Airbus A350-900 Booklet
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Airbus A350-900 Booklet...
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@AIRBUS A350-900
AIRCRAFT CHARACTERISTICS AIRPORT AND MAINTENANCE PLANNING
AC
The content of this document is the property of Airbus. It is supplied in confidence and commercial security on its contents must be maintained. It must not be used for any purpose other than that for which it is supplied, nor may information contained in it be disclosed to unauthorized persons. It must not be reproduced in whole or in part without permission in writing from the owners of the copyright. Requests for reproduction of any data in this document and the media authorized for it must be addressed to Airbus. © AIRBUS S.A.S. 2005. All rights reserved.
AIRBUS S.A.S. Customer Services Technical Data Support and Services 31707 Blagnac Cedex FRANCE
Issue: Jun 01/13
Rev: Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
LIST OF EFFECTIVE CONTENT Revision No. 0 - Jun 01/13 CONTENT
CHG CODE
LAST REVISION DATE
N
Jun 01/13
N
Jun 01/13
N
Jun 01/13
General Aircraft Dimensions
N
Jun 01/13
FIGURE General Aircraft Dimensions
N
Jun 01/13
Ground Clearances
N
Jun 01/13
FIGURE Ground Clearances
N
Jun 01/13
Interior Arrangements - Plan View
N
Jun 01/13
FIGURE Standard Configuration
N
Jun 01/13
Interior Arrangements - Cross Section
N
Jun 01/13
FIGURE Typical Configuration
N
Jun 01/13
Cargo Compartments
N
Jun 01/13
FIGURE Cargo Compartments
N
Jun 01/13
Door Clearances and Location
N
Jun 01/13
FIGURE Door Location
N
Jun 01/13
CHAPTER 1 Subject 1-1-0 Introduction Subject 1-2-0 Glossary CHAPTER 2 Subject 2-1-0 General Aircraft Characteristics Subject 2-2-0
Subject 2-3-0
Subject 2-4-0
Subject 2-5-0
Subject 2-6-0
Subject 2-7-0
L.E.C. Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE
LAST REVISION DATE
Forward Doors
N
Jun 01/13
FIGURE Forward Doors
N
Jun 01/13
FIGURE Forward Doors
N
Jun 01/13
Aft Doors
N
Jun 01/13
FIGURE Aft Doors
N
Jun 01/13
FIGURE Aft Doors
N
Jun 01/13
Forward Cargo Compartment Door
N
Jun 01/13
FIGURE Forward Cargo Compartment Door
N
Jun 01/13
Aft Cargo Compartment Door
N
Jun 01/13
FIGURE Aft Cargo Compartment Door
N
Jun 01/13
Bulk Cargo Compartment Door
N
Jun 01/13
FIGURE Bulk Cargo Compartment Door
N
Jun 01/13
Nose Landing Gear Doors
N
Jun 01/13
FIGURE Nose Landing Gear Doors
N
Jun 01/13
Main Landing Gear Doors
N
Jun 01/13
FIGURE Main Landing Gear Doors
N
Jun 01/13
Escape Slides
N
Jun 01/13
FIGURE Escape Slides
N
Jun 01/13
Landing Gear
N
Jun 01/13
FIGURE Main Landing Gear
N
Jun 01/13
Subject 2-7-1
Subject 2-7-3
Subject 2-7-4
Subject 2-7-5
Subject 2-7-6
Subject 2-7-7
Subject 2-7-8
Subject 2-8-0
Subject 2-9-0
L.E.C. Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE N
LAST REVISION DATE Jun 01/13
Exterior Lighting
N
Jun 01/13
FIGURE Exterior Lighting
N
Jun 01/13
FIGURE Exterior Lighting
N
Jun 01/13
FIGURE Exterior Lighting
N
Jun 01/13
FIGURE Exterior Lighting
N
Jun 01/13
FIGURE Exterior Lighting
N
Jun 01/13
Antennas and Probes Location
N
Jun 01/13
FIGURE Antennas and Probes Location
N
Jun 01/13
Engine and Nacelle
N
Jun 01/13
FIGURE Engine and Nacelle
N
Jun 01/13
APU
N
Jun 01/13
FIGURE APU
N
Jun 01/13
Levelling, Symmetry and Alignement
N
Jun 01/13
FIGURE Location of Leveling Points
N
Jun 01/13
Jacking for Maintenance
N
Jun 01/13
FIGURE Jacking for Maintenance
N
Jun 01/13
Jacking for wheel change
N
Jun 01/13
FIGURE Nose Landing Gear Jacking Point Heights
N
Jun 01/13
FIGURE Main Landing Gear Jacking Point Heights
N
Jun 01/13
FIGURE Nose Landing Gear Subject 2-10-0
Subject 2-11-0
Subject 2-12-0
Subject 2-12-1
Subject 2-13-0
Subject 2-14-1
Subject 2-14-2
CHAPTER 4 Subject 4-2-0 L.E.C. Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE N
LAST REVISION DATE Jun 01/13
N
Jun 01/13
Minimum Turning Radii
N
Jun 01/13
FIGURE Minimum Turning Radii
N
Jun 01/13
Visibility from Cockpit in Static Position
N
Jun 01/13
FIGURE Visibility from Cockpit in Static Position
N
Jun 01/13
N
Jun 01/13
90˚ Turn - Runway to Taxiway
N
Jun 01/13
FIGURE 90˚ Turn - Runway to Taxiway
N
Jun 01/13
135˚ Turn - Runway to Taxiway
N
Jun 01/13
FIGURE 135˚ Turn - Runway to Taxiway
N
Jun 01/13
180˚ Turn on a Runway
N
Jun 01/13
FIGURE 180˚ Turn on a Runway
N
Jun 01/13
90˚ Turn - Taxiway to Taxiway
N
Jun 01/13
FIGURE 90˚ Turn - Taxiway to Taxiway
N
Jun 01/13
135˚ Turn - Taxiway to Taxiway
N
Jun 01/13
FIGURE 135˚ Turn - Taxiway to Taxiway
N
Jun 01/13
Runway Holding Bay (Apron)
N
Jun 01/13
FIGURE Runway Holding Bay (Apron)
N
Jun 01/13
Turning Radii FIGURE Turning Radii Subject 4-3-0
Subject 4-4-0
Subject 4-5-0 Introduction Subject 4-5-1
Subject 4-5-2
Subject 4-5-3
Subject 4-5-4
Subject 4-5-5
Subject 4-6-0
Subject 4-7-0
L.E.C. Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE N
LAST REVISION DATE Jun 01/13
FIGURE 90˚ Turn on Runway Entry
N
Jun 01/13
FIGURE 180˚ Turn on Runway Turn Pad
N
Jun 01/13
FIGURE 180˚ Turn on Runway Width
N
Jun 01/13
Aircraft Mooring
N
Jun 01/13
FIGURE Aircraft Mooring
N
Jun 01/13
N
Jun 01/13
Typical Ramp Layout (Open Apron)
N
Jun 01/13
FIGURE Typical Ramp Layout (Open Apron)
N
Jun 01/13
Typical Ramp Layout (Gate)
N
Jun 01/13
FIGURE Typical Ramp Layout (Gate)
N
Jun 01/13
Terminal Operations - Full Servicing Turn Round Time
N
Jun 01/13
FIGURE Full Servicing Turn Round Time Chart
N
Jun 01/13
Terminal Operations - Transit Turn Round Time
N
Jun 01/13
FIGURE Transit Turn Round Time
N
Jun 01/13
Ground Service Connections layout
N
Jun 01/13
FIGURE Ground Service Connections layout
N
Jun 01/13
Grounding Points
N
Jun 01/13
FIGURE Ground Point NLG
N
Jun 01/13
FIGURE Ground Point MLG
N
Jun 01/13
Minimum Line-Up Distance Corrections
Subject 4-8-0
CHAPTER 5 Subject 5-1-0 Aircraft Servicing Arrangements Subject 5-1-1
Subject 5-1-2
Subject 5-2-0
Subject 5-3-0
Subject 5-4-0
Subject 5-4-1
L.E.C. Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE
LAST REVISION DATE
Hydraulic System
N
Jun 01/13
FIGURE Green Ground Service Panel
N
Jun 01/13
FIGURE Yellow Ground Service Panel
N
Jun 01/13
Electrical System
N
Jun 01/13
FIGURE Electrical Service Panel
N
Jun 01/13
FIGURE RAT
N
Jun 01/13
Oxygen System
N
Jun 01/13
FIGURE Oxygen System
N
Jun 01/13
Fuel System
N
Jun 01/13
FIGURE Refuel/Defuel Control Panel
N
Jun 01/13
FIGURE Ground Service Connections
N
Jun 01/13
FIGURE NACA and Overpressure Locations
N
Jun 01/13
Pneumatic System
N
Jun 01/13
FIGURE Low Pressure Preconditioned Air
N
Jun 01/13
FIGURE High Pressure Preconditioned Air
N
Jun 01/13
Potable Water System
N
Jun 01/13
FIGURE Potable Water Ground Service Panel
N
Jun 01/13
FIGURE Forward Drain panel
N
Jun 01/13
FIGURE Potable Water Tanks Location
N
Jun 01/13
Oil System
N
Jun 01/13
FIGURE Engine Oil Servicing
N
Jun 01/13
FIGURE VFG Oil Servicing
N
Jun 01/13
Subject 5-4-2
Subject 5-4-3
Subject 5-4-4
Subject 5-4-5
Subject 5-4-6
Subject 5-4-7
Subject 5-4-8
L.E.C. Page 6 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE N
LAST REVISION DATE Jun 01/13
N
Jun 01/13
Vacuum Toilet System
N
Jun 01/13
FIGURE Ground Service Panel
N
Jun 01/13
FIGURE Waste Tanks Location
N
Jun 01/13
Ground Pneumatic Power Requirements
N
Jun 01/13
FIGURE Ground Pneumatic Power Requirements
N
Jun 01/13
Preconditioned Airflow Requirements
N
Jun 01/13
FIGURE Preconditioned Airflow Requirements
N
Jun 01/13
Towing Requirements
N
Jun 01/13
FIGURE Towing Requirements
N
Jun 01/13
N
Jun 01/13
APU Exhaust Velocities and Temperatures
N
Jun 01/13
FIGURE APU Exhaust Velocities and Temperatures
N
Jun 01/13
N
Jun 01/13
Landing Gear Footprint
N
Jun 01/13
FIGURE Landing Gear Footprint
N
Jun 01/13
N
Jun 01/13
FIGURE Starter Oil Servicing FIGURE APU Oil Servicing Subject 5-4-9
Subject 5-6-0
Subject 5-7-0
Subject 5-8-0
Subject 5-9-0 De-icing and External cleaning CHAPTER 6 Subject 6-4-0
CHAPTER 7 Subject 7-1-0 General Information Subject 7-2-0
Subject 7-3-0 Maximum Pavement Loads
L.E.C. Page 7 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE N
LAST REVISION DATE Jun 01/13
Landing Gear Loading on Pavement
N
Jun 01/13
FIGURE Landing Gear Loading on Pavement
N
Jun 01/13
Flexible Pavement Requirements - US Army Corps of Engineers Design Method S-77-1
N
Jun 01/13
FIGURE Flexible Pavement Requirements
N
Jun 01/13
Flexible Pavement Requirements - LCN Conversion
N
Jun 01/13
FIGURE Flexible Pavement Requirements - LCN
N
Jun 01/13
N
Jun 01/13
N
Jun 01/13
Rigid Pavement Requirements - LCN Conversion
N
Jun 01/13
FIGURE Rigid Pavement Requirements - LCN
N
Jun 01/13
Radius of Relative Stiffness (L)
N
Jun 01/13
FIGURE Radius of Relative Stiffness (L)
N
Jun 01/13
Radius of Relative Stiffness (Other values of E and µ)
N
Jun 01/13
FIGURE Radius of Relative Stiffness (Effect E and µ ON ”L” values)
N
Jun 01/13
Aircraft Classification Number - Flexible Pavement
N
Jun 01/13
FIGURE Aircraft Classification Number - Flexible Pavement
N
Jun 01/13
Aircraft Classification Number - Rigid Pavement
N
Jun 01/13
FIGURE Aircraft Classification Number - Rigid Pavement
N
Jun 01/13
FIGURE Maximum Pavement Loads Subject 7-4-0
Subject 7-5-0
Subject 7-6-0
Subject 7-7-0 Rigid Pavement Requirements - Portland Cement Association Design Method FIGURE Rigid Pavement Requirements Subject 7-8-0
Subject 7-8-1
Subject 7-8-2
Subject 7-9-0
Subject 7-9-1
L.E.C. Page 8 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
CONTENT
CHG CODE
LAST REVISION DATE
Scaled Drawings
N
Jun 01/13
FIGURE Scaled Drawings
N
Jun 01/13
Aircraft Rescue and Fire Fighting
N
Jun 01/13
FIGURE Front Page
N
Jun 01/13
FIGURE Highly Flammable and Hazardous Materials and Components
N
Jun 01/13
FIGURE Crew Rest Compartments Location
N
Jun 01/13
FIGURE Wheel/Brake Overheat
N
Jun 01/13
FIGURE Composite Materials Location
N
Jun 01/13
FIGURE Ground Lock Safety Devices
N
Jun 01/13
FIGURE Emergency Evacuation Devices
N
Jun 01/13
FIGURE Pax/Crew Doors and Emergency Exits
N
Jun 01/13
FIGURE Cockpit Emergency Exit
N
Jun 01/13
FIGURE FWD and AFT Lower Deck Cargo Doors
N
Jun 01/13
FIGURE Control Panels
N
Jun 01/13
FIGURE APU Compartment Access
N
Jun 01/13
FIGURE Aircraft Ground Clearances
N
Jun 01/13
FIGURE Structural Break-in Points
N
Jun 01/13
FIGURE Batteries Location and Access
N
Jun 01/13
CHAPTER 8 Subject 8-0-0
CHAPTER 10 Subject 10-0-0
L.E.C. Page 9 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
TABLE OF CONTENTS
1 1-1-0 1-2-0
SCOPE INTRODUCTION Glossary
2 AIRCRAFT DESCRIPTION 2-1-0 General Aircraft Characteristics 2-2-0 General Aircraft Dimensions 2-3-0 Ground Clearances 2-4-0 Interior Arrangements - Plan View 2-5-0 Interior Arrangements - Cross Section 2-6-0 Cargo Compartments 2-7-0 Door Clearances and Location 2-7-1 Forward Doors 2-7-3 Aft Doors 2-7-4 Forward Cargo Compartment Door 2-7-5 Aft Cargo Compartment Door 2-7-6 Bulk Cargo Compartment Door 2-7-7 Nose Landing Gear Doors 2-7-8 Main Landing Gear Doors 2-8-0 Escape Slides 2-9-0 Landing Gear 2-10-0 Exterior Lighting 2-11-0 Antennas and Probes Location 2-12-0 Engine and Nacelle 2-12-1 APU 2-13-0 Levelling, Symmetry and Alignement 2-14-1 Jacking for Maintenance 2-14-2 Jacking for wheel change 4 4-2-0 4-3-0 4-4-0 4-5-0 4-5-1
GROUND MANEUVERING Turning Radii Minimum Turning Radii Visibility from Cockpit in Static Position Runway and Taxiway Turn Paths 90˚ Turn - Runway to Taxiway T.O.C. Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-2 4-5-3 4-5-4 4-5-5 4-6-0 4-7-0 4-8-0
135˚ Turn - Runway to Taxiway 180˚ Turn on a Runway 90˚ Turn - Taxiway to Taxiway 135˚ Turn - Taxiway to Taxiway Runway Holding Bay (Apron) Minimum Line-Up Distance Corrections Aircraft Mooring
5 5-1-0 5-1-1 5-1-2 5-2-0 5-3-0 5-4-0 5-4-1 5-4-2 5-4-3 5-4-4 5-4-5 5-4-6 5-4-7 5-4-8 5-4-9 5-6-0 5-7-0 5-8-0 5-9-0
TERMINAL SERVICING Aircraft Servicing Arrangements Typical Ramp Layout (Open Apron) Typical Ramp Layout (Gate) Terminal Operations - Full Servicing Turn Round Time Terminal Operations - Transit Turn Round Time Ground Service Connections layout Grounding Points Hydraulic System Electrical System Oxygen System Fuel System Pneumatic System Potable Water System Oil System Vacuum Toilet System Ground Pneumatic Power Requirements Preconditioned Airflow Requirements Towing Requirements De-icing and External cleaning
6 6-4-0
OPERATING CONDITIONS APU Exhaust Velocities and Temperatures
7 7-1-0 7-2-0 7-3-0 7-4-0 7-5-0
PAVEMENT DATA General Information Landing Gear Footprint Maximum Pavement Loads Landing Gear Loading on Pavement Flexible Pavement Requirements - US Army Corps of Engineers Design Method S-77-1 T.O.C. Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-6-0 7-7-0 7-8-0 7-8-1 7-8-2 7-9-0 7-9-1 8 8-0-0
Flexible Pavement Requirements - LCN Conversion Rigid Pavement Requirements - Portland Cement Association Design Method Rigid Pavement Requirements - LCN Conversion Radius of Relative Stiffness (L) Radius of Relative Stiffness (Other values of E and µ) Aircraft Classification Number - Flexible Pavement Aircraft Classification Number - Rigid Pavement SCALED DRAWINGS Scaled Drawings
10 AIRCRAFT RESCUE AND FIRE FIGHTING 10-0-0 Aircraft Rescue and Fire Fighting
T.O.C. Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
SCOPE 1-1-0
INTRODUCTION
**ON A/C A350-900 Introduction 1.
General The A350 AIRCRAFT CHARACTERISTICS AIRPORT AND MAINTENANCE PLANNING (AC) manual is issued for the A350-900 series aircraft to provide necessary data to airport operators and airlines for airport facilities planning. The data given in this issue of the A350 AIRCRAFT CHARACTERISTICS AIRPORT AND MAINTENANCE PLANNING (AC) can be subject to change pending completion of the design and flight test phase. It is given for guidance only and does not constitute a contractual commitment. This document is not customized and must not be used for training purposes. The A350 XWB is a new family of mid-size medium to long range new technology aircraft that will deliver superior fuel efficiency, passenger comfort, environmental characteristics and economics, with a global market coverage. The aircraft is designed to offer multiple payload capabilities with a consistant range ability across the family. The A350 XWB is equipped with two Rolls-Royce Trent XWB engines. This engine will incorporate the most advanced technologies to provide the best aircraft performance, maintainability, lowest fuel consumption and environmental impact. Reflecting market needs, the A350 XWB offers a high level of cargo hold capability and flexibility. Two wide cargo doors and a Cargo Loading System (CLS) compatible with most lower deck cargo containers and pallet standards, allowing interlining operations, ease the loading. The A350 XWB provides easy and cost effective ground handling minimizing aircraft turn round time. The innovative A350 XWB design increases planning flexibility to perform maintenance during the aircraft scheduled downtime. Correspondence concerning this publication should be directed to: AIRBUS S.A.S. Customer Services Technical Data Support and Services 1 Rond Point Maurice BELLONTE 31707 BLAGNAC CEDEX FRANCE
1-1-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
1-2-0
Glossary
**ON A/C A350-900 Glossary 1. List of Abbreviations Aircraft A/C ACN Aircraft Classification Number APU Auxiliary Power Unit Business Class B/C California Bearing Ratio CBR CC Cargo Compartment CG Center of Gravity E Young’s Modulus ESWL Equivalent Single Wheel Load FAA Federal Aviation Administration FDL Fuselage Datum Line FR Frame FSTE Full Size Trolley Equivalent FWD Forward GPU Ground Power Unit Ground Support Equipment GSE ICAO International Civil Aviation Organisation International Standard Atmosphere ISA L Radius of relative stiffness LCN Load Classification Number LD Load Device LD Lower Deck LH Left Hand LP Low Pressure LPS Last Pax Seating MAC Mean Aerodynamic Chord MAX Maximum MIN Minimum MLG Main Landing Gear NLG Nose Landing Gear Outside Air Temperature OAT PAX Passenger PBB Passenger Boarding Bridge
1-2-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
PCA PCN PRM RH ULD US VFG WV Y/C 2.
