowatt per hour (g/kW.hr).

Note : 1 kW = 1.34 Shp.

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735

663

639

639

592

577

Specific fuel

consumption SFCkW Shp

ISA sea level, engine uninstalled

985

390 g/kW.h at 350 kW

(0.640 lb/HP.hr at 469 Shp)

Power

OEI 30 sec

Ratings

OEI 2 min

OEI continuous

T/O 5 min

MCP

Cruise

889

857

857

794

774

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MAIN CHARACTERISTICS (4)

Rating limitations

Principle of limitations

The principle of limitations is based on one limit parameter :the gas generator rotation speed (N1 or Ng).

This speed is therefore the essential piloting parameter. It

must however be noted that the N1 indication is not theactual N1 but a calculated speed called "N1 biased".

The other parameters are kept within given limits by thecontrol system.

N1 limitations

The max N1 is automatically limited by the control systemwhich calculates the various limits according to inletparameters such as inlet air pressure P1, inlet air temperatureT1, torque Tq.

This allows max power to be available at any time whilelimiting torque and the engine thermal load.

This also reduces pilot work load.

Limit selection

The selected ratings are automatic

reference rating. Thus the calccorresponding to :

- OEI 30 sec (special law) +4.6 %

- OEI 2 min (T/O + 1.2 %)

- OEI continuous and AEO take-off

- AEO continuous (T/O - 2.2 %) : pand the corresponding "training ratin

An automatic overriding occurs in throtor speed, even in AEO configurat

- "Soft limit" slightly above take-odrop of NR speed

- "Blow away limit" for a further drpower increases to OEI 2 min pow

When these limits are reached, contraccording to NR speed (e.g. : 100 %

Indication of ratings

The DECU determines a N1 signal coof P0 and T1. This biased signal indicator which displays the N1 valu

k di t th i

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++

+

0

P0

P0

N1

T1

Tq

N1

T1

Torque

PRINCIPLE OF LIMITATIONS

N1 BIASEDINDICATION

FUEL FLOWCONTROL

DECU

SELECTION AND L

LIMIT SELECT

OEI AEO

AUTOMATIC OVE

Soft limit

Actual N1

Fuel flowN1

LIMITATIONS

N1 datum

N1 = f (T1) D N1 (P0)

DECU

N2

TETN1

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MAIN CHARACTERISTICS (5)

Engine operating envelopeThe engine is designed to operate within a given climaticenvelope.

The envelope is defined by :

- The atmospheric temperature T0

- The pressure altitude Zp

- And lines of standard atmosphere.

Flight envelope

The flight envelope is illustrated by the t0/Zp diagram andthe lines of standard atmosphere, with the max tropicalzone and the min arctic zone.

Starting and relight envelope

The starting and relight envelope is defined in the sameway, but it is also affected by the specifications of oil andfuel used, and sometimes by particular procedures.

LimitationsThe engine operates within various speeds, temperatures, pressures

Refer to corresponding chapters and

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6000 m(19680 ft)

4500 m(14760 ft)

+52 C(+125.6 F)

-500 m

(-1640 ft) -50 C(-58 F)

+(+1

-500 m

(-1640 ft) -50 C(-58 F)

ISA +37

0 0

MINARCTIC

PRESSURE

ALTITUDE Zp

TEMPERATURE

t0

PRESSURE

ALTITUDE Zp

Also function of ospecifications. Caupon particular pr

MAXTROPICAL

STANDARDATM

OSPHERE

MIN

ARCTIC

MAXT

ROPICAL

STANDARD

ATMOSPHERE

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DESIGN AND DEVELOPMENT (1)

Principles of designThe engine is designed to meet the aircraft propulsionrequirements and particularly for the new generation ofhelicopters.

The engine design is based on :

- An optimised thermodynamic cycle which gives high

performance

- Simple and reliable components giving a goodsupportability, and a good maintainability to reduce thecosts.

Engine development

The ARRIEL 2 engine is based on the research andexperience of other engines :

- First generation engines : ASTAZOU, ARTOUSTE andTURMO

- Second generation engines : ARRIEL, MAKILA.

The ARRIEL 2 is an evolution of the ARRIEL 1. Itbenefits from the experience gained and from improvementsin performance and cost.

Development steps- Launch : 1992

- First run : Dec. 92

- First flight : May 94

- Certification : Nov. 95 (JAA), Feb

- Entry into service : March 96.

Engine designation

ARRIEL - According to TURBOMEof a Pyrenean lake for the turboshaft

- 2 : Type

- S : Variant

- 1 : Version.

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ARRIEL 1650 - 700 Shp

ASTAZOU

500 - 1000 Shp

ARTOUSTE400 - 850 Shp

ENGINE DEVELO

ARRIEL 2

800 - 870 Shp

Optimisedthermodynamic cycle

Simple and reliablecomponents

SupportabilityMaintainability

Costreduction

Highperformance

STEPS

TIME

1996

Introductioninto

1994First flight

1992

PRINCIPLES OF DESIGN

ARRIEL lake

Engine design

Example : ARRIEL 2S1

ARRIEL : Name of a Pyrfor the turbos

2 : TypeS : Variant

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DESIGN AND DEVELOPMENT (2)

ApplicationThe ARRIEL 2S1 is designed for the SIKORSKY S76 C+.

