Vol. 1 20--00--1
REV 56, Jan 31/03
POWER PLANT
Table of Contents
Flight Crew Operating Manual
CSP A--013
MASTER
CHAPTER 20 -- POWER PLANT
Page
TABLE OF CONTENTS 20--00
Table of Contents 20--00--1
INTRODUCTION 20--10
Introduction 20--10--1
THRUST CONTROL 20--20
Thrust Control 20--20--1
STARTING AND IGNITION SYSTEMS 20--30
Starting and Ignition Systems 20--30--1
Starting System 20--30--1
Ignition System 20--30--1
Start Sequence 20--30--2
Starter Limitations 20--30--2
System Circuit Breakers 20--30--6
OIL SYSTEM 20--40
Oil System 20--40--1
Engine Oil Level Indication System 20--40--4
Oil Replenishing System 20--40--6
Refilling Sequence 20--40--6
Engine Oil Filter Impending Bypass and Chip Detector Panel 20--40--8
System Circuit Breakers 20--40--11
FUEL SYSTEM 20--50
Fuel System 20--50--1
Engine Overspeed 20--50--4
Automatic Performance Reserve 20--50--4
N1 Thrust Settings <0039> 20--50--5
INTERTURBINE TEMPERATURE (ITT) MONITORING 20--55
Interturbine Temperature (ITT) Monitoring 20--55--1
VIBRATION MONITORING 20--60
Vibration Monitoring 20--60--1
System Circuit Breakers 20--60--3
REVERSE THRUST 20--70
Thrust Reverser System 20--70--1
System Circuit Breakers 20--70--6
REV 56, Jan 31/03
Vol. 1 20--00--2
POWER PLANT
Table of Contents
Flight Crew Operating Manual MASTER
CSP A--013
LIST OF ILLUSTRATIONS
INTRODUCTION
Figure 20--10--1 Power Plant -- Cross Section 20--10--3
THRUST CONTROL
Figure 20--20--1 Thrust Control -- Thrust Levers 20--20--2
STARTING AND IGNITION SYSTEMS
Figure 20--30--1 Starting and Ignition Systems -- Block Schematic 20--30--3
Figure 20--30--2 Starting and Ignition Systems -- Control Panel 20--30--4
OIL SYSTEM
Figure 20--40--1 Oil Distribution System -- Schematic 20--40--2
Figure 20--40--2 Oil System -- Oil Temp and Pressure
EICAS Indications 20--40--3
Figure 20--40--3 Engine Oil Level Indication System 20--40--5
Figure 20--40--4 Oil Replenishment System 20--40--7
Figure 20--40--5 Airplanes 7002 to 7158
Engine Oil Impending Bypass and Chip Detector Panel 20--40--9
Figure 20--40--5 Airplanes 7159 and Subsequent
Engine Oil Impending Bypass and Chip Detector Panel 20--40--10
FUEL SYSTEM
Figure 20--50--1 Fuel Distribution System Schematic 20--50--3
Figure 20--50--2 Engine Speed Control 20--50--5
Figure 20--50--3 Engine Indication (Fuel) 20--50--7
Figure 20--50--4 Engine Indication (N1) 20--50--8
Figure 20--50--5 Engine Indication (N2) 20--50--9
Figure 20--50--6 Automatic Performance Reserve (APR) 20--50--10
Figure 20--50--7 Engine Indication (N1 Bug) 20--50--11
Figure 20--50--8 Flight Management System Thrust Limit 20--50--12
INTERTURBINE TEMPERATURE (ITT) MONITORING
VIBRATION MONITORING
Figure 20--60--1 Engine Vibration Monitoring 20--60--2
REVERSE THRUST
Figure 20--70--1 Thrust Reverser Operation 20--70--3
Figure 20--70--2 Thrust Reverser 20--70--4
Figure 20--70--3 Reverse Thrust -- EICAS Indications 20--70--5
Vol. 1 20--10--1
REV 56, Jan 31/03
POWER PLANT
Introduction
Flight Crew Operating Manual
CSP A--013
MASTER
1. INTRODUCTION
The aircraft is equipped with two General Electric CF34--3A1 high bypass ratio turbofan
engines which have a normal take-off thrust rating of 8,729 pounds flat rated at 21_C (70_F).
In the event of an engine failure during takeoff, an automatic power reserve (APR) system,
will increase the thrust on the remaining engine to 9,220 pounds.
The aircraft is equipped with two General Electric CF34--3B1 high bypass ratio turbofan
engines which have a normal take-off thrust rating of 8,729 pounds flat rated at 30_C (86_F).
In the event of an engine failure during takeoff, an automatic power reserve (APR) system,
will increase the thrust on the remaining engine to 9,220 pounds.<0005>
The engine is a dual rotor assembly consisting of a fan rotor (N1) and a compressor rotor
(N2). The N1 rotor consists of a single-stage fan connected through a shaft to a 4-stage low
pressure turbine. The N2 rotor is a 14-stage axial flow compressor connected through a
shaft to a 2-stage high pressure turbine.
For normal engine function, intake airflow is accelerated through the single-stage N1 fan and
is divided into two airflow paths:
S Bypass air -- Air that is ducted around the engine to produce approximately 85% of the
engine thrust. On landing, thrust reversers are used to direct the bypass air forward to
assist in braking.
S Core air -- Air that enters the engine core section is compressed, mixed with fuel and
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