Portland Cement Association Pavement Classification Number Passenger with Reduced Mobility Right Hand Unit Load Device United States Variable Frequency Generator Weight Variant Economic Class
Design Weight Terminology Maximum Design Ramp Weight (MRW): Maximum weight for ground maneuver (including weight of taxi and run-up fuel) as limited by aircraft strength and airworthiness requirements. It is also called Maximum Design Taxi Weight (MTW). Maximum Design Landing Weight (MLW): Maximum weight for landing as limited by aircraft strength and airworthiness requirements. Maximum Design Takeoff Weight (MTOW): Maximum weight for takeoff as limited by aircraft strength and airworthiness requirements. (This is the maximum weight at start of the take-off run). Maximum Design Zero Fuel Weight (MZFW): Maximum permissible weight of the aircraft without usable fuel. Maximum Seating Capacity: Maximum number of passengers specifically certified or anticipated for certification. Usable Volume: Usable volume available for cargo, pressurized fuselage, passenger compartment and cockpit. Water Volume: Maximum volume of cargo compartment. Usable Fuel: Fuel available for aircraft propulsion.
1-2-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
AIRCRAFT DESCRIPTION 2-1-0
General Aircraft Characteristics
**ON A/C A350-900 General Aircraft Characteristics 1.
The following table provides characteristics of the A350--900. Aircraft Characteristics Basic Weights 268900 kg (592824.0 lb) 268000 kg (590839.0 lb) 205000 kg (451948.0 lb) 192000 kg (423288.0 lb)
Maximum Taxi Weight (MTW) Maximum Ramp Weight (MRW) Maximum Take Off Weight (MTOW) Maximum Landing Weight (MLW) Maximum Zero Fuel Weight (MZFW)
Aircraft Characteristics Standard Seating Capacity Usable Fuel Capacity (density = 0.785 kg/l)
Pressurized Fuselage Volume Cockpit Volume Passenger Compartment Volume Usable Volume, FWD CC (Based on LD3) Usable Volume, AFT CC (Based on LD3) Usable Volume, Bulk CC Water Volume, FWD CC
315 (2 class) 138000 l (36456.4 USgal) 108330 kg (238827.0 lb) 971 m3 (34291.0 ft.3) 8.23 m3 (291.0 ft.3) 473.7 m3 (16729.0 ft.3) 89.4 m3 (3157.0 ft.3) 71.5 m3 (2525.0 ft.3) 9.12 m3 (322.07 ft.3) 113.4 m3 (4004.7 ft.3)
2-1-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
Aircraft Characteristics Water Volume, AFT CC Water Volume, Bulk CC
95.8 m3 (3383.16 ft.3) 11.4 m3 (402.59 ft.3)
2-1-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-2-0
General Aircraft Dimensions
**ON A/C A350-900 General Aircraft Dimensions 1.
This section provides general aircraft dimensions.
2-2-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 66.61 m (218.54 ft) 3.04 m (9.97 ft) 6.09 m (19.98 ft)
9.42 m (30.90 ft)
4.63 m (15.19 ft) 28.66 m (94.03 ft) 65.26 m (214.11 ft) 64.75 m (212.43 ft) 18.79 m (61.65 ft)
1.74 m (5.71 ft) 0.75 m (2.46 ft)
10.60 m (34.77 ft) 12.87 m (42.22 ft) RELATED TO AIRCRAFT ATTITUDE AND WEIGHT
P_AC_020200_1_0010001_01_01
General Aircraft Dimensions (Sheet 1 of 2) FIGURE-2-2-0-991-001-A01
2-2-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 66.80 m (219.16 ft)
2.46 m (8.07 ft) 5.96 m (19.55 ft)
10.50 m (34.45 ft)
7.86 m (25.79 ft) 12.75 m (41.83 ft) 17.02 m (55.84 ft)
9.62 m (31.56 ft)
21.97 m (72.08 ft)
5.18 m (16.99 ft) 46.68 m (153.15 ft)
RELATED TO AIRCRAFT ATTITUDE AND WEIGHT
P_AC_020200_1_0010001_02_01
General Aircraft Dimensions (Sheet 2 of 2) FIGURE-2-2-0-991-001-A01
2-2-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-3-0
Ground Clearances
**ON A/C A350-900 Ground Clearances 1.
This section gives the height of various points of the aircraft, above the ground, for different aircraft configurations. Dimensions in the tables are approximate and will vary with tire type, weight and balance and other special conditions. The dimensions are given for: - A light weight, for an A/C in maintenance configuration with FWD CG and a AFT CG, - An aircraft at MRW with a FWD CG and a AFT CG, - Aircraft on jacks, FDL at 6.50 m (21.33 ft.). NOTE : Passenger and cargo door ground clearances are measured from the center of the door sill and from floor level.
2-3-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
VT
AP
D4 C3 C2 F2 F4
D3 BF3
D2 BF1
BF2
F3 C1
D1 D5
RD1 CP1
F1
N1 WL1
FT3
FT2
FT1
HT
WL2
A/C (142 000 kg) (142 000 kg) A/C JACKED MRW MRW CONFIGURATION FWD CG (26%) AFT CG (33.1%) FWD CG (20%) AFT CG (40%) FDL = 6.5 m (21.33 ft) AP BF1 BF2 BF3 C1 C2 C3 CP1 D1 D2 D3 D4 D5 F1 F2 F3 F4 FT1 FT2 FT3 HT N1 RD1 VT WL1 WL2
m ft 6.61 21.69 2.44 8.01 1.93 6.33 2.52 8.27 3.09 10.14 3.25 10.66 3.25 10.66 5.84 19.16 5.05 16.57 5.10 16.73 5.17 16.92 5.22 17.13 7.25 23.79 2.41 7.91 8.30 2.53 8.50 27.89 8.41 27.59 3.72 12.21 4.53 14.86 5.17 16.96 7.67 25.16 0.74 2.43 3.98 13.06 17.17 56.33 9.40 30.84 6.98 22.90
m 6.55 2.46 1.93 2.50 3.13 3.22 3.21 5.90 5.10 5.12 5.15 5.18 7.31 2.45 2.50 8.54 8.38 3.71 4.52 5.16 7.60 0.75 4.04 17.10 9.37 6.96
ft 21.49 8.07 6.33 8.20 10.27 10.56 10.53 19.36 16.73 16.80 16.90 17.00 23.98 8.04 8.20 28.02 27.49 12.17 14.83 16.93 24.93 2.46 13.26 56.10 30.74 22.84
m 6.83 2.56 2.07 2.68 3.19 3.43 3.43 5.93 5.15 5.22 5.32 5.41 7.33 2.51 2.70 8.61 8.59 3.87 4.68 5.32 7.88 0.87 4.06 17.39 9.57 7.14
ft m 6.52 22.41 2.66 8.40 6.79 2.08 8.79 2.59 10.47 3.37 11.25 3.29 11.25 3.26 6.20 19.46 5.37 16.90 5.33 17.13 5.27 17.45 5.21 17.75 24.05 7.61 8.23 2.70 8.86 2.58 8.78 28.25 8.45 28.18 3.84 12.70 15.35 4.64 17.45 5.27 25.85 7.56 0.93 2.85 13.32 4.34 57.05 17.07 31.40 9.44 23.43 7.04
ft 21.39 8.73 6.82 8.50 11.06 10.79 10.70 20.34 17.62 17.49 17.29 17.09 24.97 8.86 8.46 28.81 27.72 12.60 15.22 17.29 24.80 3.05 14.24 56.00 30.97 23.10
m 7.72 3.71 3.16 3.71 4.39 4.43 4.41 7.18 6.37 6.37 6.37 6.37 8.59 3.71 3.71 9.80 9.58 4.94 5.74 6.38 8.77 1.99 5.32 18.27 10.57 8.17
ft 25.33 12.17 10.37 12.17 14.40 14.53 14.47 23.56 20.90 20.90 20.90 20.90 28.18 12.17 12.17 32.15 31.43 16.21 18.83 20.93 28.77 6.53 17.45 59.94 34.68 26.80
NOTE: PASSENGER AND CARGO DOOR GROUND CLEARANCES ARE MEASURED FROM THE CENTER OF THE DOOR SILL AND FROM FLOOR LEVEL.
P_AC_020300_1_0010001_01_02
Ground Clearances FIGURE-2-3-0-991-001-A01
2-3-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-4-0
Interior Arrangements - Plan View
**ON A/C A350-900 Interior Arrangements - Plan View 1.
This section gives the standard configuration.
2-4-0
Page 1 Jun 01/13
A
G
L
S
A L
PASSENGER DOOR 1 LH
L
G
PASSENGER DOOR 1 RH
ITEM G L A S
G
DESIGNATION (12) GALLEY (9) LAVATORY ATTENDANT SEAT (8) (1) STOWAGE
PASSENGER DOOR 2 LH
A
A
PASSENGER DOOR 2 RH
2-4-0
SEAT PITCHES: ECONOMY 32 in. BUSINESS 60 in.
G A
A
G G
G G G G
PASSENGER DOOR 4 LH
L
L
PASSENGER DOOR 4 RH
48 BUSINESS CLASS (6−ABREAST) 267 ECONOMY CLASS (9−ABREAST)
PASSENGER SEATS (315 TOTAL)
PASSENGER DOOR 3 LH
L A
L
L
L A
PASSENGER DOOR 3 RH
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_020400_1_0010001_01_01
Standard Configuration FIGURE-2-4-0-991-001-A01
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-5-0
Interior Arrangements - Cross Section
**ON A/C A350-900 Interior Arrangements - Cross Section 1.
This section gives the typical configuration.
2-5-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 BUSINESS CLASS / FIRST CLASS 6 ABREAST
1.50 m (59 in)
0.57 m (22.5 in)
0.55 m (21.5 in)
0.18 m (7 in)
0.09 m (3.5 in)
BASELINE ECONOMY CLASS 9 ABREAST
1.53 m (60.11 in)
0.04 m (1.5 in)
0.46 m (18 in)
0.46 m (18.1in) NOTE: AISLE WIDTH MAY VARY DEPENDING ON ACTUAL CABIN CONFIGURATION SELECTED BY CUSTOMER
P_AC_020500_1_0010001_01_01
Typical Configuration FIGURE-2-5-0-991-001-A01
2-5-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-6-0
Cargo Compartments
**ON A/C A350-900 Cargo Compartments 1.
This section gives cargo compartments : - Locations and dimensions, - Loading combinations.
2-6-0
Page 1 Jun 01/13
2.90 m (114.55 in)
FR19
16.221 m (638.62 in)
LOWER DECK FORWARD CARGO COMPARTMENT
FR44
2-6-0
13.578 m (535.57 in)
2.85 m (112.34 in)
LOWER DECK AFT CARGO COMPARTMENT
FR61 FR85
0.95 m (37.4 in)
1.91 m (75.20 in)
LOWER DECK BULK CARGO COMPARTMENT
FR82
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_020600_1_0020001_01_00
Cargo Compartments Locations and Dimensions (Sheet 1 of 2) FIGURE-2-6-0-991-002-A01
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
STANDARD: 20 LD3 CONTAINERS
STANDARD: 6 PALLETS 88 in / 96 in X 125 in
STANDARD: 16 LD3 CONTAINERS
STANDARD: 5 PALLETS 88 in / 96 in X 125 in
**ON A/C A350-900
P_AC_020600_1_0020001_02_00
Cargo Compartments Loading Combinations (Sheet 2 of 2) FIGURE-2-6-0-991-002-A01
2-6-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-0
Door Clearances and Location
**ON A/C A350-900 Door Clearances and Location 1.
This section gives door clearances and location.
2-7-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
PAX DOOR 1 LH
PAX DOOR 2 LH
PAX DOOR 3 LH
PAX DOOR 4 LH
BULK CARGO DOOR
COCKPIT ESCAPE HATCH
PAX DOOR 4 RH
PAX DOOR 3 RH
PAX DOOR 2 RH
AFT CARGO DOOR
PAX DOOR 1 RH
FORWARD CARGO DOOR
P_AC_020700_1_0010001_01_01
Door Location (Sheet 1 of 2) FIGURE-2-7-0-991-001-A01
2-7-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 52.55 m (172.41 ft)
37.93 m (124.44 ft)
18.85 m (61.84 ft)
6.85 m (22.47 ft)
49.99 m (164.01 ft)
4.12 m (13.52 ft)
11.69 m (38.35 ft) 47.30 m (155.18 ft)
P_AC_020700_1_0010001_02_01
Door Location (Sheet 2 of 2) FIGURE-2-7-0-991-001-A01
2-7-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-1
Forward Doors
**ON A/C A350-900 Forward Doors 1.
This section gives forward door clearances.
2-7-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
2.16 m (7.09 ft)
0.06 m (0.20 ft)
FWD
0.82 m (2.69 ft)
0.73 m (2.40 ft)
2.46 m (8.07 ft) FWD P_AC_020701_1_0010001_01_00
Forward Doors FIGURE-2-7-1-991-001-A01
2-7-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
2.16 m (7.09 ft)
0.06 m (0.20 ft)
FWD
0.84 m (2.76 ft)
2.46 m (8.07 ft)
0.70 m (2.30 ft)
FWD
P_AC_020701_1_0020001_01_00
Forward Doors FIGURE-2-7-1-991-002-A01
2-7-1
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-3
Aft Doors
**ON A/C A350-900 Aft Doors 1.
This section gives aft door clearances.
2-7-3
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
2.11 m (6.92 ft)
0.06 m (0.20 ft)
FWD
0.84 m (2.76 ft)
0.70 m (2.30 ft)
2.46 m (8.07 ft) FWD P_AC_020703_1_0010002_01_00
Aft Doors FIGURE-2-7-3-991-001-B01
2-7-3
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
2.16 m (7.09 ft)
0.06 m (0.20 ft)
FWD
0.75 m (2.46 in)
0.80 m (2.62 ft)
2.45 m (8.04 ft) FWD
P_AC_020703_1_0020001_01_00
Aft Doors FIGURE-2-7-3-991-002-A01
2-7-3
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-4
Forward Cargo Compartment Door
**ON A/C A350-900 Forward Cargo Compartment Door 1.
This section gives forward cargo compartment door clearances.
2-7-4
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
FWD
A
2.51 m (8.23 ft)
1.90 m (6.23 ft)
SEE CHAPTER 2−3
2.59 m (8.50 ft)
0.08 m (0.26 ft)
A A P_AC_020704_1_0010001_01_00
Forward Cargo Compartment Door FIGURE-2-7-4-991-001-A01
2-7-4
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-5
Aft Cargo Compartment Door
**ON A/C A350-900 Aft Cargo Compartment Door 1.
This section gives aft cargo compartment door clearances.
2-7-5
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
FWD
A
2.53 m (8.30 ft)
1.91 m (6.27 ft)
SEE CHAPTER 2−3
2.57 m (8.43 ft)
0.10 m (0.33 ft)
A A P_AC_020705_1_0010001_01_00
Aft Cargo Compartment Door FIGURE-2-7-5-991-001-A01
2-7-5
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-6
Bulk Cargo Compartment Door
**ON A/C A350-900 Bulk Cargo Compartment Door 1.
This section gives the bulk cargo compartment door clearances.
2-7-6
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
FWD
A
0.77 m (2.53 ft)
1.75 m (5.74 ft)
SEE CHAPTER 2−3
A A P_AC_020706_1_0010001_01_00
Bulk Cargo Compartment Door FIGURE-2-7-6-991-001-A01
2-7-6
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-7
Nose Landing Gear Doors
**ON A/C A350-900 Nose Landing Gear Doors 1.
This section gives nose landing gear (NLG) door clearances.
2-7-7
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
1.06 m (3.48 ft)
61.8 °
R 0.78 m (2.56 ft)
R 1.06 m (3.48 ft) 2.93 m (9.61 ft)
0.77 m (2.53 ft)
2m (6.56 ft)
A
P_AC_020707_1_0010001_01_00
Nose Landing Gear Doors Forward Nose Landing Gear Doors (Sheet 1 of 2) FIGURE-2-7-7-991-001-A01
2-7-7
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
0.76 m (2.49 ft)
R 0.71 m (2.33 ft) R 0.72 m (2.36 ft)
69.8 °
0.59 m (1.94 ft)
2.03 m (6.66 ft)
2.15 m (7.05 ft)
A P_AC_020707_1_0010001_02_00
Nose Landing Gear Doors Aft Nose Landing Gear Doors (Sheet 2 of 2) FIGURE-2-7-7-991-001-A01
2-7-7
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-7-8
Main Landing Gear Doors
**ON A/C A350-900 Main Landing Gear Doors 1.
This section gives main landing gear (MLG) door clearances.
2-7-8
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
2.75 m (9.02 ft)
1.63 m (5.35 ft)
81.3 °
R 2.43 m (7.97 ft)
0.13 m 0.19 m (0.43 ft) (0.62 ft)
A
P_AC_020708_1_0010001_01_00
Main Landing Gear Doors FIGURE-2-7-8-991-001-A01
2-7-8
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-8-0
Escape Slides
**ON A/C A350-900 Escape Slides 1.
General This section gives location of escape facilities and related clearances.
2.
Location Escape facilities are provided at the following locations: - One cockpit escape rope is kept in a dedicated stowage compartment adjacent to the escape hatch, - One slide-raft at each passenger/crew door (total eight).
2-8-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
CABIN DUAL−LANE SLIDE/RAFT
CABIN DUAL−LANE SLIDE/RAFT
CABIN DUAL−LANE SLIDE/RAFT
COCKPIT ESCAPE ROPE
CABIN SINGLE−LANE SLIDE/RAFT
P_AC_020800_1_0010001_01_01
Escape Slides Location (Sheet 1 of 2) FIGURE-2-8-0-991-001-A01
2-8-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
GRID EQUALS 1 m (3.28 ft) IN REALITY
0
3
6
9
12
15
18
21
24
27
30
33
EMERGENCY DESCENT THROUGH THE ESCAPE HATCH WITH THE ESCAPE ROPE
**ON A/C A350-900
P_AC_020800_1_0010001_02_00
Escape Slides Dimensions (Sheet 2 of 2) FIGURE-2-8-0-991-001-A01
2-8-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-9-0
Landing Gear
**ON A/C A350-900 Landing Gear 1.
MLG System Description The two MLGs are mounted in the LH and RH wing just outboard of the wing root within the trailing edge. The MLGs retract sideways into bays in the fuselage. Each MLG has a four wheel twin-tandem bogie. Each MLG has one associated main door operated by a single door actuator. Each MLG has a gear uplock and a door uplock. The MLG has a double side stay arrangement to improve load distribution on the composite wing. Each side stay has a separate lock stay assembly to provide a positive means to lock landing gear in the extended position for landing and ground manoeuvres. Each MLG leg contains a single stage oleo shock strut consisting of a sliding piston and a main fitting that is supported by the two folding side stays and pivots on the top of the main fitting for extension/retraction. In flight, the MLGs are retracted and locked up. The MLG doors are closed and locked to enclose the MLG bay in flight and on the ground, only opening when the landing gear is extending or retracting. Hydraulic power for the MLG extension/retraction is from the green hydraulic system.