Maintenance concept

The ARRIEL 2 is designed to provide a high availabilityrate with reduced maintenance costs.

The main aspects of the maintenance concept are thefollowing :

- Full modularity

- Good accessibility

- Reduced removal and installation times

- "On condition" monitoring

- High initial TBO

- Low cost of ownership :

Low production costs

Durability (TBO, defined and proven life limits)

High reliability Low fuel consumption.

Engine fleet status of ... / ... / ...- Number of ARRIEL 2 engines pro

- Number of ARRIEL 2 engines in o

- Operating hours :

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- Full modularity- Good accessibility

- Reduced removal and installation times- "On condition" monitoring

- High initial TBO- Low cost of ownership :

Low production costs Durability (TBO, defined and proven life limits) High reliability Low fuel consumption.

MAINTENANCE CONCEPT

ARRIEL 2 FLEET

- Engines pro

- Engines in s

- Total hours

SIKORSKY S 76 C+

ARRIEL 2S1 (x 2)

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3-ENGINE

- Engine ............................................................................ 3

- Axial compressor (72-00-32) ......................................... 3

- Centrifugal compressor (72-00-43) ............................. 3

- Combustion chamber (72-00-43) .................................. 3

- Gas generator turbine (72-00-43) ................................ 3- Power turbine (72-00-54) .............................................. 3

- Exhaust system (72-70-00) ............................................ 3

- Reduction gearbox (72-00-15) ...................................... 3

- Transmission shaft and accessory gearbox (72-00-61) 3

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ENGINE - GENERAL

Function

The engine transforms the energy contained in the fuel andin the air into mechanical power on a shaft.

Main characteristics

- Type : Free turbine with forward drive via an externalshaft

- Gas generator speed (N1) : 52110 RPM (100 %)

Direction of rotation : anti-clockwise

- Power turbine speed (N2) : 39095 RPM (100 %)

Direction of rotation : clockwise

- Output shaft speed : 6000 RPM (100 %)

Direction of rotation : clockwise.

Note :Direction of rotation given viewed from the rear.

2S1 : Rotor nominal speed : 107 %

Output shaft : 6409 RPM

Power turbine : 41832 RPM.

Main components

- Gas generator

Axial compressor

HP section- Centrifugal compressor- Annular combustion chamb- Single stage turbine

- Single stage power turbine

- Exhaust pipe

- Reduction gearbox

- Transmission shaft and accessory

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TRANSMISSIONSHAFT

ACCESSORYGEARBOX

Type :Free turbine

Gas generator (N1) :52110 RPM (100 %), ACW

Power turbine (N2) :

39095 RPM (100 %)41832 RPM (107 %), CW

Output shaft :6000 RPM (100 %)

6409 RPM (107 %) CW

TURBINECENTRIFUGAL

COMPRESSOR

POWERTURBINE

COMBUSTIONCHAMBER

AXIALCOMPRESSOR

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ENGINE - DESCRIPTION

Modular layout

The engine comprises 5 modules :

- Module M01 : Transmission shaft and accessory gearbox

- Module M02 : Axial compressor

- Module M03 : Gas generator HP section

- Module M04 : Power turbine

- Module M05 : Reduction gearbox.

Note 1 : A module is a sub-assemreplaced on-site (2nd line mcomplex tooling or adapta

Each module has an idenengine identification platehand side of the M01 prot

Note 2 : Some accessories are pmodule.

In this manual, those compin the chapters corresposystems.

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MODULE M02

Axial compressor

MODULE M03Gas generator

Hight pressure section

MODULE M04

Power turbine

MODULE M01

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ENGINE - OPERATION

The engine provides power by transforming the energy in

the air and fuel into mechanical energy on a shaft.

The process comprises compression, combustion,expansion and the transmission of the power.

Compression

The ambient air is compressed by an axial supercharging

compressor and a centrifugal compressor.

This phase is essentially characterised by the air flow(approx. 2.5 kg/s ; 5.5 lbs/sec.) the temperature increaseand the compression ratio (approx. 8.2).

Combustion

The compressed air is admitted into the combustionchamber, mixed with the fuel and burnt in a continuousprocess.

The air is divided into two flows :

- A primary flow for combustion

- A secondary flow for cooling the gas.

This phase is essentially characterised by the temperaturerise, flame temperature approx. 2500 C and turbine entrytemperature of approx. 1100 C, and a pressure drop ofb t 4 %

Expansion

- The gas expands in the gas geneextracts the energy required to driveaccessories (N1 speed : 52110 RP

- There is a further expansion in the extracts most of the remaining enershaft (N2 speed : 39095 RPM at 1

During this phase the pressure andgas drop, whilst the velocity incre

After the power turbine the gas is dvia the exhaust pipe, giving a sligh

Power transmission

The power is transmitted forward byand an external transmission shaft.

Note : The engine reference station

0 - Ambient air1 - Air intake2 - Axial compressor inlet

2.4 - Centrifugal compressor 3 - Centrifugal compressor 4 - Turbine inlet

4.5 - Gas generator turbine o

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1 4.5

160(23.2)

65(149)

820(118.9)

335(635)

1100(2012) 880

(1616)

300

(43.5)

670(1238)

800(116)

54

101,3(14.7)

15(59)

P kPa(PSI)

T C(F)

V

52110 RPM

(100 %)

108(15.7)

11 2 2.4 3

CompressorsCombustion

chamber Turbines Exhaust

POW

(poweby aand

fogive

Primary air

Gas

Secondary air

AIR FLOW2.5 kg/s

(5.5 lbs/s)

Residual thrust15 daN (33 lbs)

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AXIAL COMPRESSOR - GENERAL

FunctionThe axial compressor ensures a first stage of compressionto supercharge the centrifugal compressor.