2.
NLG System Description The NLG is located in the forward lower fuselage on the aircraft centerline below the cockpit. It is forward retracting and consists of a twin wheel axle mounted on a main fitting that incorporates a single stage oleo shock strut supported by a forward drag brace. The NLG main fitting accommodates the steering assembly for the NWS system. In flight, the NLG is retracted and locked up while the four sideways opening NLG Doors are closed and locked to enclose the NLG bay. The two forward doors are each operated by two independent door actuators. When retracted, the NLG is held by an uplock and the two main NLG doors are held by a single door uplock assembly, containing an uplock hook for each door. The hydraulically powered Forward NLG Doors are also closed after the NLG is extended. The aft doors are mechanically driven and remain open when the NLG is extended. Hydraulic power for the NLG extension/retraction comes from the Yellow hydraulic system.
3.
Landing Gear Extension and Retraction System The Landing Gear Extension and Retraction System is made up of three sub-systems: - Normal extension and retraction system, for normal extension and retraction, - Alternate extension system, for extension in flight if normal system is unavailable, - Ground door opening system, to allow on ground access to the landing gear bays for maintenance purposes.
2-9-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 HINGE DOOR FIXED FAIRING DOOR
C A
D
A
HINGE
F MAIN DOOR
B
A LH SHOWN RH SYMMETRICAL GUIDE
MECHANICAL LINKAGE
GUIDE
RAMP
ROLLER
B
C
P_AC_020900_1_0010001_01_00
Main Landing Gear Doors overview (Sheet 1 of 3) FIGURE-2-9-0-991-001-A01
2-9-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 FORWARD LOCK STAY ACTUATOR FORWARD LOCK STAY
RETRACTION ACTUATOR
H MAIN FITTING
FORWARD DOWNLOCK SPRINGS
E
FORWARD SIDE STAY
SLIDING PISTON
AFT LOCK STAY ACTUATOR AFT LOCK STAY
BOGIE
H
AFT DOWNLOCK SPRINGS
D AFT SIDE STAY
UPPER TORQUE LINK LOWER TORQUE LINK
BOGIE PITCH TRIMMER ACTUATOR
E P_AC_020900_1_0010001_02_00
Main Landing Gear Overview (Sheet 2 of 3) FIGURE-2-9-0-991-001-A01
2-9-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
SAFETY COLLAR ACTUATOR
G SAFETY PIN
SAFETY PIN
F
G
HINGE
LOCK STAY
SAFETY PIN
H TYPICAL INSTALLATION P_AC_020900_1_0010001_03_00
Main Landing Gear Safety Devices (Sheet 3 of 3) FIGURE-2-9-0-991-001-A01
2-9-0
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A FORWARD DOOR
B AFT DOOR
C
E
A
HINGE
HINGE FREE FALL RAMP
NLG Z−STOP
DRIVEN LINKAGE ROD
B RH SHOWN LH SYMMETRICAL
P_AC_020900_1_0020001_01_00
Nose Landing Gear Doors overview (Sheet 1 of 4) FIGURE-2-9-0-991-002-A01
2-9-0
Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 RETRACTION ACTUATOR
G LOCK STAY ACTUATOR FORWARD/ AFT LOCK STAYS UPPER DRAG BRACE LOWER DRAG BRACE MAIN FITTING
DOWNLOCK SPRINGS
D
H STEERING ASSEMBLY
JACKING DOME
C UPPER TORQUE LINK SLIDING PISTON
LOWER TORQUE LINK
D P_AC_020900_1_0020001_02_00
Nose Landing Gear Overview (Sheet 2 of 4) FIGURE-2-9-0-991-002-A01
2-9-0
Page 6 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
ACTUATOR
SAFETY COLLAR
F
SAFETY PIN SAFETY PIN
F
E
LOCK STAY
SAFETY PIN
G P_AC_020900_1_0020001_03_00
Nose Landing Gear Safety Devices (Sheet 3 of 4) FIGURE-2-9-0-991-002-A01
2-9-0
Page 7 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
J
K
2GN
1GN
H
J FWD
K FWD P_AC_020900_1_0020001_04_00
Nose Landing Gear Service Panels (Sheet 4 of 4) FIGURE-2-9-0-991-002-A01
2-9-0
Page 8 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-10-0
Exterior Lighting
**ON A/C A350-900 Exterior Lighting 1.
This section gives the location of the aircraft exterior lighting. EXTERIOR LIGHTING ITEM
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
DESCRIPTION RIGHT NAVIGATION LIGHT (GREEN) LEFT NAVIGATION LIGHT (RED) TAIL NAVIGATION LIGHT (WHITE) UPPER ANTI-COLLISION LIGHT/BEACON (RED) LOWER ANTI-COLLISION LIGHT/BEACON (RED) LOGO LIGHTS ENGINE SCAN LIGHTS WING SCAN LIGHTS WING STROBE LIGHT (HIGH INTENSITY, WHITE) TAIL STROBE LIGHT (HIGH INTENSITY, WHITE) TAXI CAMERA LIGHTS (NLG) TAXI CAMERA LIGHTS (MLG) LANDING LIGHTS RUNWAY TURN-OFF LIGHTS TAXI LIGHTS TAKE-OFF LIGHTS CARGO COMPARTMENT FLOOD LIGHTS LANDING GEAR BAY/WELL LIGHTS (DOME)
2-10-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
9
3 6
1
6 4
9
2
7 8
7 8
11 12
5
12
10
P_AC_021000_1_0010002_01_00
Exterior Lighting FIGURE-2-10-0-991-001-B01
2-10-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
13
13
16 15
16 14
6
6
P_AC_021000_1_0020001_01_00
Exterior Lighting FIGURE-2-10-0-991-002-A01
2-10-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 3
5
1
2
4
8
7 11
11
14
14
15
P_AC_021000_1_0030002_01_00
Exterior Lighting FIGURE-2-10-0-991-003-B01
2-10-0
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 10
12
12 9
9
16
13
13
P_AC_021000_1_0040001_01_00
Exterior Lighting FIGURE-2-10-0-991-004-A01
2-10-0
Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
18
17
17
18
EXAMPLE FOR LIGHT N° 17 CEILING LIGHT
SPOT LIGHT
P_AC_021000_1_0050001_01_00
Exterior Lighting FIGURE-2-10-0-991-005-A01
2-10-0
Page 6 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-11-0
Antennas and Probes Location
**ON A/C A350-900 Antennas and Probes Location 1.
This section gives the location of antennas and probes.
2-11-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
15
1
2
3 4
5 6 7
23 28 24 27 26 25
8
9
10
11 12
13
14
17 22 21 20 19 18
16
29
30
31 32
40
1 − LOC 2 − SSA 1 3 − TAT PROBE 1, 2 4 − ICE PROBE 5 − GNSS 1 6 − GNSS 2 7 − TCAS 2 (TOP) 8 − WACS 9 − SATCOM 10 − VHF 1 11 − ADF 1 12 − ADF 2 13 − VHF 3 14 − ELT 15 − HF 16 − MARKER 17 − ISP LH 18 − DME 2 19 − RADIO ALT R2 20 − RADIO ALT E2
39 38 37 36 35 34 33
21 − DME 1 22 − TCAS 1 (BOTTOM) 23 − PITOT 24 − MFP 1 25 − AOA 26− ICE PROBE DETECTOR 27 − GLIDE 28 − WEATHER RADAR 29 − VOR 30 − ISP RH 31 − TCAS 1 (TOP) 32 − SSA 2, 3 33 − ICE PROBE PROTECTOR 34 − MFP 2, 3 35 − RADIO ALT E1 36 − RADIO ALT R1 37 − RADIO ALT R3 38 − RADIO ALT E3 39 − TCAS 2 (BOTTOM) 40 − VHF 2
NOTE: LOCATION DEPENDING OF AIRCRAFT CONFIGURATION
P_AC_021100_1_0010001_01_00
Antennas and Probes Location FIGURE-2-11-0-991-001-A01
2-11-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-12-0
Engine and Nacelle
**ON A/C A350-900 Engine and Nacelle 1.
Power Plant The A350--900 has two main power plants, one installed under each wing on a pylon. Each power plant can be lowered for removal from its pylon. The power plant comprises the: - Nacelle, - Engine.
2.
Nacelle The nacelle comprises the following assemblies: - Air intake, - Fan cowls, - Thrust reverser, - Exhaust system.
3.
A.
Fan Cowl A power door opening system is installed to assist in opening the cowls. The cowls have access doors for fan case-mounted components.
B.
Thrust Reverser The engine thrust reverser consists primarily of a inner fixed structure and an outer translating sleeve. The fan exhaust stream is reversed by the cascades and blocker doors, which form part of the translating sleeve actuated by an electrical Thrust Reverser Actuation System (TRAS). A power door opening system is used to assist thrust reverser cowl opening. The thrust reverser latching system is designed so that the remote latches close only when the hooks are engaged. Means are provided to latch and secure a thrust reverser in the stowed position. Means are provided to permit actuation of the thrust reversers without engine operation, for maintenance purposes, either using the TRAS powered by the aircraft or by manual drive with external Ground Support Equipment (GSE).
C.
Exhaust System The exhaust system consists of a primary nozzle and a center body plug. The exhaust system is designed to optimize aerodynamics and acoustic performance.
Engine A.
Ignition Each engine is equipped with a dual ignition system controlled by the FADEC. Each engine is equipped with an automatic flame-out protection.
2-12-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
B.
Cooling System A nacelle cooling and ventilating system automatically provides the airflow required for cooling engine and nacelle accessories and associated structure.
C.
Power Control Forward thrust of each engine is controlled by a throttle control lever mounted on the center pedestal in the cockpit. Thrust reverser control is by means of a separate lever for each engine.
D.
Engine Master Control Engine fuel shutoff is controlled by switches installed on the center pedestal.
E.
Emergency Shutdown Actuation of the fire controls closes the associated LP valves.
F.
Indicating Indications for each engine are displayed on the Control and Display System (CDS).
G.
Oil The propulsion system has an independent integral oil system that is able to provide the appropriate quantity of oil, at the temperature necessary for continuous propulsion system operation, for all achievable conditions within the propulsion system operating envelope. Means are provided for gravity filling. It is possible to visually check and replenish the engine oil level without opening the fan cowl door. Magnetic chip detectors are installed in the lubrication system.
H.
Starting The engine is equipped with a pneumatic air turbine starter. The starter can be supplied with air either from the APU, or the other engine, or an Air Start Unit (AS). Standard types of GSE can be used.
2-12-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 5.09 m (16.70 ft)
0.72 m (2.39 ft)
11.10 m (36.42 ft)
2.03 m (6.66 ft)
1.53 m (5.02 ft)
1.68 m (5.51 ft) 1.94 m (6.36 ft) 2.09 m (6.86 ft)
1.40 m (4.59 ft) 6.40 m (21 ft)
1.65 m (5.41 ft) 3.94 m (12.93 ft)
3.17 m (10.40 ft)
3.52 m (11.55 ft)
1.48 m (4.86 ft)
0.89 m (2.92 ft)
REFER TO SECTION 2−3−0
NOTE: APPROXIMATE DIMENSIONS DEPENDING ON AIRCRAFT CONFIGURATION
P_AC_021200_1_0010001_01_00
Engine and Nacelle (Sheet 1 of 3) FIGURE-2-12-0-991-001-A01
2-12-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
C A
FC
A
D
TR
B
B
5.50 m (18.04 ft)
1.01 m (3.31 ft)
C
D
6.39 m (20.96 ft)
1.28 m (4.20 ft)
NOTE: APPROXIMATE DIMENSIONS DEPENDING ON AIRCRAFT CONFIGURATION. FC: FAN COWL AND TR: THRUST REVERSER P_AC_021200_1_0010001_02_00
Engine and Nacelle (Sheet 2 of 3) FIGURE-2-12-0-991-001-A01
2-12-0
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
C A
FC
A TR=45°
D
TR
B
B
6.42 m (21.06 ft)
1.51 m (4.95 ft)
FC=50°
C
D
7.13 m (23.40 ft)
1.81 m (5.94 ft)
NOTE: APPROXIMATE DIMENSIONS DEPENDING ON AIRCRAFT CONFIGURATION. FC: FAN COWL AND TR: THRUST REVERSER P_AC_021200_1_0010001_03_00
Engine and Nacelle (Sheet 3 of 3) FIGURE-2-12-0-991-001-A01
2-12-0
Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-12-1
APU
**ON A/C A350-900 APU 1.
The APU is installed at the rear part of the fuselage in the tail cone. An air intake system with a flap-type door is installed in the top right area of the tail cone. The exhaust gases pass overboard at the end of the fuselage cone.
2-12-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
Z315, Z316 ENGINE
A
FR112
EXHAUST SYSTEM
AIR SYSTEM
B
IGNITION AND STARTING SYSTEM
FR104
A
ENGINE FUEL AND CONTROL SYSTEM
AIR SYSTEM
FR104
FR109
B
OIL SYSTEM
P_AC_021201_1_0010001_01_00
APU FIGURE-2-12-1-991-001-A01
2-12-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-13-0
Levelling, Symmetry and Alignement
**ON A/C A350-900 Levelling, Symmetry and Alignement 1.
Quick Leveling There are three alternative procedures to level the aircraft: - Quick leveling procedure with Air Data/Inertial Reference System (ADIRS), - Quick leveling procedure with a spirit level in the passenger compartment, - Quick leveling procedure with a spirit level in the FWD cargo compartment.
2.
Precise Leveling For precise leveling, it is necessary to install sighting rods in the receptacles located under the fuselage (points 10 and 17 for longitudinal leveling) and under the wings (points 1 LH and 1 RH for lateral leveling) and use a sighting tube. With the aircraft on jacks, adjust the jacks until the reference marks on the sighting rods are aligned in the sighting plane (aircraft level).
3.
Symmetry and Alignment Check Possible deformation of the aircraft is measured by photogrammetry.
2-13-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
RIB5 RIB4 1RH
FR92 17 RIB5
RIB4 10 1LH FR22 FR23
P_AC_021300_1_0010001_01_00
Location of Leveling Points FIGURE-2-13-0-991-001-A01
2-13-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-14-1
Jacking for Maintenance
**ON A/C A350-900 Jacking for Maintenance 1.
2.
Aircraft Jacking Points for Maintenance A.
The A350-900 can be jacked: - At not more than 163000 kg (359354 lb), - within the limits of the permissible wind speed when the aircraft is jacked outside a closed environment. :
B.
Primary Jacking Points The aircraft is provided with three primary jacking points: - One located on the forward lower left fuselage (FR12), - Two located under the wings (one under each wing, RIB9).
C.
Auxiliary Jacking Point (Safety Stay) When the aircraft is on jacks, a safety stay is placed under the fuselage at FR98 to prevent tail tipping caused by accidental displacement of the aircraft center of gravity. The safety point must not be used for lifting the aircraft.
Jacks and Safety Stay A.
Jack Design The Maximum Eligible Static Load given in table FIGURE 2-14-1-991-001-A are the maximum loads applicable on jack fittings. (1) In fully retracted position (jack stroke at minimum), the height of the jacks is such that they may be placed beneath the aircraft under the most adverse conditions, namely, tires deflated and shock absorbers depressurized and, in addition, with a sufficient clearance between the aircraft jacking point and the jack upper end. (2) The jacks stroke enables the aircraft to be jacked up so that the Fuselage Datum Line (FDL) may be positioned up to 7.30 m (23.95 ft.) from the ground to allow all required maintenance procedure and in particular, the landing gear shock absorbers removal/installation.
B.
Safety Stay The stay stroke enables the aircraft tail to be supported up to the Fuselage Datum Line (FDL) positioned at 7.30 m (23.95 ft.) from the ground.
2-14-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
RIB9
WING JACKING POINT B FUSELAGE DATUM LINE SAFETY POINT
FR98
FR12
A
C Y
X FWD JACKING POINT B’
WING JACKING POINT RIB9
X
MAXIMUM LOAD ELIGIBLE
Y
m
ft
m
ft
daN
FORWARD FUSELAGE JACKING POINT A
4.77
15.65
−1.72
−5.64
18630
WING JACKING POINT
B
33.22
108.99
8.71
28.58
76600
B’
33.22
108.99
−8.71
−28.58
76600
SAFETY STAY
C
58.75
192.75
0
0
7650
NOTE: SAFETY STAY IS NOT USED FOR JACKING. P_AC_021401_1_0010001_01_00
Jacking for Maintenance Jacking Points Location (Sheet 1 of 5) FIGURE-2-14-1-991-001-A01
2-14-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FUSELAGE DATUM LINE
N
M
L
CONFIGURATION
AIRCRAFT ON WHEELS, SHOCK−ABSORBER DEFLATED, TIRES DEFLATED (RH)
A/C ON JACKS, FDL AT 6.50 m (21.33 ft), A/C FUSELAGE PARALLEL TO THE GROUND, SHOCK−ABSORBER RELAXED, CLEARANCE OF MAIN GEAR WHEELS = 1.17 m (3.84 ft) (STANDARD TIRES *), CLEARANCE OF NOSE GEAR WHEELS = 1.38 m (4.53 ft) (STANDARD TIRES *)
AIRCRAFT ON WHEELS (STANDARD TIRES *) MAXIMUM JACKING WEIGHT = 163 000 kg (359 353 lb)
CG POSITION (% MAC)
HEIGHT L
M
m
ft
m
N ft
4.70 LH 15.42 LH 4.00 RH 13.12 RH 4.68 LH 15.35 LH 4.00 RH 13.12 RH
m
ft
4.71
15.45
4.48
14.70
20
3.12 10.24
41
3.36
20
4.32 14.17
5.66
18.57
6.12
20.08
41
4.32 14.17
5.66
18.57
6.12
20.08
20
3.06
10.04
4.58
15.03
5.15
16.90
41
3.29
10.79
4.57
14.99
4.91
16.11
20
3.09
10.14
4.62
15.16
5.19
17.03
41
3.34
10.96
4.60
15.09
4.93
16.18
11.02
AIRCRAFT ON WHEELS (STANDARD TIRES *) A/C WEIGHT = 142 000 kg (313 056 lb)
NOTE: * STANDARD TIRES: NOSE LANDING GEAR = 1 050 x 395 R16 MAIN LANDING GEAR = 1 400 x 530 R23
P_AC_021401_1_0010001_02_00
Jacking for Maintenance Jacking Dimensions (Sheet 2 of 5) FIGURE-2-14-1-991-001-A01
2-14-1
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A Z120
FR11 FR12
FR12 FR13
FR13 FR14
NOSE JACK ADAPTOR
A P_AC_021401_1_0010001_03_00
Jacking for Maintenance Forward Jacking Point (Sheet 3 of 5) FIGURE-2-14-1-991-001-A01
2-14-1
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 RIB9 REAR SPAR
A 571FB (671FB)
A Z571 (Z671)
PLATE COVER PROTECTOR
A WING JACK ADAPTOR
A
4
1 2 3
A A P_AC_021401_1_0010001_04_00
Jacking for Maintenance Wing Jacking Point (Sheet 4 of 5) FIGURE-2-14-1-991-001-A01
2-14-1
Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FR98
BEAM5
Z310
FR98
A B
A
AFT JACK ADAPTOR
FR98
5
B FWD P_AC_021401_1_0010001_05_00
Jacking for Maintenance Auxiliary Jacking Point - Safety (Sheet 5 of 5) FIGURE-2-14-1-991-001-A01
2-14-1
Page 6 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
2-14-2
Jacking for wheel change
**ON A/C A350-900 Jacking for wheel change 1.
General To replace either the wheel or brake unit assemblies on any of the landing gears, it is necessary to lift the landing gear with a jack. The landing gear can be lifted by a pillar jack or with a cantilever jack. NOTE : You can lift the aircraft at Maximum Ramp Weight (MRW).