Position

- At the front of the engine (the axial compressor assemblyforms the module M02).

Main characteristics

- Type : single stage axial compressor

- Air flow : 2.5 kg/sec (5.5 lbs/sec.)

- Rotation speed : N1 ; ACW.

Main components- Rotating components

Air inlet cone

Axial wheel, shaft, bearing ashaft

- Stationary components

Diffuser

Casing.

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WHEEL DIFFUSER

BEARING CASING

AIR INLETCONE

Type :

Single stage axial

Air flow :2.5 kg/s (5.5 lbs/sec.)

Rotation speed :N1, ACW

T i i M l

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AXIAL COMPRESSOR - DESCRIPTION

The axial compressor module (module M02) includes

rotating and stationary components.

Rotating components

The rotating assembly comprises the inlet cone, the axialwheel and the accessory drive gear.

The inlet cone, made of light alloy, is screwed into the front

of the shaft.

The compressor wheelis fitted to the shaft. It is a disc madeof titanium alloy with blades cut from the solid.

The shaftconnects the centrifugal compressor to the axialcompressor. The shaft is secured by a nut onto the tie-bolt.

This assemblyis supported by two bearings : a ball bearingat the rear of the axial compressor and a ball bearing in aflexible cage at the front of the centrifugal compressor.

The accessory driveconsists of a bevel gear on the shaftwhich drives a vertical drive shaft.

Stationary components

The stationary assembly includes tcasing.

The diffuser(diffuser-straightener) wehas two rows of steel stator vanes whpassage for the air.

The casing, made of steel, houses components. It has a front flange forair inlet duct and a rear flange for thmodule M03. The inner hub of the location for the bearings.

The casing has a boss for the mountinbleed valve.

The module identification plateis loccasing.

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SHAFT

DIFFUSER

INLETCONE

SHAFT

BEARING

CASING

ACCESSORY

DRIVE SHAFT

WHEEL

WHEEL

BEARING

DIFFUSER NUT

TIE-BOLT

Identification

plate

Identification

plate

T i i M l

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AXIAL COMPRESSOR - OPERATION

The axial compressor ensures a first stage of compression

in order to supercharge the centrifugal compressor.

Compressor air flow

The ambient air, admitted through the air intake duct andguided by the inlet cone, flows between the blades of theaxial compressor. The air is discharged rearwards with anincreased axial velocity.

The air then flows through the vanes of the diffuser. Dueto the divergent passage, the air velocity reduces and thepressure increases.

The flow is straightened by the stator vanes before beingadmitted, through an annular duct, to the centrifugalcompressor.

Note :In order to avoid compres

discharges overboard a certcertain operating conditioSYSTEM" chapter for furtcompressor bleed valve).

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ADMISSION

OF AMBIENT AIR

AIRTHROUG

B

SUPER

CENTRIF

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CENTRIFUGAL COMPRESSOR - GENERAL

FunctionThe compressor supplies the compressed air required forcombustion.

Supercharged by the axial compressor, it ensures thesecond stage of compression.

Position

- At the front of the module M03.

Main characteristics

- Type : centrifugal

- Air flow : 2.5 kg/s (5.5 lbs/sec.)

- Rotation speed N1 ; ACW.

Main components

- Rotating components (wheel, shaf

- Stationary components (diffusers,

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DIFFUSERS

CENTRIFUGAL

WHEEL

CASINGS

BEARING

Type :Centrifugal

Air flow :

2.5 kg/s (5.5 lbs/sec.)

Rotation speed :N1 ; ACW

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CENTRIFUGAL COMPRESSOR -DESCRIPTION

The centrifugal compressor assembly (part of moduleM03) includes rotating and stationary components.

Rotating components

The centrifugal wheel is the main rotating component.The wheel has blades which are cut from the solid in a disc

of titanium alloy.

The front part of the wheel connects to the axial compressorshaft. This shaft is supported by a ball bearing.

The rear part has a curvic-coupling for the mounting of thecentrifugal fuel injection wheel. The rotating componentsare secured by a central tie-bolt.

Stationary components

The stationary assembly includes thcasings.

The compressor front coveris mountcasing by means of a ring of bolts waxial compressor casing, the front co

assembly.

The external casing of the centrifbolted to the turbine casing. It is prbosses for air bleeds.

The diffuser assembly comprises th(radial stator vanes) and the second

stator vanes). The diffuser holder plbetween the compressor and the cominner hub supports a carbon seal and

The carbon sealis a floating ring seasteel holder and it runs on the forwinjection wheel.

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WHEEL

BEARING

1stSTAGE

DIFFUSER

2ndSTAGE

DIFFUSER

COMPRESSOR

FRONT COVER

CARBON

SEAL

TIE-BOLT

DIFFU

ASSEM

COMPRESSOR

FRONT COVER

EXTERNAL

CASING

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CENTRIFUGAL COMPRESSOR -OPERATION

The centrifugal compressor ensures the main stage ofcompression.