2.
Nose Landing Gear (NLG) To lift the NLG axle with a jack, a dome shaped pad is installed between the wheels. The reaction loads at the jacking position are shown in FIGURE 2-14-2-991-002-A. NOTE : The maximum load at NLG jacking point is 33758 daN.
3.
Main Landing Gear (MLG) To lift the MLG bogie with jacks, a dome shaped pad is installed below the FWD and AFT ends of each bogie beam. Each pair of wheels and brake units can be replaced on the end of the bogie that is lifted. Both FWD and AFT ends of the bogie beam can be lifted together, but the bogie beam must be kept level during the lift to prevent damage. The reaction loads at the jacking position are shown in FIGURE 2-14-2-991-003-A. NOTE : The maximum load at each MLG jacking point is 83892.5 daN.
2-14-2
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
A
B FWD
A
− A : DOME HEIGHT − B : DISTANCE BETWEEN TYRES A350−900 NLG (1 050 x 395 R16) CONFIGURATION (ASSUME ALL OTHER TYRES ON THE A/C ARE INTACT)
WEIGHT (T)
2 TYRES (NORMAL)
MRW
1 FLAT TYRE
DIM A
CG (% MAC)
DIM B
mm
in
mm
in
26.2
291
11.45
261
10.27
MRW
26.2
227
8.93
214
8.42
2 FLAT TYRES & 50% RIM FLANGE DAMAGE
MLW
20
75
2.95
191
7.51
2 FLAT TYRES & NO RIM FLANGE DAMAGE
MLW
20
97
3.81
191
7.51
P_AC_021402_1_0020001_01_00
Nose Landing Gear Jacking Point Heights FIGURE-2-14-2-991-002-A01
2-14-2
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
A
C
B
FWD − A : DOME HEIGHT − B : DISTANCE BETWEEN TYRES − C : DISTANCE BETWEEN BRAKE RODS AND GROUND
A
A350−900 MLG (1 400 x 530 R23) CONFIGURATION DIM A DIM A DIM B DIM B (ASSUME ALL OTHER WEIGHT CG AFT FWD AFT FWD TYRES ON THE A/C (T) (% MAC) mm in mm in mm in mm in ARE INTACT) 4 TYRES (NORMAL) 33.2 378 14.88 378 14.88 1 029 40.51 1 036 40.78 MRW FWD INNER TYRE 33.2 304 11.96 381 15.00 981 38.62 1 041 40.98 MRW UNSERVICEABLE FWD OUTER TYRE 33.2 285 11.22 374 14.72 974 38.34 1 033 40.66 MRW UNSERVICEABLE AFT INNER TYRE 33.2 381 15.00 304 11.96 1 032 40.62 983 38.70 MRW UNSERVICEABLE AFT OUTER TYRE 33.2 374 14.72 285 11.22 1 025 40.35 975 38.38 MRW UNSERVICEABLE 2 FLAT FWD TYRES 42 129 5.07 404 15.90 967 38.07 1 071 42.16 MLW & 50% RIM DAMAGE 2 FLAT AFT TYRES 42 404 15.90 129 5.07 1 060 41.73 967 38.07 MLW & 50% RIM DAMAGE 4 FLAT TYRES & 42 136 5.35 136 5.35 967 38.07 967 38.07 MLW 50% RIM DAMAGE 2 FLAT FWD TYRES 42 159 6.25 403 15.86 967 38.07 1 071 42.16 MLW & NO RIM DAMAGE 2 FLAT AFT TYRES 42 403 15.86 159 6.25 1 059 41.69 967 38.07 MLW & NO RIM DAMAGE 4 FLAT TYRES & 42 166 6.53 166 6.53 967 38.07 967 38.07 MLW NO RIM DAMAGE TYRE CHANGE FWD MAX GROWN TYRE 25 mm 33.2 541 21.29 378 14.88 1 113 43.81 1 029 40.51 MRW FROM GROUND AFT MAX GROWN 33.2 378 14.88 541 21.29 1 029 40.51 1 113 43.81 MRW TYRE 25 mm FROM GROUND 8 FLAT TYRES & 26.2 118 4.64 118 4.64 967 38.07 967 38.07 MRW 50% RIM DAMAGE 8 FLAT TYRES & 26.2 149 5.86 149 5.86 967 38.07 967 38.07 MRW NO RIM DAMAGE
DIM C FWD mm
in
DIM C AFT mm
in
267 10.51 267 10.51 194 7.63
271 10.66
175 6.88 264 10.39 271 10.66 193 7.59 264 10.39 175 6.88 18
0.70 293 11.53
293 11.53 18
0.70
26
1.02
1.02
48
1.88 293 11.53
26
293 11.53 48
1.88
55
2.16
2.16
55
431 16.96 268 10.55 268 10.55 430 16.92 7
0.27
7
0.27
39
1.53
39
1.53
P_AC_021402_1_0030001_01_00
Main Landing Gear Jacking Point Heights FIGURE-2-14-2-991-003-A01
2-14-2
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
GROUND MANEUVERING 4-2-0
Turning Radii
**ON A/C A350-900 Turning Radii 1.
This section gives the turning radii.
4-2-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
R5
R3
R1
70° 65°
60°
R2
R4
R6
NOTE: FOR TURNING RADII VALUES, REFER TO SHEET 2
P_AC_040200_1_0010001_01_00
Turning Radii (Sheet 1 of 2) FIGURE-4-2-0-991-001-A01
4-2-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 A350−900 TURNING RADII TYPE OF STEERING EFFECTIVE TURN ANGLE (deg) STEERING ANGLE (deg) 2
20
19.6
2
25
24.5
2
30
29.4
2
35
34.2
2
40
39.1
2
45
43.8
2
50
48.6
2
55
53.1
2
60
57.5
2
65
61.5
2
70
65.0
2
72 (MAX)
66.1
1
50
49.3
1
55
54.1
1
60
58.7
1
65
63.2
1
70
67.5
1
72 (MAX)
69.2
R1 R2 RMLG LMLG
R3 NLG
R4 WING
R5 NOSE
R6 TAIL
m ft m ft m ft m ft m ft m ft m ft m ft m ft m ft m ft m ft
76.3 250 58.7 193 46.7 153 38.0 125 31.1 102 25.7 84 21.1 69 17.4 57 14.1 46 11.4 37 9.2 30 8.5 28
86.9 285 69.3 227 57.3 188 48.6 159 41.7 137 36.3 119 31.7 104 28.0 92 24.7 81 22.0 72 19.8 65 19.1 63
86.0 282 69.6 228 58.9 193 51.5 169 45.9 151 41.8 137 38.6 127 36.2 119 34.3 113 32.9 108 31.9 105 31.6 104
113.6 373 96.2 316 84.3 277 75.7 248 68.9 226 63.7 209 59.2 194 55.5 182 52.4 172 49.8 163 47.7 156 47.0 154
87.1 286 71.2 233 60.8 199 53.7 176 48.5 159 44.7 147 41.8 137 39.6 130 38.0 125 36.7 121 35.9 118 35.6 117
96.0 315 79.7 262 69.0 226 61.5 202 55.9 183 51.7 170 48.3 158 45.7 150 43.5 143 41.9 137 40.6 133 40.2 132
m ft m ft m ft m ft m ft m ft
20.5 67 16.6 54 13.3 43 10.3 34 7.7 25 6.7 22
31.1 102 27.2 89 23.9 78 20.9 69 18.3 60 17.3 57
38.2 125 35.7 117 33.8 111 32.4 106 31.2 103 30.9 101
58.6 192 54.8 180 51.6 169 48.7 160 46.2 152 45.3 149
41.4 136 39.2 129 37.6 123 36.3 119 35.3 116 35.0 115
47.8 157 45.1 148 43.0 141 41.2 135 39.8 130 39.2 129
NOTE: ABOVE 50°, AIRLINES MAY USE TYPE 1 OR TYPE 2 TURNS DEPENDING ON THE SITUATION TYPE 1 TURNS USE: ASYMMETRIC THRUST DURING THE WHOLE TURN; AND DIFFERENTIAL BRAKING TO INITIATE THE TURN ONLY TYPE 2 TURNS USE: SYMMETRIC THRUST DURING THE WHOLE TURN; AND NO DIFFERENTIAL BRAKING AT ALL IT IS POSSIBLE TO GET LOWER VALUES THAN THOSE FROM TYPE 1 BY APPLYING DIFFERENTIAL BRAKING DURING THE WHOLE TURN. P_AC_040200_1_0010001_02_00
Turning Radii (Sheet 2 of 2) FIGURE-4-2-0-991-001-A01
4-2-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-3-0
Minimum Turning Radii
**ON A/C A350-900 Minimum Turning Radii 1.
This section gives the minimum turning radii.
4-3-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
R5
R3
X
Y
R4 A (MINIMUM TURNING WIDTH) R6
NOTE: TYPE 1 TURNS USE: ASYMMETRIC THRUST DURING THE WHOLE TURN; AND DIFFERENTIAL BRAKING TO INITIATE THE TURN ONLY TYPE 2 TURNS USE: SYMMETRIC THRUST DURING THE WHOLE TURN; AND NO DIFFERENTIAL BRAKING AT ALL A350−900 MINIMUM TURNING RADII TYPE OF STEERING EFFECTIVE TURN ANGLE (deg) STEERING ANGLE (deg) 1
72 (MAX)
69.2
2
72 (MAX)
66.1
m ft m ft
X
Y
A
R3 NLG
R4 WING
R5 NOSE
R6 TAIL
28.7 94 28.7 94
10.9 36 12.7 42
48.5 159 51.1 168
30.9 101 31.6 104
45.3 149 47.0 154
35.0 115 35.6 117
39.2 129 40.2 132
NOTE: IT IS POSSIBLE TO GET LOWER VALUES THAN THOSE FROM TYPE 1 BY APPLYING DIFFERENTIAL BRAKING DURING THE WHOLE TURN.
P_AC_040300_1_0010001_01_00
Minimum Turning Radii FIGURE-4-3-0-991-001-A01
4-3-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-4-0
Visibility from Cockpit in Static Position
**ON A/C A350-900 Visibility from Cockpit in Static Position 1.
This section gives the visibility from cockpit in static position.
4-4-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 NOT TO BE USED FOR LANDING APPROACH VISIBILITY DIMENSIONS ARE APPROXIMATE
27°
VISUAL ANGLES IN VERTICAL PLANE THROUGH PILOT EYE POSITION.
20°
3.04 m (9.97 ft) 14.20 m (46.59 ft)
105.5° 120° FIRST OFFICER FIELD OF VIEW
4.63 m (15.19 ft)
MAX AFT VISION WITH HEAD TURNED AROUND SPINAL COLUMN. WING TIP CAN BE SEEN WHEN HEAD IS MOVED TO THE SIDE. VISUAL ANGLES IN HORIZONTAL PLANE THROUGH PILOT EYE POSITION.
CAPTAIN FIELD OF VIEW 105.5° 120° 0.53 m (1 ft 8.88 in)
VISUAL ANGLES IN PLANE PERPENDICULAR TO LONGITUDINAL AXIS. 32°
32°
15°
15°
NOTE: PILOT EYE POSITION WHEN PILOT’S EYES ARE IN LINE WITH THE RED AND WHITE BALLS. ZONE THAT CANNOT BE SEEN P_AC_040400_1_0010001_01_00
Visibility from Cockpit in Static Position FIGURE-4-4-0-991-001-A01
4-4-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-0
Runway and Taxiway Turn Paths
**ON A/C A350-900 Introduction 1.
This section gives the runway and taxiway turnpaths for the following configurations: - 90˚ Turn --- Runway to Taxiway - 135˚ Turn --- Runway to Taxiway - 180˚ U-Turn on Runway - 90˚ Turn --- Taxiway to Taxiway - 135˚ Turn --- Taxiway to Taxiway The turnpaths Runway to Taxiway and Taxiway to Taxiway are defined using 2 methods: - Oversteering method, - Cockpit over centerline method. The 180 U-Turn on runway is defined using the following method: - U-Turn using edge of runway method.
4-5-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-1
90˚ Turn - Runway to Taxiway
**ON A/C A350-900 90˚ Turn - Runway to Taxiway 1.
This section gives the 90˚ turn - runway to taxiway.
4-5-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FAA LEAD−IN FILLET L=75 m (250 ft) APPROX 10.9 m (36 ft)
23 m (75 ft) APPROX 13.3 m (44 ft)
TAXIWAY CENTERLINE
FILLET R = 25.5 m (85 ft)
TURN R = 45 m (150 ft)
NLG PATH MLG PATH RUNWAY CENTERLINE
45 m (150 ft) P_AC_040501_1_0010001_01_02
90˚ Turn - Runway to Taxiway Oversteering Method (Sheet 1 of 2) FIGURE-4-5-1-991-001-A01
4-5-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FAA LEAD−IN FILLET L=75 m (250 ft)
APPROX 5 m (16 ft)
23 m (75 ft)
TAXIWAY CENTERLINE FILLET R = 25.5 m (85 ft)
TURN R = 45 m (150 ft)
NLG PATH MLG PATH RUNWAY CENTERLINE
45 m (150 ft) P_AC_040501_1_0010001_02_02
90˚ Turn - Runway to Taxiway Cockpit over Centerline Method (Sheet 2 of 2) FIGURE-4-5-1-991-001-A01
4-5-1
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-2
135˚ Turn - Runway to Taxiway
**ON A/C A350-900 135˚ Turn - Runway to Taxiway 1.
This section gives the 135˚ turn - runway to taxiway.
4-5-2
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
APPROX 5.8 m (19 ft)
FAA LEAD−IN FILLET L=75 m (250 ft)
APPROX 7.6 m (25 ft)
FILLET R = 25.5 m (85 ft)
TURN R = 45 m (150 ft)
TAXIWAY CENTERLINE
23 m (75 ft)
NLG PATH RUNWAY CENTERLINE
MLG PATH
45 m (150 ft)
P_AC_040502_1_0010002_01_02
135˚ Turn - Runway to Taxiway Oversteering Method (Sheet 1 of 2) FIGURE-4-5-2-991-001-B01
4-5-2
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
RUNWAY CENTERLINE
TURN R = 45 m (150 ft)
FAA LEAD−IN FILLET L=75 m (250 ft) APPROX 1.6 m (5 ft)
FILLET R = 25.5 m (85 ft)
ADDITIONAL FILLET TO MEET 4.5 m (15 ft) EDGE CLEARANCE
TAXIWAY CENTERLINE
23 m (75 ft)
NLG PATH MLG PATH
45 m (150 ft)
P_AC_040502_1_0010002_02_02
135˚ Turn - Runway to Taxiway Cockpit over Centerline Method (Sheet 2 of 2) FIGURE-4-5-2-991-001-B01
4-5-2
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-3
180˚ Turn on a Runway
**ON A/C A350-900 180˚ Turn on a Runway 1.
This section gives the 180˚ turn on a runway.
4-5-3
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
RUNWAY CENTERLINE
R4 = 45.3 m (149 ft)
R3 = 30.9 m (101 ft)
4.5 m (15 ft)
R5 = 35 m (115 ft) 4.5 m (15 ft)
APPROX 48.5 m (159.12 ft) NLG PATH NOSE TIP PATH MLG PATH WING TIP PATH NOTE: TYPE 1 VALUES. IT IS POSSIBLE TO GET LOWER VALUES THAN THOSE FROM TYPE 1 BY APPLYING DIFFERENTIAL BRAKING DURING THE WHOLE TURN.
P_AC_040503_1_0010001_01_01
180˚ Turn on a Runway FIGURE-4-5-3-991-001-A01
4-5-3
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-4
90˚ Turn - Taxiway to Taxiway
**ON A/C A350-900 90˚ Turn - Taxiway to Taxiway 1.
This section gives the 90˚ turn - taxiway to taxiway.
4-5-4
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FAA LEAD−IN FILLET L=75 m (250 ft)
APPROX 10.5 m (34 ft)
23 m (75 ft) APPROX 12.9 m (42 ft)
TAXIWAY CENTERLINE
FILLET R = 25.5 m (85 ft)
TURN R = 45 m (150 ft)
NLG PATH
TAXIWAY CENTERLINE
MLG PATH 23 m (75 ft)
P_AC_040504_1_0010001_01_02
90˚ Turn - Taxiway to Taxiway Oversteering Method (Sheet 1 of 2) FIGURE-4-5-4-991-001-A01
4-5-4
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FAA LEAD−IN FILLET L=75 m (250 ft)
APPROX 3.9 m (13 ft)
23 m (75 ft)
ADDITIONAL FILLET TO MEET 4.5 m (15 ft) EDGE CLEARANCE
TAXIWAY CENTERLINE
FILLET R = 25.5 m (85 ft)
TURN R = 45 m (150 ft)
TAXIWAY CENTERLINE
NLG PATH MLG PATH
23 m (75 ft)
P_AC_040504_1_0010001_02_02
90˚ Turn - Taxiway to Taxiway Cockpit over Centerline Method (Sheet 2 of 2) FIGURE-4-5-4-991-001-A01
4-5-4
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-5-5
135˚ Turn - Taxiway to Taxiway
**ON A/C A350-900 135˚ Turn - Taxiway to Taxiway 1.
This section gives the 135˚ turn - taxiway to taxiway.
4-5-5
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
APPROX 6.9 m (23 ft)
FAA LEAD−IN FILLET L=75 m (250 ft)
APPROX 8.8 m (29 ft) FILLET R = 25.5 m (85 ft)
TURN R = 45 m (150 ft) TAXIWAY CENTERLINE
TAXIWAY CENTERLINE
23 m (75 ft)
NLG PATH MLG PATH
23 m (75 ft)
P_AC_040505_1_0010002_01_02
135˚ Turn - Taxiway to Taxiway Oversteering Method (Sheet 1 of 2) FIGURE-4-5-5-991-001-B01
4-5-5
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
TURN R = 45 m (150 ft)
FAA LEAD−IN FILLET L=75 m (250 ft)
APPROX 2.5 m (8 ft)
FILLET R = 25.5 m (85 ft)
ADDITIONAL FILLET TO MEET 4.5 m (15 ft) EDGE CLEARANCE
TAXIWAY CENTERLINE 23 m (75 ft)
TAXIWAY CENTERLINE
NLG PATH MLG PATH
23 m (75 ft)
P_AC_040505_1_0010002_02_02
135˚ Turn - Taxiway to Taxiway Cockpit over Centerline Method (Sheet 2 of 2) FIGURE-4-5-5-991-001-B01
4-5-5
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-6-0
Runway Holding Bay (Apron)
**ON A/C A350-900 Runway Holding Bay (Apron) 1.
This section gives the runway holding bay (Apron).
4-6-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
6.1 m (20 ft)
MAIN LANDING GEAR PATH 90 m (300 ft)
102 m (335 ft)
12.2 m (40 ft)
6.1 m (20 ft)
HOLDING POINT
190 m (625 ft)
TAXIWAY CENTERLINE
RUNWAY CENTERLINE 23 m (75 ft)
45 m (150 ft)
NOTE: COORDINATE WITH USING AIRCRAFT FOR SPECIFIC PLANNED OPERATING PROCEDURES. P_AC_040600_1_0010001_01_00
Runway Holding Bay (Apron) FIGURE-4-6-0-991-001-A01
4-6-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-7-0
Minimum Line-Up Distance Corrections
**ON A/C A350-900 Minimum Line-Up Distance Corrections 1.
The ground manoeuvres were performed using asymmetric thrust and differential only braking to initiate the turn. TODA: Take-Off Available Distance ASDA: Acceleration-Stop Distance Available
2.
90˚ Turn on Runway Entry This section gives the minimum line-up distance correction for a 90˚ turn on runway entry. This manoeuvre consists in a 90˚ turn at minimum turn radius starting with the edge of the MLG at a distance of 4.5 m from taxiway edge, and finishing with the aircraft aligned on the centerline of the runway. During the turn, all the clearances must meet the minimum value of 4.5 m for this category of aircraft as recommended in ICAO Annex 14.
3.
180˚ Turn on Runway Turn Pad This section gives the minimum line-up distance correction for a 180˚ turn on runway turn pad. This manoeuvre consists in a 180˚ turn at minimum turn radius on a standard ICAO runway turn pad geometry. It starts with the edge of the MLG at 4.5 m from pavement edge, and it finishes with the aircraft aligned on the centerline of the runway. During the turn, all the clearances must meet the minimum value of 4.5 m for this category of aircraft as recommended in ICAO Annex 14.
4.
180˚ Turn on Runway Width This section gives the minimum line-up distance correction for a 180˚ turn on runway width. For this manoeuvre, the pavement width is considered to be the runway width, which is a frozen parameter (45 m and 60 m). As per the ”180˚ turn on runway” standard operating procedures described in the Flight Crew Operating Manual, the aircraft is initially angled with respect to runway centerline when starting the 180˚ turn. The value of this angle depends on the aircraft type, and is mentioned in the FCOM. During the turn, all the clearances must meet the minimum value of 4.5 m for this category of aircraft as recommended in ICAO Annex 14.
4-7-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
4.5 m (15 ft)
TODA
TAXIWAY CENTERLINE
4.5 m (15 ft)
ASDA
RUNWAY CENTERLINE
90° TURN ON RUNWAY ENTRY 45 m WIDE RUNWAY AIRCRAFT TYPE
MAX STEERING ANGLE
A350−900
72°
60 m WIDE RUNWAY
(STANDARD WIDTH)
(STANDARD WIDTH)
MINIMUM LINE−UP DISTANCE CORRECTION ON TODA ON ASDA 84 ft 25.7 m 178 ft 54.3 m
MINIMUM LINE−UP DISTANCE CORRECTION ON TODA ON ASDA 72 ft 21.8 m 166 ft 50.5 m
NOTE: ASDA: ACCELERATION−STOP DISTANCE AVAILABLE TODA: TAKE−OFF AVAILABLE DISTANCE
P_AC_040700_1_0010001_01_00
90˚ Turn on Runway Entry FIGURE-4-7-0-991-001-A01
4-7-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
MINIMUM PAVEMENT WIDTH 4.5 m (15 ft)
TODA
4.5 m (15 ft)
4.5 m (15 ft)
ASDA
RUNWAY CENTERLINE
180° TURN ON RUNWAY TURNPAD
MAX AIRCRAFT STEERING TYPE ANGLE A350−900
72°
45 m WIDE RUNWAY
60 m WIDE RUNWAY
(STANDARD WIDTH)
(STANDARD WIDTH)
MINIMUM LINE−UP MINIMUM LINE−UP DISTANCE CORRECTION DISTANCE CORRECTION ON TODA ON ASDA ON TODA ON ASDA 122 ft 37.2 m 216 ft 65.9 m 117 ft 35.7 m 211 ft 64.4 m
NOTE: ASDA: ACCELERATION−STOP DISTANCE AVAILABLE TODA: TAKE−OFF AVAILABLE DISTANCE
REQUIRED MINIMUM PAVEMENT WIDTH
206 ft
62.9 m
P_AC_040700_1_0020001_01_00
180˚ Turn on Runway Turn Pad FIGURE-4-7-0-991-002-A01
4-7-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
4.5 m (15 ft)
> 4.5 m (15 ft)
TODA
ASDA
4.5 m (15 ft)
25°
RUNWAY CENTERLINE
180° TURN ON RUNWAY WIDTH 45 m WIDE RUNWAY AIRCRAFT TYPE
MAX STEERING ANGLE
A350−900
72°
60 m WIDE RUNWAY
(STANDARD WIDTH)
(STANDARD WIDTH)
MINIMUM LINE−UP DISTANCE CORRECTION ON TODA ON ASDA NOT POSSIBLE
MINIMUM LINE−UP DISTANCE CORRECTION ON TODA ON ASDA 156 ft 47.5 m 250 ft 76.2 m
NOTE: ASDA: ACCELERATION−STOP DISTANCE AVAILABLE TODA: TAKE−OFF AVAILABLE DISTANCE
P_AC_040700_1_0030001_01_00
180˚ Turn on Runway Width FIGURE-4-7-0-991-003-A01
4-7-0
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4-8-0
Aircraft Mooring
**ON A/C A350-900 Aircraft Mooring 1.
This section provides information on aircraft mooring.
4-8-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
SLING TOWING FITTING
A B
HOOK PIN
TOWING FITTING MOORING POINT
HOOK
A
MOVABLE HT PIN LIG F E OR EF B VE MO
RE
FLAG
B P_AC_040800_1_0010001_01_00
Aircraft Mooring FIGURE-4-8-0-991-001-A01
4-8-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
TERMINAL SERVICING 5-1-0
Aircraft Servicing Arrangements
**ON A/C A350-900 Aircraft Servicing Arrangements 1.
This section provides typical ramp layouts, showing the various GSE items in position during typical turn round scenarios. These ramp layouts show typical arrangements only. Each operator will have its own specific requirements/regulations for the positioning and operation on the ramp. This table gives the symbols used on servicing diagrams. Ground Support Equipment AC AIR CONDITIONING UNIT AS AIR START UNIT BULK BULK TRAIN CAT CATERING TRUCK CB CONVEYOR BELT CLEAN CLEANING TRUCK FUEL FUEL HYDRANT DISPENSER or TANKER GPU GROUND POWER UNIT LDCL LOWER DECK CARGO LOADER LV LAVATORY VEHICLE PBB PASSENGER BOARDING BRIDGE PS PASSENGER STAIRS TOW TOW TRACTOR ULD ULD TRAIN WV POTABLE WATER VEHICLE
5-1-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-1-1
Typical Ramp Layout (Open Apron)
**ON A/C A350-900 Typical Ramp Layout (Open Apron) 1.
This section gives the typical ramp layout (open apron). The Stand Safety Line delimits the Aircraft Safety Area (minimum distance of 7.50 m (24.61 ft.) from the aircraft). No vehicle must be parked in this area before complete stop of the aircraft (wheel chocks in position on landing gears).
5-1-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
TOW AS GPU
PS
CAT ULD AC LDCL
CAT
PS
FUEL
LDCL BULK
CLEAN
STAND SAFETY LINE
ULD
CB
WV
CAT
LV
FEET 0 10 20 30 40 50 60 0
4
8 12 16 METERS
20
P_AC_050101_1_0010001_01_01
Typical Ramp Layout (Open Apron) FIGURE-5-1-1-991-001-A01
5-1-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-1-2
Typical Ramp Layout (Gate)
**ON A/C A350-900 Typical Ramp Layout (Gate) 1.
This section gives the baseline ramp layout (gate). The Stand Safety Line delimits the Aircraft Safety Area (minimum distance of 7.50 m (24.61 ft.) from the aircraft). No vehicle must be parked in this area before complete stop of the aircraft (wheel chocks in position on landing gears).
5-1-2
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
TOW AS GPU
PS
CAT ULD AC LDCL
CAT
PS
FUEL
LDCL BULK
CLEAN
STAND SAFETY LINE
ULD
CB
WV
CAT
LV
FEET 0 10 20 30 40 50 60 0
4
8 12 16 METERS
20
P_AC_050102_1_0010001_01_01
Typical Ramp Layout (Gate) FIGURE-5-1-2-991-001-A01
5-1-2
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-2-0
Terminal Operations - Full Servicing Turn Round Time
**ON A/C A350-900 Terminal Operations - Full Servicing Turn Round Time 1.
This section provides a typical turn round time chart showing the typical time for ramp activities during aircraft turn round. Actual times may vary due to each operator’s specific practice, resources, equipment and operating conditions.
2.
Assumptions used for full servicing turn round time chart A.
PASSENGER HANDLING 315 pax: 48 B/C + 267 Y/C. All passengers deplane and board the aircraft. 2 Passenger Boarding Bridges (PBB) used at doors L1 and L2. Equipment positioning/removal + opening/closing door = + 3 min. No Passenger with Reduced Mobility (PRM) on board Deplaning: - 158 pax at door L1, - 157 pax at door L2, - Deplaning rate = 25 pax/min per door, - Priority deplaning for premium passengers. Boarding: - 158 pax at door L1, - 157 pax at door L2, - Boarding rate = 15 pax/min per door, - Last Pax Seated Allowance (LPS) + headcounting = + 4 min.
B.
CARGO 2 cargo loaders and 1 belt loader. Equipment positioning/removal + opening/closing door = +2.5 min. 100% cargo exchange: - FWD cargo compartment: 8 containers / 4 pallets, - AFT cargo compartment: 4 containers / 4 pallets, - Bulk compartment: 1000 kg (2205 lb). Container unloading/loading times: - Unloading = 1.2 min/container, - Loading = 1.4 min/container. Bulk unloading/loading times: - Unloading = 110 kg/min (243 lb/min), - Loading = 95 kg/min (210 lb/min). Pallet unloading/loading times: - Unloading = 2.4 min/pallet,
5-2-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
-
Loading = 2.8 min/pallet.
C.
REFUELLING 81000 l (21398 US gal) at 50 psig (3.45 bars-rel). Dispenser positioning/removal = + 3 min.
D.
CLEANING Cleaning is performed in available time.
E.
CATERING 3 catering trucks for servicing galleys simultaneously at doors R1, R2 and R4. Equipment positioning + door opening = + 5 min. Closing door + equipment removal = + 3 min. Full Size Trolley Equivalent (FSTE) to unload and load: 42 FSTE: - 10 FSTE at door R1, - 7 FSTE at door R2, - 23 FSTE at door R4. Time for trolley exchange = 1.5 min per FSTE.
F.
GROUND HANDLING / SERVICING. GENERAL. Start of operations: - Bridges/Stairs: t0=0, - Other equipment: t = t0 + 1 min. Ground Power Unit (GPU): up to 2 × 90 kVA. Air Conditioning: up to 2 hoses. Potable water servicing: 100% uplift, 1060 l (280 US gal). Toilet servicing: draining + rinsing.
5-2-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
TRT : 0
10
61
min
20
30
40
50
60
70
DEPLANING/BOARDING AT L1 DEPLANING/BOARDING AT L2 HEADCOUNTING CATERING AT R1 CATERING AT R2 CATERING AT R4 CLEANING
AVAILABLE TIME
CARGO FWD CC CARGO AFT CC BULK REFUELLING POTABLE WATER SERVICING TOILET SERVICING
ACTIVITY CRITICAL PATH POSITIONING/REMOVAL
P_AC_050200_1_0010001_01_01
Full Servicing Turn Round Time Chart FIGURE-5-2-0-991-001-A01
5-2-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-3-0
Terminal Operations - Transit Turn Round Time
**ON A/C A350-900 Terminal Operations - Transit Turn Round Time 1.
This section provides a typical turn round time chart showing the typical time for ramp activities during aircraft turn round. Actual times may vary due to each operator’s specific practice, resources, equipment and operating conditions.
2.
Assumptions used for transit turn round time chart A.
PASSENGER HANDLING 315 pax: 48 B/C + 267 Y/C. 50% passengers deplane and board the aircraft. 1 Passenger Boarding Bridge (PBB) used at Door L2. Equipment positioning/removal + opening/closing door = + 3 min. No Passenger with Reduced Mobility (PRM) on board. Deplaning: - 158 pax at door L2, - Deplaning rate = 25 pax/min per door. Boarding: - 158 pax at door L2, - Boarding rate = 15 pax/min per door, - Last Pax Seated Allowance (LPS) + headcounting = + 4 min.
B.
CARGO 1 cargo loader + 1 belt loader. Equipment positioning/removal + opening/closing door = + 2.5 min. 50% cargo exchange: - AFT cargo compartment: 2 containers / 2 pallets, - Bulk compartment: 500 kg (1102 lb). Container unloading/loading times: - Unloading = 1.2 min/container, - Loading = 1.4 min/container. Bulk unloading/loading times: - Unloading = 110 kg/min (243 lb/min), - Loading = 95 kg/min (210 lb/min). Pallet unloading/loading times: - Unloading = 2.4 min/pallet, - Loading = 2.6 min/pallet.
C.
REFUELLING No refuelling.
5-3-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
D.
CLEANING Cleaning is performed in available time.
E.
CATERING One catering truck for servicing the galleys as required.
F.
GROUND HANDLING / SERVICING. GENERAL Start of operations: - Bridges: t0 = 0, - Other equipment: t = t0 + 1 min. Ground Power Unit (GPU): up to 2 × 90 kVA. Air conditioning: up to 2 hoses . No potable water servicing. No toilet servicing.
5-3-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
TRT : 0
5
10
30 15
20
min 25
30
35
DEPLANING/BOARDING AT L2 HEADCOUNTING CATERING
AVAILABLE TIME
CLEANING
AVAILABLE TIME
CARGO AFT CC BULK
ACTIVITY POSITIONING/REMOVAL
P_AC_050300_1_0010002_01_01
Transit Turn Round Time FIGURE-5-3-0-991-001-B01
5-3-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-0
Ground Service Connections layout
**ON A/C A350-900 Ground Service Connections layout 1.
This section gives the ground service connections layout.
5-4-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
10
1
4−5
2
8
15
16 17
11 12−14
18
15 10 4 5 1
11 13 14
6
2
3
7
17
12
8
16
18
11
6 9 15
1 − GROUNDING POINT NLG 2 − GROUND ELECTRICAL POWER CONNECTORS 3 − PRE CONDITIONNED AIR CONNECTORS 4 − VFG OIL SERVICING 5 − STARTER OIL SERVICING 6 − ENGINE OIL SERVICING 7 − AIR START UNIT CONNECTORS 8 − YELLOW HYDRAULIC GROUND CONNECTOR 9 − PRESSURE REFUEL CONNECTORS (RH WING)
10 − PRESSURE REFUEL CONNECTORS (LH WING) − OPTION 11 − GROUNDING POINT MLG 12 − REFUEL/DEFUEL CONTROL PANEL 13 − HYDRAULIC SERVICING PANEL 14 − GREEN HYDRAULIC GROUND CONNECTOR 15 − NACA AND OVERPRESSURE PANEL 16 − POTABLE WATER SERVICING PANEL 17 − WASTE WATER SERVICING PANEL 18 − APU OIL SERVICING P_AC_050400_1_0010001_01_01
Ground Service Connections layout FIGURE-5-4-0-991-001-A01
5-4-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-1
Grounding Points
**ON A/C A350-900 Grounding Points 1.
Grounding (Earthing) Point Locations
AFT OF NOSE On Nose Landing Gear On Left Main Landing Gear Leg On Right Main Landing Gear Leg
4.42 m (14.5 ft.) 32.95 m (108.1 ft.) 32.95 m (108.1 ft.)
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE 0.07 m (0.23 ft.) 5.59 m (18.34 ft.) 5.59 m (18.34 ft.)
MEAN HEIGHT FROM GROUND 1.06 m (3.48 ft.) 1.55 m (5.09 ft.) 1.55 m (5.09 ft.)
A.
The grounding (earthing) stud on each landing gear is designed for use with a clip-on connector, such as an Appleton TGR.
B.
The grounding studs are used to connect the aircraft to approved ground connection on the ramp or in the hangar for: (1) Refuel/defuel operations (2) Maintenance operations (3) Bad weather conditions. NOTE : In all other conditions, the electrostatic discharge through the tire is sufficient.
5-4-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A B
A
C
GROUNDING (EARTHING) POINT
B
C P_AC_050401_1_0010001_01_00
Ground Point NLG FIGURE-5-4-1-991-001-A01
5-4-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
B A A
A
C
LH SHOWN RH SYMMETRICAL
GROUNDING (EARTHING) POINT
B
C P_AC_050401_1_0020001_01_00
Ground Point MLG FIGURE-5-4-1-991-002-A01
5-4-1
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-2
Hydraulic System
**ON A/C A350-900 Hydraulic System 1.
Ground Service Panel AFT OF NOSE
Green Hydraulic 36.37 m Ground (119.32 ft.) Access Door: 197 LB Yellow Hydraulic 30.35 m Ground (99.57 ft.) Access Door: 194 KB Hydraulic Reservoir 36.42 m Servicing (119.49 ft.) Access Door: 197 LB A.
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE 0.61 m (2.0 ft.)
1.51 m (4.95 ft.)
MEAN HEIGHT FROM GROUND 2.39 m (7.84 ft.)
2.24 m (7.35 ft.)
0.87 m (2.85 ft.)
2.51 m (8.23 ft.)
Reservoir pressurization (1) One connector ISO 4570, 1/4 in.
B.
Reservoir filling (1) One connector AE96993E, 1/4 in.
5-4-2
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
HIGH PRESSURE CONNECTOR
LOW PRESSURE CONNECTOR
RESERVOIR FILLING CONNECTOR
P_AC_050402_1_0010001_01_00
Green Ground Service Panel FIGURE-5-4-2-991-001-A01
5-4-2
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
HIGH PRESSURE CONNECTOR
LOW PRESSURE CONNECTOR
P_AC_050402_1_0020001_01_00
Yellow Ground Service Panel FIGURE-5-4-2-991-002-A01
5-4-2
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-3
Electrical System
**ON A/C A350-900 Electrical System 1.
Electrical System DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
AFT OF NOSE A/C External Power Access Door: 122 AR A.
6.63 m (21.75 ft.)
0.91 m (2.99 ft.)
MEAN HEIGHT FROM GROUND 2.58 m (8.46 ft.)
External power receptacle : (1) Two standard ISO 461 Style3 --- 90 kVA each.
B.
Power supply : (1) Three-phase, 115 V, 400 Hz.
C.