Compressor air flow

The air supplied by the axial compressor flows betweenthe blades of the centrifugal compressor. The air pressure

increases due to the divergent passage between the bladesand the air velocity increases due to the centrifugal flow.

The air leaves the tips of the blades at very high velocityand then flows through the first stage diffuser vanes wherethe velocity is transformed into pressure.

The air then passes through an elbow and the flow becomesaxial. In the second stage diffuser, the velocity is again

transformed into pressure. The air is then admitted into thecombustion chamber.

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SUPERCHARGING BY

THE AXIAL COMPRESSOR

COMPRESSION OF THE AIRIN THE DIFFUSERS

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COMBUSTION CHAMBER - GENERAL

FunctionThe combustion chamber forms an enclosure in which theair-fuel mixture is burnt.

Position

- Central section of the gas generator.

Main characteristics

- Type : annular with centrifugal fuel injection.

Main components- Outer part (front swirl plate and m

- Inner part (rear swirl plate and shr

- Fuel injection system

- Casing.

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OUTER PART

Front swirlplate

Mixer unit

Type :Annular with centrifugalfuel injection

Reap

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COMBUSTION CHAMBER - DESCRIPTION

The combustion chamber assembly (part of module M03)

includes the outer part, the inner part, the turbine casingand the fuel injection system.

Outer part

The outer part includes the front swirl plate and the mixerunit. The front swirl plateis provided with calibratedorifices for the passage of primary air ; it is secured to the

mixer unit with special rivets.

The mixer unitis provided with calibrated orifices for thepassage of dilution air ; it is bolted to the rear flange of theturbine casing.

Inner part

The inner part includes the rear swirl plate and the shroud.

The rear swirl plateis provided with calibrated orificesfor the passage of primary air.

The shroud, integral with the rear swirl plate surroundsthe shaft ; it is bolted to the turbine nozzle guide vane.

Note : The two parts are made of special alloy. Thecalibrated orifices are drilled using the electronbeam process

Turbine casing

The casing houses the combustion chaIt has various bosses and, particulacombustion chamber drain valve acasing.

Fuel injection system

The main fuel injection system inclunion, the radial fuel tube, the fuelcentrifugal injection wheel.

The injection wheel is mounted bcouplings between the compressor a(refer to "FUEL SYSTEM" chapter fthe fuel injection system).

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TURBINE

CASING

FRONT SWIRL

CENTRIFUGALINJECTION WHEEL

MIXER UNIT

FRONT SWIRL

PLATE

REAR SWIRL

PLATE

MIXER UNIT

SHROUD

FUEL INJECTION TURBINE

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g

COMBUSTION CHAMBER - OPERATION

The combustion chamber forms an enclosure in which the

fuel - air mixture is burnt.

Combustion chamber flow

In the combustion chamber, the compressed air is dividedinto two flows : a primary air flow mixed with the fuel forcombustion and a secondary air flow (or dilution air flow)for cooling of the burnt gases.

Primary air

One part flows through the orifices of the front swirl plate.

A second part flows through the hollow vanes of theturbine nozzle guide vane (cooling of the vanes) andthrough the orifices of the rear swirl plate.

The primary air is mixed with the fuel sprayed by theinjection wheel. The combustion occurs between the twoswirl plates. The flame temperature reaches approximately2500 C (4532 F).

Secondary air

The secondary air (or dilution air)orifices of the mixer unit. It is calibrstability, cooling of the burnt gasestemperature on the turbine.

Gas

The gas produced by the combustionturbine nozzle guide vane.

Operating parameters

The fuel-air ratio for combustion is athe total ratio is approximately 1/45.

The pressure drop in the comb

approximately 4 %.

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Fuel-primary air ratio :1/15

Total fuel-air ratio :

1/45

Pressure drop :

4 %

COMPRESSED

AIR

FUEL COMBUSTION

GAS FLTU

Primary air (combustion)Secondary air (cooling of

Burnt gas

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g

GAS GENERATOR TURBINE - GENERAL

FunctionThe turbine extracts sufficient energy from the gas flow todrive the compressors and the accessories.

Position

- At the rear of the gas generator.

Main characteristics

- Type : axial, single stage

- Turbine inlet temperature : 1100 C (2012 F)

- Rotation speed : N1 ; ACW.

Main components- Rotating components (wheel, shaf

- Stationary components (nozzle guidshield, casing).

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Type :

Axial, single stage

Turbine inlet temperature :

1100 C (2012 F)

Rotation speed :N1 ; ACW

SHAFT

NOZZLE

GUIDE VANE

CONTAINMENT

SHIELD

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GAS GENERATOR TURBINE - DESCRIPTION

The gas generator turbine assembly (part of module M03)

includes rotating components and stationary components.

Rotating components

The main rotating component is the turbine wheel.

The turbine wheelconsists of a disc and fir-tree mounted,single crystal blades.

At the front, the wheel is coupled by a curvic-coupling tothe turbine shaft . At the rear, the wheel is coupled to a shortextension shaft which is supported by a roller bearing.Rotating labyrinths provide sealing.

A tie-bolt secures the rotating assembly.

Stationary components

The main stationary components avane, the turbine shroud and the exh

The nozzle guide vaneincludes a rowis bolted to the combustion chamber containment shield.