Electrical connectors for servicing : (1) AC outlets : HUBBELL 5258 (2) DC outlets : HUBBELL 7472
5-4-3
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
122AR
A ELECTRICAL POWER RECEPTACLES
925VU
A FWD P_AC_050403_1_0010001_01_01
Electrical Service Panel FIGURE-5-4-3-991-001-A01
5-4-3
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 198VR
B 198QR
A Z190
C 198PR
SAFETY PIN
A
B
C
P_AC_050403_1_0030001_01_00
RAT FIGURE-5-4-3-991-003-A01
5-4-3
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-4
Oxygen System
**ON A/C A350-900 Oxygen System 1.
Oxygen system Get access to the forward lower-deck cargo-compartment. The access panel to the crew oxygen servicing point is located on the rear triangular area of the FWD cargo door.
5-4-4
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FR20
A
FR30
B Z130
FR29
A FR28
CREW OXYGEN FILLING PORT CREW OXYGEN FILLING GAGE
B
P_AC_050404_1_0010001_01_00
Oxygen System FIGURE-5-4-4-991-001-A01
5-4-4
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-5
Fuel System
**ON A/C A350-900 Fuel System 1.
Refuel/Defuel Control Panel and Connectors
AFT OF NOSE Refuel/Defuel Control Panel Access Door: 197 KB Refuel/Defuel Connectors, Left (Optional) Access Door: 523 EB Refuel/Defuel Connectors, Right Access Door: 623 EB A.
36.30 m (119.09 ft.)
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
32.57 m (106.86 ft.)
2.18 m (7.15 ft.)
on centerline
32.57 m (106.86 ft.)
MEAN HEIGHT FROM GROUND
15.83 m (51.94 ft.)
15.83 m (51.94 ft.)
5.50 m (18.04 ft.)
5.50 m (18.04 ft.)
Refuel/defuel connectors: (1) Two standard ISO 45, 2.5 in. on right wing (2) Two standard ISO 45, 2.5 in. on left wing (optional).
B.
Refuel pressure: (1) Max. pressure : 3.45 bar (50 psi).
2.
Overpressure Protector and NACA Intake for Vent Tank ACCESS
Overpressure Protector NACA Intake for Vent Tank
AFT OF NOSE 38.24 m (125.46 ft.) 38.69 m (126.94 ft.)
POSITION FROM AIRCRAFT CENTERLINE RH SIDE LH SIDE 22.33 m 22.33 m (73.26 ft.) (73.26 ft.) 23.07 m 23.07 m (75.69 ft.) (75.69 ft.)
5-4-5
MEAN HEIGHT FROM GROUND 6.13 m (20.11 ft.) 6.19 m (20.31 ft.)
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_050405_1_0010001_01_00
Refuel/Defuel Control Panel FIGURE-5-4-5-991-001-A01
5-4-5
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
LH SIDE SHOWN RH SIDE SYMMETRICAL
REFUEL/DEFUEL COUPLINGS
P_AC_050405_1_0020002_01_00
Ground Service Connections FIGURE-5-4-5-991-002-B01
5-4-5
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
LH SIDE SHOWN RH SIDE SYMMETRICAL
NACA INTAKE NACA DUCT PANEL TANK OVER PRESSURE DISC OVER PRESSURE PANEL
P_AC_050405_1_0030001_01_00
NACA and Overpressure Locations FIGURE-5-4-5-991-003-A01
5-4-5
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-6
Pneumatic System
**ON A/C A350-900 Pneumatic System 1.
Low Pressure Connectors AFT OF NOSE
Low Pressure Connector Access Door: 193 CB Low Pressure Connector Access Door: 194 CR A. 2.
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
MEAN HEIGHT FROM GROUND
23.58 m (77.36 ft.)
1.05 m (3.44 ft.)
2.59 m (8.5 ft.)
23.58 m (77.36 ft.)
1.87 m (6.14 ft.)
2.87 m (9.42 ft.)
Connectors : Two standard ISO 1034, 8 in.
High Pressure Connectors
AFT OF NOSE High Pressure Connectors Access door: 193 KB A.
26.81 m (87.96 ft.)
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
MEAN HEIGHT FROM GROUND 2.06 m (6.76 ft.)
on centerline
Connectors: Two standard ISO 2026, 3 in.
5-4-6
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
LOW PRESSURE AIR CONNECTORS
P_AC_050406_1_0010001_01_00
Low Pressure Preconditioned Air FIGURE-5-4-6-991-001-A01
5-4-6
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
HIGH PRESSURE AIR CONNECTORS
P_AC_050406_1_0020001_01_00
High Pressure Preconditioned Air FIGURE-5-4-6-991-002-A01
5-4-6
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-7
Potable Water System
**ON A/C A350-900 Potable Water System 1.
Potable Water System
AFT OF NOSE Potable Water Ground Service Access Door: 164 AR A.
50.2 m (164.7 ft.)
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE 1.6 m (5.25 ft.)
MEAN HEIGHT FROM GROUND 3.3 m (10.83 ft.)
Technical Specifications Connectors : (1) Fill/drain nipple, ISO 17775, 3/4 in. (2) Overflow, SAE AS5132-16
B.
Capacity : (1) Standard configuration --- 2 tanks: 1060 l (280 USgal) (2) Optional --- 2 tanks: 1500 l (396 USgal)
C.
Filling pressure : (1) Max filling pressure: 8.60 bar (125 psi)
5-4-7
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
Z160
FR71
164AR
A
FR84 FR85 FR86
OVERFLOW NIPPLE
POTABLE WATER INDICATION PANEL
FILL
STOP
DRAIN
FILL/DRAIN PORT
A FWD P_AC_050407_1_0010001_01_00
Potable Water Ground Service Panel FIGURE-5-4-7-991-001-A01
5-4-7
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A Z120 FR12 FR13
DRAIN PORT
A
P_AC_050407_1_0020001_01_00
Forward Drain panel FIGURE-5-4-7-991-002-A01
5-4-7
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A Z170
FR93
POTABLE WATER TANK
FR89
FR86
A
P_AC_050407_1_0030001_01_00
Potable Water Tanks Location FIGURE-5-4-7-991-003-A01
5-4-7
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-8
Oil System
**ON A/C A350-900 Oil System 1.
Engine Oil Servicing
AFT OF NOSE Oil Engine 1 Access Door: 415 BR Oil Engine 2 Access Door: 425 BR 2.
24.75 m (81.2 ft.) 24.68 m (80.97 ft.)
8.6 m (28.22 ft.) 12.29 m (40.32 ft.)
MEAN HEIGHT FROM GROUND 3.23 m (10.6 ft.) 3.23 m (10.6 ft.)
VFG Oil Servicing
AFT OF NOSE 2 VFG on Engine 1 24.32 m Fan Cowl: (79.79 ft.) 415 AL 2 VFG on Engine 2 24.34 m Fan Cowl: (79.86 ft.) 425 AL 3.
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE 11.02 m (36.15 ft.) 9.86 m (32.35 ft.)
MEAN HEIGHT FROM GROUND 1.22 m (4.0 ft.) 1.22 m (4.0 ft.)
Starter Oil Servicing
AFT OF NOSE Starter Engine 1 Fan Cowl: 415 AL Starter Engine 2 Fan Cowl: 425 AL
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
24.6 m (80.71 ft.) 24.6 m (80.71 ft.)
10.57 m (34.68 ft.) 10.31 m (33.83 ft.)
MEAN HEIGHT FROM GROUND 1.08 m (3.54 ft.) 1.08 m (3.54 ft.)
5-4-8
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
4.
APU Oil Servicing
AFT OF NOSE APU Access Door 316 BR
62.52 m (205.12 ft.)
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE 0.48 m (1.57 ft.)
MEAN HEIGHT FROM GROUND 6.45 m (21.16 ft.)
5-4-8
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
OIL TANK OIL LEVEL SIGHT GLASS OIL FILLER CAP
P_AC_050408_1_0010001_01_00
Engine Oil Servicing FIGURE-5-4-8-991-001-A01
5-4-8
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FILTER BOWL
DISCONNECT RESET HANDLE
PRESSURE FILL DRAIN
SIGHT GLASS
OVERFLOW/STANDPIPE
TYPICAL
P_AC_050408_1_0020001_01_00
VFG Oil Servicing FIGURE-5-4-8-991-002-A01
5-4-8
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A
PRESSURE FILL PORT
OIL DRAIN PLUG PRESSURE SPILL PORT
A
MAGNETIC CHIP DETECTOR
P_AC_050408_1_0030001_01_01
Starter Oil Servicing FIGURE-5-4-8-991-003-A01
5-4-8
Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
FILL CAP
SIGHT GLASS
P_AC_050408_1_0040001_01_00
APU Oil Servicing FIGURE-5-4-8-991-004-A01
5-4-8
Page 6 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-4-9
Vacuum Toilet System
**ON A/C A350-900 Vacuum Toilet System 1.
Waste Water System
AFT OF NOSE Waste Water Ground Service Access Door: 171 AL A.
52.21 m (171.29 ft.)
DISTANCE FROM AIRCRAFT CENTERLINE R SIDE L SIDE
MEAN HEIGHT FROM GROUND 3.69 m (12.11 ft.)
on centerline
Connectors : (1) Draining, ISO 17775, 4 in (2) Flushing and Filling, ISO 17775, 1 in
B.
Capacity per tank (two tanks), 595 l (157.19 USgal)
C.
Waste tank --- rinsing : (1) Operating pressure, 3.45 bar (50.04 psi)
D.
Waste precharge per tank (two tanks), 23 l (6.08 USgal)
5-4-9
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
WASTE DRAIN CONNECTION
FILL AND RINSE CONNECTION
CONTROL LEVER
P_AC_050409_1_0010001_01_00
Ground Service Panel FIGURE-5-4-9-991-001-A01
5-4-9
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
A Z170
FR93
FR89
FR86
WASTE TANK
A
P_AC_050409_1_0020001_01_00
Waste Tanks Location FIGURE-5-4-9-991-002-A01
5-4-9
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-6-0
Ground Pneumatic Power Requirements
**ON A/C A350-900 Ground Pneumatic Power Requirements 1.
This document describes the required performance for the ground equipment to maintain the cabin temperature at 27 deg.C (80.6 deg.F) after boarding (Section 5.7 - steady state), and provides the time needed to cool down or heat up the aircraft cabin to the required temperature (Section 5.6 dynamic cases with aircraft empty). ABBREVIATION
A/C AHM GC GSE IFE LP OAT PCA A.
DEFINITION Aircraft Aircraft Handling Manual Ground Connection Ground Service Equipment In-Flight Entertainment Low Pressure Outside Air Temperature Preconditioned Air The air flow rates and temperature requirements for the GSE, provided in Sections 5.6 and 5.7, are given at A/C ground connection. NOTE : The cooling capacity of the equipment (kW) is only indicative and is not sufficient by itself to ensure the performance (outlet temperature and flow rate combinations are the requirements needed for ground power). An example of cooling capacity calculation is given in Section 5.7.
B.
The air flow rates and temperature requirements for the GSE are given for the A/C in the configuration ”2 LP ducts connected”. NOTE : The maximum air flow is driven by the limitation on pressure at ground connection.
C.
For temperature below 2 deg.C (35.6 deg.F), the ground equipment shall be compliant with the Airbus document ”Subfreezing PCA Carts -- Compliance Document for Suppliers” (contact Airbus to obtain this document) defining all the requirements to which Subfreezing PreConditioning Air equipment needs to comply to allow its use on Airbus aircraft. These requirements come in addition to the functional specifications included in the IATA AHM997.
2.
Ground Pneumatic Power Requirements - Heating This section provides the ground pneumatic power requirements for heating (pull up) the cabin, initially at OAT, up to 21 deg.C (69.8 deg.F) FIGURE 5-6-0-991-001-A Sheet 1.
3.
Ground Pneumatic Power Requirements - Cooling This section provides the ground pneumatic power requirements for cooling (pull down) the cabin, initially at OAT, down to 27 deg.C (80.6 deg.F) FIGURE 5-6-0-991-001-A Sheet 2.
5-6-0
Page 1 Jun 01/13
AIR FLOW AT GC (kg/s) 2.5
2.7
2.9
3.1
3.3
3.5
3.7
3.9
4.1
4.3
4.5
5-6-0 35
40
45
50
55
TIME TO HEAT CABIN TO +21°C (+69.8°F) ON GROUND (min)
60
65
PU1 "ISA −38°C (−36.4°F )" PU2 "ISA −45°C (−49°F )"
PU1: OAT ISA −38°C (−36.4°F); GC OUTLET +70°C (+158°F); A/C EMPTY; IFE OFF; NO SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON PU2: OAT ISA −45°C (−49°F); GC OUTLET +70°C (+158°F); A/C EMPTY; IFE OFF; NO SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON
PULL UP CASES:
30
MAX AIR FLOW
PULL UP PERFORMANCE (+70°C (+158°F) GC OUTLET)
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_050600_1_0010001_01_02
Ground Pneumatic Power Requirements Heating (Sheet 1 of 2) FIGURE-5-6-0-991-001-A01
Page 2 Jun 01/13
AIR FLOW AT GC (kg/s)
2.5
2.7
2.9
3.1
3.3
3.5
3.7
3.9
4.1
4.3
4.5
20
5-6-0
30 40
50
60
70
TIME TO COOL CABIN TO +27°C (+80.6°F) ON GROUND (min)
PD1 "ISA +23°C (+73.4°F) / GC OUTLET +2°C (+35.6°F)" PD2 "ISA +23°C (+73.4°F) / GC OUTLET −10°C (+14°F)" PD3 "ISA +23°C (+73.4°F) / GC OUTLET −20°C (−4°F)"
PD1: OAT ISA +23°C (+73.4°F); GC OUTLET + 2°C (+35.6°F); A/C EMPTY; IFE OFF; SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON PD2: OAT ISA +23°C (+73.4°F); GC OUTLET −10°C (+14°F); A/C EMPTY; IFE OFF; SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON PD3: OAT ISA +23°C (+73.4°F); GC OUTLET −20°C (−4°F); A/C EMPTY; IFE OFF; SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON
PULL DOWN CASES:
10
MAX AIR FLOW
PULL DOWN PERFORMANCE
80
90
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_050600_1_0010001_02_01
Ground Pneumatic Power Requirements Cooling (Sheet 2 of 2) FIGURE-5-6-0-991-001-A01
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-7-0
Preconditioned Airflow Requirements
**ON A/C A350-900 Preconditioned Airflow Requirements 1.
This section provides the necessary information for the design of a ground unit; it gives the air flow rate and temperature combinations needed to maintain the cabin temperature at 27 deg.C (80.6 deg.F). These settings are not intended to be used for operation (they don’t substitute to the settings given in the AMM): They are issued from theoretical simulations and give the picture of a real steady state. For the air conditioning operation, Airlines will refer to the AMM that details the procedure and the PCA settings to maintain the cabin temperature below 27 deg.C (80.6 deg.F) during boarding (therefore it is not a steady state).
5-7-0
Page 1 Jun 01/13
5-7-0 −10
C2
C1
−5
C3
0
5 10
MAX AIR FLOW
15 20 25 30 GC OUTLET TEMPERATURE (°C)
35
40
H1
45
H2 50
OAT ISA−38°C (−36.4°F); A/C EMPTY; IFE OFF; NO SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON OAT ISA−45°C (−49°F); A/C EMPTY; IFE OFF; NO SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON OAT ISA−55°C (−67°F); A/C EMPTY; IFE OFF; NO SOLAR LOAD; LIGHTS ON; RECIRCULATION FANS ON
OAT ISA+30°C (86°F); 446 PASSENGERS AND CREW; IFE ON; LIGHTS ON; SOLAR LOAD; RECIRCULATION FANS ON OAT ISA+23°C (73.4°F); 446 PASSENGERS AND CREW; IFE ON; LIGHTS ON; SOLAR LOAD; RECIRCULATION FANS ON OAT ISA; 446 PASSENGERS AND CREW; IFE ON; LIGHTS ON; SOLAR LOAD; RECIRCULATION FANS ON
1,8
2,3
2,8
3,3
3,8
4,3
COOLING/HEATING PERFORMANCE
EXAMPLE: COOLING CAPACITY CALCULATION: FOR THE CONDITIONS C3, THE COOLING CAPACITY OF 4.25 kg/s x 1kJ/(kg.°C) X (27−2) = 106 kW IS NEEDED TO MAINTAIN THE CABIN TEMPERATURE BELOW 27°C (86°F) (4.25 kg/s AT GC OUTLET OF 2°C (35.6°F)).
AIRFLOW FROM GC (kg/s)
4,8
H3 55
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_050700_1_0010001_01_01
Preconditioned Airflow Requirements FIGURE-5-7-0-991-001-A01
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-8-0
Towing Requirements
**ON A/C A350-900 Towing Requirements 1.
This section provides information on aircraft towing. The A350 is designed with means for conventional or towbarless towing. It is possible to tow or push the aircraft, at maximum ramp weight with engines at zero or up to idle thrust, using a towbar attached to the NLG. One towbar fitting is installed at the front of the leg (optional towing fitting for towing from the rear of the NLG available). The first part of this section shows the chart to determine the draw bar pull and tow tractor mass requirements as function of the following physical characteristics: - Aircraft weight, - Slope, - Number of engines at idle.
2.
Towbar design guidelines The A350 towbar requirements are identical to the towbar requirements for the long range aircraft. - ISO 8267-1, ”Aircraft - Towbar Attachment Fitting - Interface Requirements - Part 1: Main Line Aircraft”, - ISO 9667, ”Aircraft Ground Support Equipment - Towbars”, - IATA Airport Handling Manual AHM 958, ”Functional Specification for an Aircraft Towbar”. A conventional type towbar is required which should be equipped with a damping system to protect the NLG against jerks and with towing shear pins : - A traction shear pin calibrated at 28 620 daN (64 340 lbf), - A torsion pin calibrated at 3 130 m.daN (27 7028 lbf.in). The towing head is designed according to ISO 8267--1 (Aircraft Weight Category III)..
5-8-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
DRAWBAR PULL ( x 1000 kg ) 25
17.0
15
10
=0 .57
=0
.8
BREAKWAY RESISTANCE 4% # OF ENGINES ON FOR PB: 1 ENGINE THRUST 811 daN
DR YC ON CR WE ETE TC ON CR ET E
20
A/C WEIGHT ( x 1000 kg )
280
2% SLOPE
1 ENGINE ON
250
205
.2
=0
180 155
W
D AR
255 230
O SN
130
H
5
ICE
= 0.05
29.8
0 0
10
20
30
40
50
60
70
80
TOTAL TRACTION WHEEL LOAD ( x 1000 kg )
0
1
2
No. OF ENGINES AT IDLE
0
0.5
1.0
1.5
2.0
SLOPE ( % )
EXAMPLE HOW TO DETERMINE THE MASS REQUIREMENT TO TOW A A350 AT 250 000 kg, AT 2% SLOPE, 1 ENGINE AT IDLE AND FOR WET TARMAC CONDITIONS: − − − − − − −
ON THE RIGHT HAND SIDE OF THE GRAPH, CHOOSE THE RELEVANT AIRCRAFT WEIGHT (250 000 kg), FROM THIS POINT DRAW A PARALLEL LINE TO THE REQUIRED SLOPE PERCENTAGE (2%), FROM THIS POINT OBTAINED DRAW A STRAIGHT HORIZONTAL LINE UNTIL No. OF ENGINES AT IDLE = 2, FROM THIS POINT DRAW A PARALLEL LINE TO THE REQUESTED NUMBER OF ENGINES (1), FROM THIS POINT DRAW A STRAIGHT HORIZONTAL LINE TO THE DRAWBAR PULL AXIS, THE Y−COORDINATE OBTAINED IS THE NECESSARY DRAWBAR PULL FOR THE TRACTOR (17 000 kg), SEARCH THE INTERSECTION WITH THE "WET CONCRETE" LINE. THE OBTAINED X−COORDINATE IS THE RECOMMENDED MINIMUM TRACTOR WEIGHT (29 800 kg).
P_AC_050800_1_0010001_01_00
Towing Requirements FIGURE-5-8-0-991-001-A01
5-8-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
5-9-0
De-icing and External cleaning
**ON A/C A350-900 De-icing and External cleaning 1.
De-Icing and External Cleaning on Ground. The mobile equipment for aircraft de-icing and external cleaning must be capable of reaching heights up to approximately 17 m (56 ft.).
2.
De-Icing Wing Top Surface (Both Sides)
AIRCRAFT TYPE
354 m2 (3810 ft.2)
A350--900
AIRCRAFT TYPE
A350--900
Wingtip Devices HTP Top Surface (Both Inside and (Both Sides) (Outside Surfaces) (Both Sides) 25 m2 69 m2 (269 ft.2) (743 ft.2)
Fuselage Top Surface (Top Third - 120? Arc) 357 m2 (3843 ft.2)
VTP (Both Sides)
102 m2 (1098 ft.2)
Nacelle and Pylon Total De-Iced Area (Top Third - 120? Arc) (All Engines) 56 m2 962 m2 (603 ft.2) (10355 ft.2)
NOTE : Dimensions are approximate 3.
External Cleaning Wing Top Surface (Both Sides)
AIRCRAFT TYPE
A350--900
354 m2 (3810 ft.2)
AIRCRAFT TYPE A350--900
Wing Lower Wingtip Devices HTP Top Surface (Both Inside Surface (Including Flap and (Both Sides) Track Fairing) (Outside (Both Sides) Surfaces) (Both Sides) 384 m2 25 m2 69 m2 (4133 ft.2) (269 ft.2) (743 ft.2)
VTP (Both Sides) 102 m2 (1098 ft.2)
Fuselage and Belly Fairing 1073 m2 (11550 ft.2)
HTP Lower Surface (Both Sides)
69 m2 (743 ft.2)
Nacelle and Pylon Total Cleaned Area (All Engines) 166 m2 2242 m2 (1787 ft.2) (24133 ft.2)
NOTE : Dimensions are approximate
5-9-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
OPERATING CONDITIONS 6-4-0
APU Exhaust Velocities and Temperatures
**ON A/C A350-900 APU Exhaust Velocities and Temperatures 1.
This section gives APU exhaust velocities and temperatures.
6-4-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
[m]
[ft] 40
15 m/s 10
46 m/s 30.5 m/s
61 m/s
30
20
FD
5 10
0
[m] 0
5
10
15
0
20
[ft] 0
10
20
30
40
50
60
[m]
[ft] 40
93°C
10
427°C
30
315.5°C
FD
204°C
20
149°C
5
260°C
10
0
[m] 0
5
10
15
0
20
[ft] 0
10
20
30
40
50
60
P_AC_060400_1_0010001_01_00
APU Exhaust Velocities and Temperatures FIGURE-6-4-0-991-001-A01
6-4-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
PAVEMENT DATA 7-1-0
General Information
**ON A/C A350-900 General Information 1.
A brief description of the pavement charts that follow will help in airport planning. To aid in the interpolation between the discrete values shown, each aircraft configuration is shown with a minimum range of five loads on the MLG. All curves on the charts represent data at a constant specified tire pressure with: - The aircraft loaded to the maximum ramp weight, - The CG at its maximum permissible aft position. Pavement requirements for commercial aircraft are derived from the static analysis of loads imposed on the MLG struts. Landing Gear Footprint. Section 7-2-0 , presents basic data on the landing gear footprint configuration, maximum ramp weights and tire sizes and pressures. Maximum Pavement Loads. Section 7-3-0, shows maximum vertical and horizontal pavement loads for certain critical conditions at the tire-ground interfaces. Landing Gear Loading on Pavement. Section 7-4-0 contains charts to find these loads throughout the stability limits of the aircraft at rest on the pavement. These MLG loads are used as the point of entry to the pavement design charts which follow, interpolating load values where necessary. Flexible Pavement Requirements - US Army Corps of Engineers Design Method. Section 7-5-0 uses procedures in Instruction Report No S-77-1 ”Procedures for Development of CBR Design Curves”, dated June 1977 and as modified according to the methods described in ICAO Aerodrome Design Manual, Part 3.Pavements, 2nd Edition, 1983, Section 1.1 (The ACN-PCN Method), and utilizing the alpha factors approved by ICAO in October 2007. The report was prepared by the U.S. Army Corps Engineers Waterways Experiment Station, Soils and Pavement Laboratory, Vicksburg, Mississippi”. The line showing 10 000 coverages is used to calculate Aircraft Classification Number (ACN). Flexible Pavement Requirements - LCN Conversion Method.
7-1-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
The flexible pavement charts in Section 7-6-0 show LCN against Equivalent Single Wheel Load (ESWL), and ESWL against pavement thickness. All LCN curves shown in ’Flexible Pavement Requirements’ were developed from a computer program based on data in International Civil Aviation Organisation (ICAO) document 7920-AN/865/2, Aerodrome manual, Part 2, ”Aerodrome Physical Characteristics”, Second Edition, 1965. Rigid Pavement Requirements - PCA (Portland Cement Association) Design Method. Section 7-7-0 gives the rigid pavement design curves that have been prepared with the use of the Westergaard Equation. This is in general accordance with the procedures outlined in the Portland Cement Association publications, ”Design of Concrete Airport Pavement”, 1973 and ”Computer Program for Airport Pavement Design”, (Program PDILB), 1967 both by Robert G. Packard. Rigid Pavement Requirements - LCN Conversion. Section 7-8-0 gives the rigid pavement requirements. All LCN curves shown in ’Rigid Pavement Requirements - Radius of Relative Stiffness (other values of E and µ) - were developed from a computer program based on data in International Civil Aviation Organisation (ICAO) document 7920-AN/865/2, Aerodrome manual, Part 2, ”Aerodrome Physical Characteristics”, Second Edition, 1965. The rigid pavement charts in Section 7-8-0 show LCN against ESWL, and ESWL against radius of relative stiffness. Rigid Pavement Requirements - LCN Conversion - Radius of Relative Stiffness. Section 7-8-1 allow to find the radius of relative stiffness based on other values of E and µ. Rigid Pavement Requirements - LCN Conversion - Radius of Relative Stiffness (other values of E and µ). The rigid pavement charts show LCN in Section 7-8-2 against ESWL and ESWL against radius of relative stiffness affected by the other values of E and µ. ACN/PCN Reporting System. Section 7-9 provides ACN data prepared according to the ACN/PCN system as referenced in ICAO Annex 14, ”Aerodromes”, Volume 1 ”Aerodrome Design and Operations.” Fourth Edition July 2004, incorporating Amendments 1 to 6. Fourth Edition July 2004, incorporating Amendments 1 to 6. The ACN/PCN system provides a standardized international aircraft / pavement rating system replacing the various S, T, TT, LCN, AUW, ISWL, etc., rating systems used throughout the world. ACN is the Aircraft Classification Number and PCN is the corresponding Pavement Classification Number. An aircraft having an ACN equal to or less than the PCN can operate without restriction on the pavement. Numerically the ACN is two times the derived single wheel load expressed in thousands of kilograms.
7-1-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
The derived single wheel load is defined as the load on a single tire inflated to 1.25 Mpa (181 psi) that would have the same pavement requirements as the aircraft. Computationally the ACN/PCN system uses PCA program PDILB for rigid pavements and S-77-1 for flexible pavements to calculate ACN values. The Airport Authority must decide on the method of pavement analysis and the results of their evaluation shown as follows: PCN SUBGRADE TIRE PRESSURE EVALUATION PAVEMENT TYPE CATEGORY CATEGORY METHOD R - Rigid A - High W - No Limit T - Technical F - Flexible B - Medium U - Using Aircraft X - To 1.5 Mpa (217 psi) C - Low Y - To 1 Mpa (145 psi) D - Ultra Low Z - To 0.5 Mpa (73 psi) Section 7-9-0 shows the aircraft ACN values for flexible pavements. The four subgrade categories are: - A . High Strength CBR 15 - B . Medium Strength CBR 10 - C . Low Strength CBR 6 - D . Ultra Low Strength CBR 3 Section 7-9-1 shows the aircraft ACN values for rigid pavements. The four subgrade categories are: - A . High Strength Subgrade k = 150 MN/m3 (550 pci ) - B . Medium Strength Subgrade k = 80 MN/m3 (300 pci ) - C . Low Strength Subgrade k = 40 MN/m3 (150 pci ) - D . Ultra Low Strength Subgrade k = 20 MN/m3 (75 pci )
7-1-0
Page 3 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-2-0
Landing Gear Footprint
**ON A/C A350-900 Landing Gear Footprint 1.
This section gives data about the landing gear footprint in relation with the aircraft MRW and tire sizes and pressures.
7-2-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
MAXIMUM RAMP WEIGHT
268 900 kg (592 825 lb)
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
SEE SECTION 7−4−0
NOSE GEAR TIRE SIZE NOSE GEAR TIRE PRESSURE MAIN GEAR TIRE SIZE MAIN GEAR TIRE PRESSURE
1050x395R16 28PR 12.2 bar (177 psi) 1400x530R23 42PR 16.6 bar (241 psi)
28.665 m (94.050 ft) 10.600 m (34.777 ft)
0.748 m (2.454 ft)
1.735 m (5.692 ft)
2.040 m (6.693 ft)
P_AC_070200_1_0010001_01_01
Landing Gear Footprint FIGURE-7-2-0-991-001-A01
7-2-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-3-0
Maximum Pavement Loads
**ON A/C A350-900 Maximum Pavement Loads 1.
This section shows maximum vertical and horizontal pavement loads for some critical conditions at the tire-ground interfaces.
7-3-0
Page 1 Jun 01/13
−900
MODEL
1
2 VNG
4
V
lb
kg
lb
7-3-0 (NG)
92 125
41 790
DECELERATION kg lb
222 150
268 900 kg 268 900 kg
MRW = MRW =
(1) (2)
NOTE: ALL LOADS CALCULATED USING AIRCRAFT MAXIMUM RAMP WEIGHT
AFT CG = 33 % MAC AT A/C WEIGHT=268 900 kg
FWD CG = 25.5 % MAC AT A/C WEIGHT=268 900 kg
MAXIMUM HORIZONTAL GROUND LOAD FROM BRAKING
H
100 770
COEFFICIENT = 0.8 kg lb
MAXIMUM VERTICAL NOSE GEAR GROUND LOAD AT MOST FORWARD CG
125 960
kg
STEADY BRAKING AT INSTANTANEOUS BRAKING @ 10 ft/s²
6 H (PER STRUT)
V MAXIMUM VERTICAL MAIN GEAR GROUND LOAD AT MOST AFT CG (MG)
V
lb
38 780 277 700
kg
STATIC LOAD AT MAX AFT C.G. (2)
5 VMG (PER STRUT)
(MG)
STATIC LOAD STATIC BRAKING AT MOST FWD @ 10 ft/s² C.G. (1) DECELERATION
3
592 825 268 900 51 575 23 400 85 500
WEIGHT lb kg
MAXIMUM RAMP
V (NG)
H
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_070300_1_0010001_01_01
Maximum Pavement Loads FIGURE-7-3-0-991-001-A01
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-4-0
Landing Gear Loading on Pavement
**ON A/C A350-900 Landing Gear Loading on Pavement 1.
This section gives data about the landing gear loading on pavement. Example, see FIGURE 7-4-0-991-001-A, calculation of the total weight on the MLG for: - An aircraft with a MTOW of 268000 kg (590839 lb) - The aircraft gross weight is 190000 kg (418879 lb) - A percentage of weight on the MLG of 93.68 %. The total weight on the MLG group is 178000 kg (392423 lb).
7-4-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
PERCENTAGE MAC 5
10
15
20
30
25
35
40
45
50
270
270
265
265
260
260 255
WEIGHT ON MAIN LANDING GEAR (x 1000 kg)
250
CG FOR ACN CALCULATION
MTOW − 268 000 kg
250
245
245
240
240
235
235
230
230
225
225
220
220
215
215
210
210
205
205
200
200
MLW − 205 000 kg
195
195
190
190
185
185
180
180
175
175 170
170 MZFW − 192 000 kg
165
165
160
160
155
155
150
150
145
145
TAKE OFF
140
140
LANDING
135
135
130
130
125
125
120 84
86
88
90
92
AIRCRAFT GROSS WEIGHT (x 1000 kg)
255
94
96
98
120 100
PERCENTAGE OF WEIGHT ON MAIN GEAR P_AC_070400_1_0010001_01_00
Landing Gear Loading on Pavement MTOW 268 000 kg FIGURE-7-4-0-991-001-A01
7-4-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-5-0
Flexible Pavement Requirements - US Army Corps of Engineers Design Method S-77-1
**ON A/C A350-900 Flexible Pavement Requirements - US Army Corps of Engineers Design Method S-77-1 1.
This section gives data about the flexible pavement requirements. They are calculated with the US Army Corps of Engineers Design Method. To find a flexible pavement thickness, you must know the Subgrade Strength (CBR), the annual departure level and the weight on one MLG. The line that shows 10 000 coverages is used to calculate the Aircraft Classification Number (ACN). The procedure that follows is used to develop flexible pavement design curves: - With the scale for pavement thickness at the bottom and the scale for CBR at the top, a random line is made to show 10 000 coverages, - A plot is then made of the incremental values of the weight on the MLG, - Annual departure lines are made based on the load lines of the weight on the MLG that is shown on the graph. Example, see FIGURE 7-5-0-991-001-A, calculation of the thickness of the flexible pavement for: - An aircraft with a MTOW of 268000 kg (590839 lb), - A CBR value of 10, - An annual departure level of 3 000, - The load on one MLG of 110000 kg (242509 lb). The required flexible pavement thickness is 593 mm (23 in.).
7-5-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
SUBGRADE STRENGTH − CBR 3
6
10
15
20
30
40
60
80
WEIGHT ON ONE MAIN LANDING GEAR 125 960 kg (277 700 lb) 110 000 kg (242 500 lb) 100 000 kg (220 450 lb) 90 000 kg (198 425 lb) 80 000 kg (176 375 lb)
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG 10 000 COVERAGES USED FOR ACN CALCULATIONS ALPHA FACTOR = 0.8 ANNUAL DEPARTURES* 1 200 3 000 6 000 15 000 25 000 *20 YEAR PAVEMENT LIFE
3
10
6
15
20
30
40
60
80
[in] 10
15
20
30
40 [cm]
60
80 100 120 150 180
FLEXIBLE PAVEMENT THICKNESS 1400x530R23 42PR TIRES TIRE PRESSURE CONSTANT AT 16.6 bar (241 psi)
P_AC_070500_1_0010001_01_01
Flexible Pavement Requirements MTOW 268 000 kg FIGURE-7-5-0-991-001-A01
7-5-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-6-0
Flexible Pavement Requirements - LCN Conversion
**ON A/C A350-900 Flexible Pavement Requirements - LCN Conversion 1.
This section gives data about the flexible pavement requirements for Load Classification Number (LCN) conversion. They are calculated with the LCN conversion method. To find the aircraft weight that a flexible pavement can support, you must know the LCN of the pavement and the thickness. Example, see FIGURE 7-6-0-991-001-A, calculation of the thickness of the flexible pavement for: - An aircraft with a MTOW of 268000 kg (590839 lb) - The flexible pavement thickness is 1397 mm (55 in.) with a related LCN of 154. The weight on one MLG is 110000 kg (242509 lb). The following table provides LCN data in tabular format similar to the one used by ICAO in the ”Aerodrome Design Manual Part 3, Pavements - Edition 1977”. In order to use the system accurately you should know the total pavement thickness for flexible pavement. However, the pavement thickness for a particular runway are not frequently published in the standard airport information sources (Jeppesen, AERAD, DOD, etc.). Therefore it is common practice to use a standard thickness (20 inches) when determining the LCN and the ESWL of the aircraft. If the LCN for an intermediate weight between MRW and the empty weight of the aircraft is required or if the real thickness is known, refer to charts in FIGURE 7-6-0-991-001-A. FLEXIBLE PAVEMENT TIRE LOAD ON AIRCRAFT PRESSURE ESWL ONE MLG WEIGHT LCN TYPE (Mpa) LEG (%) x 1000 kg x 1000 lb h= 510 mm (20 in.) 268900 kg A350--900 46.8 31 69.4 116 (592824 lb) 1.66 142000 kg A350--900 46.8 17 36.7 68 (313057 lb)
7-6-0
Page 1 Jun 01/13
EQUIVALENT SINGLE WHEEL LOAD (1000 lb)
7-6-0 40
50
60
70
80
90
100
110
120
130
140
150
160
10
750
1000
30
40
50 60
1500
80
100
2000 2500
70
100
120
150
200 230 LOAD CLASSIFICATION NUMBER (LCN)
80
20
30
40
50
60
70
1400 x 530R23 42PR TIRES TIRE PRESSURE CONSTANT AT 16.6 bar (241 psi)
NOTE: EQUIVALENT SINGLE WHEEL LOADS ARE DERIVED BY METHODS SHOWN IN ICAO AERODROME MANUAL PART 2 PAR 4.1.3 SECOND EDITION 1965
FLEXIBLE PAVEMENT THICKNESS (in)
20
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
WEIGHT ON ONE MAIN LANDING GEAR 125 960 kg (277 700 lb) 110 000 kg (242 500 lb) 100 000 kg (220 450 lb) 90 000 kg (198 425 lb) 80 000 kg (176 375 lb)
500
FLEXIBLE PAVEMENT THICKNESS (mm)
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_070600_1_0010001_01_00
Flexible Pavement Requirements - LCN MTOW 268 000 kg FIGURE-7-6-0-991-001-A01
Page 2 Jun 01/13
EQUIVALENT SINGLE WHEEL LOAD (1000 kg)
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-7-0
Rigid Pavement Requirements - Portland Cement Association Design Method
**ON A/C A350-900 Rigid Pavement Requirements - Portland Cement Association Design Method 1.
This section gives data about the rigid pavement requirements for the PCA (Portland Cement Association) design method. They are calculated with the PCA design method. To find a rigid pavement thickness, you must know the Subgrade Modulus (K), the permitted working stress and the weight on MLG. The procedure that follows is used to develop rigid pavement design curves: - With the scale for pavement thickness on the left and the scale for permitted working stress on the right, a random load line is made. This represents the MLG maximum weight to be shown, - A plot is then made of all values of the subgrade modulus (k values), - More load lines for the incremental values of weight on the MLG are made based on the curve for k= 80MN/m3 already shown on the graph. Example, see FIGURE 7-7-0-991-001-A, calculation of the thickness of the flexible pavement for: - An aircraft with a MTOW of 268000 kg (590839 lb), - A k value of 80 MN/m3 (300 lbf/in3), - A permitted working stress of 35.15 kg/cm2 (500 lb/in2), - The load on one MLG of 110000 kg (242509 lb). The required rigid pavement thickness is 290 mm (11 in.).