The turbine shroud accommocomponents and the containment shienozzle guide vane and to the inner fcasing.

The outlet diffuser ensures the gas fgenerator and the power turbine. Its inlocation for the rear bearing. It also incturbine nozzle guide vane.

The power turbine containment soutlet diffuser is part of the module M

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NOZZLE GUIDE

VANE

TURBINESHROUD

TURBINE

WHEEL

OUTLETDIFFUSER

BEARING(roller)

REARSHAFT

TIE-BOLT

PT containment

shield

FRONT

SHAFT

TURBINEWHEEL

TURBINE NOZZLEGUIDE VANE

TURBINE

SHROUD

OUTLETDIFFUSER

PT containshiel

Training Manual

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GAS GENERATOR TURBINE - OPERATION

The gas generator turbine transforms the gas energy into

mechanical power to drive the compressors and variousaccessories.

The operation is characterized by the first phase ofexpansion.

Turbine gas flow

The burnt gas first flows through the nozzle guide vanes.The gas velocity increases due to the convergent passage.

The flow on the blades results in aerodynamic forceswhose resultant causes the rotation of the wheel.

The gas, still containing energy, is directed to the powerturbine.

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COMPRESSOR DRIVE

GAS FROM

THE COMBUSTIONCHAMBER

GAS FLOW IN THE NOZZLE GUIDE V

(convergent passage)

Nozzle

guide vane

Turbine

wheel

Rotation

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POWER TURBINE - GENERAL

FunctionThe turbine extracts the energy from the gas to drive thepower shaft through the reduction gearbox.

Position

- Between the gas generator and the reduction gearbox.

It forms the module M04.

Main characteristics

- Type : axial, single-stage

- Rotation speed : N2 ; CW.

Main components- Rotating components (wheel, shaf

- Stationary components (nozzle guidshield, casing).

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Type :

Axial, single stage

Rotation speed :N2 ; CW

NOZZLE

GUIDE VANE

WHEEL

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POWER TURBINE - DESCRIPTION

The power turbine assembly forms the module M04. It

includes rotating components and stationary components.

Rotating components

The main rotating component is the power turbine wheelwith its shaft.

The power turbine wheelincludes a disc (integral with

the shaft) and fir-tree mounted directionally solidifiedblades.

The shaft is supported by two bearings : a front ballbearing and a rear ball bearing.

The front bearing sealing is ensured by a pressurisedlabyrinth seal (pressurisation with compressor air directed

to the power turbine through an external pipe and innerducts).

The power is transmitted to the reduction gear by a muffcoupling.

Stationary components

The main stationary components arguide vane, the power turbine casihousing.

The nozzle guide vaneincludes a roof the module M03.

The power turbine casingengages and is retained by 3 screws. It is bolteshield together with the exhaust pipe. casing and an inner hub supported o

Two sealing ringsare used for sealinturbine casing and the power turbine

The bearing housing is installed in

casing. Its rear part is engaged in the rfork shaped steel plate prevents rearwpower turbine in case of overspeed reduction gearbox front cover.

The identification plateis located on

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IdeFRONTBEARING

REARBEARING

SHAFT

Muff

coupling

Labyrinth

seals

BEARING

HOUSING

POWER TURBINEWHEEL

CONTAINMENTSHIELD

BEARINGSUPPORT

POWER TUCASIN

LABYRINTHSEALS

POWER TURBINEWHEEL

DEFLECTOR

Sealingrings

Sealingrings

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POWER TURBINE - OPERATION

The power turbine transforms the gas energy into

mechanical power to drive the reduction gearbox.

The operation is characterised by the second phase ofexpansion.

Turbine flow

The gas supplied by the gas generator flows first through

the nozzle guide vane. In the nozzle guide vane, the gasvelocity increases due to the convergent passage.

The gas is directed onto the turbine wheel and the resultantof the aerodynamic forces on the blades causes the wheelto rotate. The gas is then expelled overboard through theexhaust pipe.

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R

Nozzle

guide vane

Turbine

wheel

Rotation

GAS FROM THEGAS GENERATOR

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EXHAUST SYSTEM

FunctionThe exhaust pipe continues the expansion phase andexpels the gas overboard.

Position

- Behind the power turbine, around the reduction gear.

Main characteristics

- Type : elliptical

- Non-modular part

- Gas temperature : 670 C (1238 F)

- Residual thrust : 15 daN (33 lbs).

Main components

- Exhaust pipe

- Heat shield.

Note : The exhaust pipe is considered to be an SRU (Shop

DescriptionThe exhaust pipe, which has an ellipfrom stainless steel. It is bolted to thpower turbine casing with the contai

A heat shield is fitted between the ereduction gearbox to protect the gearbheat.

The exhaust pipe has a drain at the b

Operation

Functionally it should be noted that contains a certain amount of energsmall residual thrust.

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EXHAUST

PIPE

EXHAUST GASRESIDUAL

THRUST

Type :

Elliptical

Non-modular part

Gas temperature :

670 C (1238 F)

Residual thrust :15 daN (33 lbs)

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REDUCTION GEARBOX - GENERAL

Function

The reduction gearbox provides a reduced speed outputand transmits the drive forwards.

Position

- At the rear of the engine

- It forms the module M05.

Main characteristics

- Type : 3 stage, helical gears

- Drive gear speed : N2

- Output gear speed : 6409 RPM at 107 % of N2.

Main components

- Drive gear

- Intermediate gear

- Output gear

- Casings.

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Type :3 stage, helical gears

Drive gear speed :

N2

Output gear speed :6409 RPM at 107 % of N2

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REDUCTION GEARBOX - DESCRIPTION -OPERATION

The reduction gearbox module mainly includes threegears contained in two half casings.

Drive gear

The drive gear is driven by the power turbine through amuff coupling. It is supported by two roller bearings.

Intermediate gear

It is a double helical type gear : one gear meshes with thedrive gear, the other one with the output gear. The rear partof the gear incorporates a sleeve wich provides a drive forthe oil cooler fan. The intermediate gear is supported bytwo roller bearings. A piston is fitted to the intermediategear with its head located in the gearbox front casing. It is

supplied with oil pressure to balance the load on the gear.

Output gear

It is a simple gear supported by a ball bearing at the frontand a roller bearing at the rear.

The hub is internally splined to receive the transmission

shaft. It rotates at 6409 RPM at 107 % of N2.

Note : The output gear is also used as a phonic wheel fordetection of power turbine rotation speed Refer to

Reduction gearbox casing

The gears are housed in a light alloy ccasings). A fork shaped steel plate is mface of the casing to prevent rearwapower turbine in the event of oversp

The module identification plate is locthe casing.

Operation of the reduction gear

The reduction gear provides a forwareduced speed.

The drive gear is directly driven by the(muff coupling drive). It transmits tintermediate gear. The rear shaft of tprovides a drive for the oil cooler fan

The intermediate gear drives the outputhe power drive at a speed of approxim107 % of N2), clockwise.

T i i M l

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DRIVE

GEAR

INTERMEDIATE

GEAR

Muff

coupling

FORK SHAPED

PLATE

FRONTCASING

FORK SHAPED

PLATE

IN

DRIVEGEAR

OUTP

GEA

N2

6409

RPM(107%)

Rear accessory

drive

FWD

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TRANSMISSION SHAFT AND ACCESSORYGEARBOX - GENERAL

Function

The shaft transmits the power to the front of the engine.

The accessory gearbox provides the drive for the engineaccessories.

Position

- Shaft beneath the engine

- Accessory gearbox at the front of the engine

- This assembly forms the module M01.

Main characteristics- Type of gears : bevel and spur gears.

Main components

- Transmission shaft

- Torquemeter reference shaft

- Power drive

- Accessory gear train

- Casings

- Power drive cover

- Front support yoke.

Note 1 : The alternator drive gear awheel for detection of the gaspeed. Refer to "MEAINDICATING SYSTEMS"details.

Note 2 : The transmission shaftorquemeter. Refer to "MEINDICATING SYSTEMS"d t il

T i i M l

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ACCE

TRA

CASINGS

POWER

DRIVE

MAGNETIC

CARBON SEAL

POWER DRIVECOVER

Type of gears :

Bevel and spur gears

FRONT SUPPORT

TRE

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TRANSMISSION SHAFT AND ACCESSORYGEARBOX - DESCRIPTION (1)

The module M01 comprises mainly the output shaftprotecting tube, the accessory gearbox and the enginefront support. It is this module which provides the rigidityof the engine.

At the rear of the protecting tube is the flange for attachmentto module M05.

The accessory gearbox is provided with mounting flangesfor various accessories.

The engine front mounting yoke is bolted to the lower partof the accessory gearbox front face.

Just above the yoke is the output drive shaft which isprovided with a stainless steel cover which is also boltedto the front face of the gearbox.

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MMOU

Engineidentification

plate

ACCESSORYGEARBOX

PROTECTINGTUBE

FRONT SUPPORTYOKE

OUTPUT SHAFTFLANGE

ACCESSORYDRIVE SHAFT

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TRANSMISSION SHAFT AND ACCESSORYGEARBOX - DESCRIPTION (2)

Transmission shaft

The shaft assembly takes the drive from the reduction gearto the accessory gearbox. The shaft itself is located in aprotecting tube bolted to the reduction gearbox at the rearand to the accessory gearbox at the front. The front of theshaft is supported by a ball bearing. The power drive flangeis mounted on the shaft splines. Sealing of the oil whichlubricates the bearing is ensured by a carbon seal.

Three oil pipes are located in the protecting tube.

Accessory gearbox

The gearbox assembly includes a traia light alloy casing. The gearbox is inscompressor by means of four bolts.

The front face of the gearbox accommdrives :

- Starter-generator

- Fuel pumps

- and main output drive.

The rear face of the box accommodrives :

- Oil pumps

- Alternator.

The engine front support casing is inface of the gearbox.

The module identification plate is locatube right hand side.

Th i id tifi ti l t i l

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PROTEC

TUB

OIL AND FUELPUMP DRIVE

GEAR

FRONT SUPPORT

ATTACHMENT

ALTERNATORDRIVE GEAR

OIL AND FUEL

PUMP DRIVEGEAR

ACCESSORY

DRIVE SHAFT

FRONT

CASING

STARTER-GENERATORDRIVE GEAR

C

ALTERNATORDRIVE GEAR

TRANSMISSIONSHAFT

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TRANSMISSION SHAFT AND ACCESSORYGEARBOX - DESCRIPTION (3)

Sealing of drives

Sealing of the various drives is ensured by seals fittedeither in the support casing or in the accessory.

Transmission shaft

This is ensured by a magnetic carbon seal fitted in theaccessory gearbox front casing.

Starter-generator drive

A magnetic carbon seal is fitted in a support on the gearboxfront casing.

Centrifugal breather gear (rear half of the starter/

generator gear)

Sealed by a magnetic carbon seal mounted in a support onthe rear face of the gearbox.

Note 1 : Fuel pump drive

Seals fitted in the fuel pumpSYSTEM")

Note 2 : Alternator drive

No seal on the drive shaft. is sealed by an O'ring on (see "ELECTRICAL SYST

Note 3 : Oil pump drive

No seal on the drive shaft. Athe mounting flange (see "

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MAGCARB

Shaft anddrive flange

Seal carrier

plate

STARTER-GENERATORDRIVE MAGNETIC

CARBON SEAL

CENTRIFUGAL BREATHERMAGNETIC CARBON SEAL

Accessory gearboxfront casing

Accessory gearboxrear casing

A

Seal carrierplate

Seal carrierplate

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TRANSMISSION SHAFT AND ACCESSORYGEARBOX - OPERATION

The operation is considered during engine starting and innormal running.

Operation during engine starting

During starting, the starter motor drives the accessorygearbox and thus the gas generator rotating assembly.

The compressors supply air to the combustion chamberand the starting sequence continues.

Operation in normal running

The gas generator drives the accessothe bevel gear located between the athe centrifugal compressor.

At self-sustaining speed (approximelectrical supply to the starter motor

The starter motor is then mechaniengine and operates as a generator toto the aircraft electrical system.

The following accessories are driven

- Starter-generator

- Fuel pumps

- Oil pumps

- Alternator / phonic wheel.

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OPERATION DURING

STARTER(electric motor)

DC GENERATOR

FWD

OPERATION IN NORMA

ACCESSORIES(fuel pumps,

oil pumps, alternator,

phonic wheel)

FWD

DRIVE OF THE

GAS GENERATOR(through the

accessory gearbox)(b

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BEARINGS

The carefully balanced rotating assemblies are supported

by the bearings shown in the diagram below.

Location and type of bearings

Gas generator

- Axial compressor rear bearing (G1) : Ball bearing

- Centrifugal compressor front bearing (G2) : Ball bearing

- Gas generator rear bearing (G3) : Roller bearing.

Power turbine

- Power turbine rear bearing (PT1) : Ball bearing

- Power turbine rear bearing (PT2): Ball bearing.

Reduction gearbox- Drive gear front bearing (R1) : Roller bearing

- Drive gear rear bearing (R2) : Roller bearing

- Intermediate gear front bearing (R3) : Roller bearing

- Intermediate gear rear bearing (R4) : Roller bearing

- Output gear front bearing (R5) : Ba

- Output gear rear bearing (R6) : Ro

Transmission shaft

- Transmission shaft front bearing (T

Accessory drive

- Various accessory drive gears : Bal

Sealing

Gas generator and power turbine bepressurized labyrinths, which are provdeposits.

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R5 R6T1

R3

R4

G1 G3 PT1 PT2 R1 R2G2

Sealing :Gas generator and power turbine bearinby pressurized labyrinths, which are pr

abradable deposits

G : GasPT : Pow

R : RedT : Tra

Note : The various accessory drive gears are supportedby ball bearings

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a g a ua

4-OIL SYSTEM- Oil system (79-00-00) ..................................................... 4

- Oil tank .......................................................................... 4

- Oil pumps (79-24-00) .................................................... 4

- Oil valve assembly (79-25-00) ....................................... 4- Oil filter (72-61-00) ........................................................ 4

- Filter pre-blockage indicator (72-61-00)...................... 4

- Oil cooler ....................................................................... 4

- Centrifugal breather (79-00-00) ................................... 4- Electrical magnetic plug (79-38-00) ............................. 4

- Mechanical magnetic plugs (72-15-00) and (72-61-00) 4

- Strainers (72-61-00) ....................................................... 4

- Low oil pressure switch (79-31-00) .............................. 4Oil pressure transmitter 4

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OIL SYSTEM - GENERAL

Function

The oil system ensures lubrication and cooling of theengine.

Position

All the components are fitted on the engine except the tank

and cooler.

Main characteristics

- System type : variable pressure, full flow, dry sump,synthetic oil

- Max oil temperature : 115 C (239 F)

- Min oil pressure : 130 kPa (18.85 PSIG)

- Max oil pressure : 1000 kPa (145 PSIG)

- Max oil consumption : 0.2 l/h.

Lubrication requirements

Lubrication is required for the follow

- Gas generator front bearings

Axial compressor bearing

Centrifugal compressor bearin

Accessory drive bearings

- Gas generator rear bearing

- Power turbine bearings

- Reduction gearbox

- Accessory gearbox.

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g

Type :Variable pressure, full flow,

dry sump, synthetic oil

Max temperature :115 C (239 F)

Min pressure :130 kPa (18.85 PSIG)

Max pressure :

1000 kPa (145 PSIG)

Max consumption :0,2 l/h

Frontbearings

Rearbearing

Frontbearing

POWER TUGAS GENERATOR

Bearings Gears Bearings

OIL SYSTEM

ENGINE

LUBRICATION

ENGINE

COOLING

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OIL SYSTEM - DESCRIPTION

The system contains all the components necessary for

engine lubrication : tank, pumps, filter, cooler, breatherand indicating devices.

Oil tank

The oil tank contains the volume of oil required to lubricatethe engine. It is supplied by the aircraft manufacturer.

Oil pumps

The oil pump unit contains one pressure pump and threescavenge pumps. The gerotor type pumps are driven by theaccessory gearbox. The pressure pump is equipped with apressure relief valve and a check valve at its outlet.

Oil valve assemblyThe oil valve assembly houses a check valve, an electricalmagnetic plug and the strainer for the gas generator rearbearing.

Oil filter

The oil filter retains any particles which may be present inthe oil. It is provided with a by-pass valve and a pre-blockage indicator. It also forms a heat exchanger with the

Scavenge strainers

The scavenge strainers protect the scdebris in the system.

Magnetic plugs

Mechanical magnetic plugs are fittscavenge pumps. An electrical mag

the scavenge outlet.

Oil cooler

The air cooled oil cooler cools the oilaircraft manufacturer.

Centrifugal breatherThe centrifugal breather separates thmist and vents the system.

Indicating devices

- Temperature probe (aircraft manu

- Low oil pressure switch

- Oil pressure transmitter (aircraft m

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g

ENGINEAIRFRAME

Pressurerelief valve

Pre-blockageindicator

Low oilpressure switch

Oil pressuretransmitter

MAGNETICPLUG

MAGNEPLU

COOLER

TANK

Temperatureprobe

Checkvalve

FILTER

By-passvalve

PRESSUREPUMP

FUEL-OIL HEATEXCHANGER

CENTRIFUGALBREATHER

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OIL SYSTEM - OPERATION

The main functions of the oil system are : supply, scavenge,

breathing and indicating.

Supply

The pressure pump draws the oil from the tank andsupplies the system. A pressure relief valve limits maximumpressure by returning oil to the pump inlet.

The oil is then delivered through a check valve, the oilfilter and restrictors to the engine sections which requirelubrication :

- Gas generator front bearings

- Gas generator rear bearing

- Power turbine bearings

- Reduction gearbox

- Accessory gearbox (supply upstream of the calibratedorifice).

The oil is sprayed by jets onto the parts to be lubricated. Italso supplies a squeeze film for the gas generator rearbearing and the power turbine front bearing.

Scavenge

After lubrication, the oil falls by gravthe sumps. The oil is then immediatelscavenge pumps and returned to the tvalve and the oil cooler (dry sump sy

The strainers protect the scavenge particles which may be held in the oilretain magnetic particles which may

Breathing

The oil mist which results from lubrthe accessory gearbox, where the oil iair by a centrifugal breather which v

Indicating

The system ensures the following intemperature, low pressure, electricafilter pre-blockage.

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Indication STRAINERS SUPPLYSUCTION

ENGINEAIRFRAME

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OIL TANK

Function

The tank contains the oil required for engine lubrication.

Position

- On the aircraft : it is installed with the oil cooler abovethe plenum chamber, between the main gearbox and thefront firewall. It is supplied by the aircraft manufacturer.

Main characteristics

- Aircraft manufacturer supply.

Main components

- Filler cap

- Temperature probe

- Unions (supply, return and vent).

Note :Refer to the aircraft manuaand operation.

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AIRCRAFT MANUFACTURER

SUPPLY

TE

FILLER

CAP

From

oil cooler

Air vent(to exhaust pipe)

To pressure

pump

Air vent(to exhaust pipe)

Fromoil cooler

TANK

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OIL PUMPS - GENERAL - DESCRIPTION

Function

The oil pumps ensure oil circulation.

Position

- In the system: on engine oil system inlet and outlet.

- On the engine: the pump unit is mounted by bolts on therear face of the accessory gearbox.

Main characteristics

- Type : gerotor

- Quantity : 4

- Pressure relief valve setting : 1500 kPa (217.5 PSI)

- Check valve.

Description

The pump unit comprises a body co(one pressure pump with pressurescavenge pumps).

The four pumps are driven by meanconnected to the accessory drive (N1

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Type :

Gerotor

Quantity :4

Pressure reliefvalve setting :

1500 kPa (217.5 PSI)

Check valve

DRIVE

SHAFT

PUMP

UNIT

PRESSUREPUMP

Fromoil tank

Tooil cooler

Checkvalve

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OIL PUMPS - OPERATION

Operating principle of a gerotor pump

A gerotor pump is a pump which comprises an inner rotordriving an outer rotor.

The inner rotor is eccentric to the outer rotor and has oneless lobe than the outer rotor has spaces.

Because of the eccentricity, the size of the chambers

formed between the two rotors varies with rotation.

Thus the oil is drawn in as the low pressure chamber sizeis increasing and is forced out under pressure as the highpressure chamber size decreases.

The process is continuous for each chamber, ensuring asmooth, positive flow.

Operation of the pressure pump

The pressure pump draws the oil from the tank and forcesit out under pressure in the supply circuit.

The whole pump flow is used (full flow ; pressure isfunction of the rotation speed, oil viscosity and oiltemperature).

Pressure relief valve operation

If the oil pressure exceeds the valve seand allows the oil to return t