7-7-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 1400x530R23 42PR TIRES TIRE PRESSURE CONSTANT AT 16.6 bar (241 psi) 1000
15
38
70
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG 36
14
65 900
K = 20 MN/m³ 60
K = 40 MN/m³
34
K = 80 MN/m³ 13
K = 150 MN/m³
800 55
50
700
30 45 11
600 (lb/in²)
28
26 10
500
9
400
40
35
(kg/cm²) ALLOWABLE WORKING STRESS
12
(in)
RIGID PAVEMENT THICKNESS (cm)
32
24 30
22
20
18
8
WEIGHT ON ONE MAIN LANDING GEAR 125 960 kg (277 700 lb) 110 000 kg (242 500 lb) 100 000 kg (220 450 lb) 90 000 kg (198 425 lb) 80 000 kg (176 375 lb)
7
25 300 20
200
NOTES: THE VALUES OBTAINED BY USING THE MAXIMUM LOAD REFERENCE LINE AND ANY VALUES FOR K ARE EXACT. FOR LOADS LESS THAN MAXIMUM, THE CURVES ARE EXACT FOR K = 80 MN/m³ BUT DEVIATE SLIGHTLY FOR ANY OTHER VALUES OF K
15
REFERENCE: "DESIGN OF CONCRETE AIRPORT PAVEMENTS" AND "COMPUTER PROGRAM FOR AIRPORT PAVEMENT DESIGN − PROGRAM PDILB" PORTLAND CEMENT ASSOCIATION
P_AC_070700_1_0010001_01_00
Rigid Pavement Requirements MTOW 268 000 kg FIGURE-7-7-0-991-001-A01
7-7-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-8-0
Rigid Pavement Requirements - LCN Conversion
**ON A/C A350-900 Rigid Pavement Requirements - LCN Conversion 1.
This section gives data about the rigid pavement requirements for the Load Classification Number (LCN) conversion (radius of relative stiffness). - For the radius of relative stiffness, see Section 7--8--1, - For the radius of relative stiffness (other values of E and µ), see Section 7--8--2. Example, see FIGURE 7-8-0-991-001-A, calculation of the aircraft weight with the thickness of the rigid pavement for: - An aircraft with a MTOW of 268000 kg (590839 lb), - The radius of relative stiffness is shown at1143 mm (45 in.) with a related LCN of 119. The weight on one MLG is 110000 kg (242509 lb). The following table provides LCN data in tabular format similar to the one used by ICAO in the ”Aerodrome Design Manual Part 3, Pavements - Edition 1977”. In order to use the system accurately you should know the total pavement radius of relative stiffness (L-value) for rigid pavement. However, the pavement radius of relative stiffness for a particular runway are not frequently published in the standard airport information sources (Jeppesen, AERAD, DOD, etc.). Therefore it is common practice to use a standard radius of relative stiffness (30 inches) when determining the LCN and the ESWL of the aircraft. If the LCN for an intermediate weight between maximum ramp weight and the empty weight of the aircraft is required or if the real thickness is known, refer to charts FIGURE 7-8-0-991-001-A. AIRCRAFT TYPE
A350--900 A350--900
WEIGHT
268900 kg (592824 lb) 142000 kg (313057 lb)
LOAD ON ONE MLG LEG (%)
TIRE PRESSURE (Mpa)
46.8
RIGID PAVEMENT ESWL x 1000 kg x 1000 lb L= 760 mm (30 in.)
LCN
28
62
107
15
33
59
1.66 46.8
7-8-0
Page 1 Jun 01/13
1250 1500
2500
50
60
70
19
24
29
34
39
44
49
54
7-8-0
NOTE: EQUIVALENT SINGLE WHEEL LOADS ARE DERIVED BY METHODS SHOWN IN ICAO AERODROME MANUAL PART 2 PAR 4.1.3 SECOND EDITION 1965
5 80 90 100 120 150 190 LOAD CLASSIFICATION NUMBER (LCN) 40
WEIGHT ON ONE MAIN LANDING GEAR 125 960 kg (277 700 lb) 110 000 kg (242 500 lb) 100 000 kg (220 450 lb) 90 000 kg (198 425 lb) 80 000 kg (176 375 lb)
20
30 40 50 60 70 80 90 100 RADIUS OF RELATIVE STIFFNESS (inches)
2000
14 20
1000
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
750
1400 x 530R23 42PR TIRES TIRE PRESSURE CONSTANT AT 16.6 bar (241 psi)
30
40
50
60
70
80
90
100
110
120
RADIUS OF RELATIVE STIFFNESS (mm)
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_070800_1_0010001_01_00
Rigid Pavement Requirements - LCN MTOW 268 000 kg FIGURE-7-8-0-991-001-A01
Page 2 Jun 01/13
EQUIVALENT SINGLE WHEEL LOAD (1000 kg)
EQUIVALENT SINGLE WHEEL LOAD (1000 lb)
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-8-1
Radius of Relative Stiffness (L)
**ON A/C A350-900 Radius of Relative Stiffness (L) 1.
This section gives the radius of relative stiffness.
7-8-1
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 RADIUS OF RELATIVE STIFFNESS (L) VALUES IN INCHES
L= 4
WHERE
Ed 12 (1 −
= 24.1652 4
)k
d k
E = YOUNG’S MODULUS = 4 x 10 psi k = SUBGRADE MODULUS, lb/in d = RIGID PAVEMENT THICKNESS, (in) = POISSON’S RATIO = 0.15
d
k=75
k=100
k=150
k=200
k=250
k=300
k=350
k=400
k=550
6.0 6.5 7.0 7.5
31.48 33.43 35.34 37.22
29.30 31.11 32.89 34.63
26.47 28.11 29.72 31.29
24.63 26.16 27.65 29.12
23.30 24.74 26.15 27.54
22.26 23.64 24.99 26.32
21.42 22.74 24.04 25.32
20.72 22.00 23.25 24.49
19.13 20.31 21.47 22.61
8.0 8.5 9.0 9.5
39.06 40.88 42.67 44.43
36.35 38.04 39.71 41.35
32.85 34.37 35.88 37.36
30.57 31.99 33.39 34.77
28.91 30.25 31.58 32.89
27.62 28.91 30.17 31.42
26.58 27.81 29.03 30.23
25.70 26.90 28.08 29.24
23.74 24.84 25.93 27.00
10.0 10.5 11.0 11.5
46.18 47.90 49.60 51.28
42.97 44.57 46.16 47.72
38.83 40.28 41.71 43.12
36.14 37.48 38.81 40.13
34.17 35.45 36.71 37.95
32.65 33.87 35.07 36.26
31.42 32.59 33.75 34.89
30.39 31.52 32.64 33.74
28.06 29.11 30.14 31.16
12.0 12.5 13.0 13.5
52.94 54.59 56.22 57.83
49.27 50.80 52.32 53.82
44.52 45.90 47.27 48.63
41.43 42.72 43.99 45.26
39.18 40.40 41.61 42.80
37.44 38.60 39.75 40.89
36.02 37.14 38.25 39.35
34.84 35.92 36.99 38.06
32.17 33.17 34.16 35.14
14.0 14.5 15.0 15.5
59.43 61.02 62.59 64.15
55.31 56.78 58.25 59.70
49.98 51.31 52.63 53.94
46.51 47.75 48.98 50.20
43.98 45.16 46.32 47.47
42.02 43.15 44.26 45.36
40.44 41.51 42.58 43.64
39.11 40.15 41.19 42.21
36.12 37.08 38.03 38.98
16.0 16.5 17.0 17.5
65.69 67.23 68.75 70.26
61.13 62.56 63.98 65.38
55.24 56.53 57.81 59.08
51.41 52.61 53.80 54.98
48.62 49.75 50.88 52.00
46.45 47.54 48.61 49.68
44.70 45.74 46.77 47.80
43.23 44.24 45.24 46.23
39.92 40.85 41.78 42.70
18.0 19.0 20.0 21.0
71.76 74.73 77.66 80.55
66.78 69.54 72.27 74.96
60.34 62.84 65.30 67.74
56.15 58.48 60.77 63.04
53.11 55.31 57.47 59.62
50.74 52.84 54.91 56.96
48.82 50.84 52.84 54.81
47.22 49.17 51.10 53.01
43.61 45.41 47.19 48.95
22.0 23.0 24.0 25.0
83.41 86.24 89.04 91.81
77.63 80.26 82.86 85.44
70.14 72.52 74.87 77.20
65.28 67.49 69.68 71.84
61.73 63.83 65.90 67.95
58.98 60.98 62.96 64.92
56.75 58.68 60.58 62.46
54.89 56.75 58.59 60.41
50.69 52.41 54.11 55.79
REFERENCE: PORTLAND CEMENT ASSOCIATION P_AC_070801_1_0010001_01_00
Radius of Relative Stiffness (L) FIGURE-7-8-1-991-001-A01
7-8-1
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-8-2
Radius of Relative Stiffness (Other values of E and µ)
**ON A/C A350-900 Radius of Relative Stiffness (Other values of E and µ) 1.
The table of Section 7--8--1 radius of relative stiffness, presents L values based on young’s modulus (E) of 4 000 000 psi and poisson’s ratio (µ) of 0.15. To find L values based on other values of E and µ, see FIGURE 7-8-2-991-001-B. For example, to find an L value based on an E of 3 000 000 psi, the ”E” factor of 0.931 is multiplied by the L value found in the table of Section 7-8-1 radius of relative stiffness. The effect of variations of µ on the L value is treated in a similar manner.
7-8-2
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
EFFECT OF E ON L VALUES 1.10 1.05
E FACTOR
1.00 0.95 0.90 0.85 0.80
0
1
2
3
4
5
E, YOUNG’S MODULUS (10 psi)
EFFECT OF
ON L VALUES
1.015
FACTOR
1.010
1.005
1.000
0.995 0.00
0.05
0.10
0.15
0.20
0.25
, POISSON’S RATIO
NOTE: BOTH CURVES ON THIS PAGE ARE USED TO ADJUST THE L VALUES OF TABLE 7−8−1
P_AC_070802_1_0010002_01_00
Radius of Relative Stiffness (Effect E and µ ON ”L” values) FIGURE-7-8-2-991-001-B01
7-8-2
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-9-0
Aircraft Classification Number - Flexible Pavement
**ON A/C A350-900 Aircraft Classification Number - Flexible Pavement 1.
This section gives data about the Aircraft Classification Number (ACN) for flexible pavement for an aircraft gross weight in relation with a subgrade strength value. To find the ACN of an aircraft on flexible pavement, you must know the aircraft gross weight and the subgrade strength. NOTE : An aircraft with an ACN equal to or less than the reported PCN can operate on that pavement, subject to any limitation on the tire pressure (Ref: ICAO Aerodrome Design Manual Part 3 Chapter 1 Second Edition 1983). Example, see FIGURE 7-9-0-991-001-A, calculation of the ACN for flexible pavement for: - An aircraft with a MTOW of 268000 kg (590839 lb), - An aircraft gross weight of 210000 kg (462971 lb), - A medium subgrade strength (code B). The ACN for flexible pavement is 51.
2.
Aircraft Classification Number - ACN Table The following table provides ACN data in tabular format similar to the one used by ICAO in the ”Aerodrome Design Manual Part 3, Pavements - Edition 1983”. If the ACN for an intermediate weight between maximum ramp weight and the empty weight of the aircraft is required, refer to chart FIGURE 7-9-0-991-001-A. ACN FOR FLEXIBLE PAVEMENT SUBGRADES TIRE LOAD ON CBR AIRCRAFT WEIGHT ONE MLG PRESSURE High Medium Low Ultral-low TYPE (Mpa) LEG (%) 15 10 6 3 268900 kg (592824 A350--900 46.8 66 70 80 110 lb) 1.66 142000 kg (313057 A350--900 46.8 31 32 34 41 lb)
7-9-0
Page 1 Jun 01/13
7-9-0 20 120
30
40
50
60
70
80
90
100
110
120
280
340
370
140
160
SUBGRADE STRENGTH D − CBR 3 (ULTRA LOW) C − CBR 6 (LOW) B − CBR 10 (MEDIUM) A − CBR 15 (HIGH)
ALPHA FACTOR = 0.8
310
200 ( x1000 kg)
430
460
AIRCRAFT GROSS WEIGHT
180
400
( x1000 lb)
1400x530R23 42PR TIRES TIRE PRESSURE CONSTANT AT 16.6 bar (241 psi)
220
490
240
520
550
260
580
ACN WAS DETERMINED AS REFERENCED IN ICAO AERODROME DESIGN MANUAL PART 3 CHAPTER 1. SECOND EDITION 1983. CG USED FOR ACN CALCULATIONS: 33% MAC SEE SECTION 7−4−0
280
610
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_070900_1_0010001_01_00
Aircraft Classification Number - Flexible Pavement MTOW 268 000 kg FIGURE-7-9-0-991-001-A01
Page 2 Jun 01/13
AIRCRAFT CLASSIFICATION NUMBER (ACN)
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
7-9-1
Aircraft Classification Number - Rigid Pavement
**ON A/C A350-900 Aircraft Classification Number - Rigid Pavement 1.
This section gives data about the Aircraft Classification Number (ACN) for rigid pavement for an aircraft gross weight in relation with a subgrade strength value. To find the ACN of an aircraft on rigid pavement, you must know the aircraft gross weight and the subgrade strength. NOTE :
An aircraft with an ACN equal to or less than the reported PCN can operate on that pavement, subject to any limitation on the tire pressure. (Ref: ICAO Aerodrome Design Manual Part 3 Chapter 1 Second Edition 1983). Example, see FIGURE 7-9-1-991-001-A, calculation of the ACN for rigid pavement for: - An aircraft with a MTOW of 268000 kg (590839 lb), - An aircraft gross weight of 210000 kg (462971 lb), - A medium subgrade strength (code B). The ACN for rigid pavement is 52. 2.
Aircraft Classification Number - ACN Table The following table provides ACN data in tabular format similar to the one used by ICAO in the ”Aerodrome Design Manual Part 3, Pavements - Edition 1983”. If the ACN for an intermediate weight between maximum ramp weight and the empty weight of the aircraft is required, refer to chart FIGURE 7-9-1-991-001-A. ACN FOR RIGID PAVEMENT SUBGRADES TIRE LOAD ON MN/m3 AIRCRAFT WEIGHT ONE MLG PRESSURE TYPE High Medium Low Ultral-low (Mpa) LEG (%) 150 80 40 20 268900 kg (592824 A350--900 46.8 64 83 96 71 lb) 1.66 142000 kg (313057 A350--900 46.8 32 33 36 41 lb)
7-9-1
Page 1 Jun 01/13
7-9-1 20 120
30
40
50
60
70
80
90
100
110
120
280
340
370
140
160
A − K = 150 MN/m³ (HIGH)
B − K = 80 MN/m³ (MEDIUM)
C − K = 40 MN/m³ (LOW)
D − K = 20 MN/m³(ULTRA LOW)
SUBGRADE STRENGTH
310
200 ( x1000 kg)
430
460
AIRCRAFT GROSS WEIGHT
180
400
( x1000 lb)
1400x530R23 42PR TIRES TIRE PRESSURE CONSTANT AT 16.6 bar (241 psi)
220
490
240
520
550
260
580
ACN WAS DETERMINED AS REFERENCED IN ICAO AERODROME DESIGN MANUAL PART 3 CHAPTER 1. SECOND EDITION 1983. CG USED FOR ACN CALCULATIONS: 33% MAC SEE SECTION 7−4−0
280
610
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_070901_1_0010001_01_00
Aircraft Classification Number - Rigid Pavement MTOW 268 000 kg FIGURE-7-9-1-991-001-A01
Page 2 Jun 01/13
AIRCRAFT CLASSIFICATION NUMBER (ACN)
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
SCALED DRAWINGS 8-0-0
Scaled Drawings
**ON A/C A350-900 Scaled Drawings 1.
This section provides the scaled drawings. NOTE : When printing this drawing, make sure to adjust for proper scaling.
8-0-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900 0
0
10
4
20 FEET 30 40
8 12 METERS
50
16
60 20 0 0
10 4
20
FEET 30 40 8 12 METERS
50 16
60 20
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING P_AC_080000_1_0010001_01_00
Scaled Drawings FIGURE-8-0-0-991-001-A01
8-0-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
AIRCRAFT RESCUE AND FIRE FIGHTING 10-0-0
Aircraft Rescue and Fire Fighting
**ON A/C A350-900 Aircraft Rescue and Fire Fighting 1.
This sections gives data related to aircraft rescue and fire fighting. The figures contained in this section are the figures that are in the Aircraft Rescue and Fire Fighting Charts poster available for download on AIRBUSWorld and the Airbus website.
10-0-0
Page 1 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
JUNE 2013 : REFERENCE
THIS CHART GIVES THE GENERAL LAYOUT OF THE A350−900 STANDARD VERSION.
**ON A/C A350-900
P_AC_100000_1_0010001_01_01
Front Page FIGURE-10-0-0-991-001-A01
10-0-0
Page 2 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0030001_01_01
Highly Flammable and Hazardous Materials and Components FIGURE-10-0-0-991-003-A01
10-0-0
Page 3 Jun 01/13
10-0-0
EMERGENCY EXIT
ACCESS DOOR
NOTE: THE CREW REST COMPARTMENT INSTALLATION IS OPTIONAL AND RELATED TO AIRCRAFT CONFIGURATION.
ACCESS DOOR
EMERGENCY EXIT
FLIGHT CREW REST COMPARTMENT
CABIN CREW REST COMPARTMENT
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0040001_01_01
Crew Rest Compartments Location FIGURE-10-0-0-991-004-A01
Page 4 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0050001_01_00
Wheel/Brake Overheat Wheel Safety Area (Sheet 1 of 2) FIGURE-10-0-0-991-005-A01
10-0-0
Page 5 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0050001_02_00
Wheel/Brake Overheat Recommendations (Sheet 2 of 2) FIGURE-10-0-0-991-005-A01
10-0-0
Page 6 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
TITANIUM
QUARTZ, GLASS
CFRP SANDWICH
CFRP MONOLITHIC
COMPOSITE MATERIALS
ALU ALLOY
**ON A/C A350-900
P_AC_100000_1_0060001_01_00
Composite Materials Location FIGURE-10-0-0-991-006-A01
10-0-0
Page 7 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
NOSE LANDING GEAR
MAIN LANDING GEAR
TYPICAL INSTALLATION
**ON A/C A350-900
P_AC_100000_1_0070001_01_00
Ground Lock Safety Devices FIGURE-10-0-0-991-007-A01
10-0-0
Page 8 Jun 01/13
10-0-0
CABIN DUAL−LANE SLIDE/RAFT 9.38 m (30.77 ft)
CABIN SINGLE−LANE SLIDE/RAFT 10.25 m (33.63 ft)
EMERGENCY DESCENT THROUGH THE ESCAPE HATCH WITH THE ESCAPE ROPE NOTE: DIMENSIONS ARE APPROXIMATE
0
3
6
9
12
15
CABIN DUAL−LANE SLIDE/RAFT 9.43 m (30.94 ft)
CABIN DUAL−LANE SLIDE/RAFT 9.35 m (30.68 ft)
COCKPIT ESCAPE ROPE
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0080001_01_01
Emergency Evacuation Devices FIGURE-10-0-0-991-008-A01
Page 9 Jun 01/13
10-0-0
MECHANICAL DOOR−LOCKING INDICATORS
TO OPEN: 1 − MAKE SURE THAT RESIDUAL CABIN−PRESSURE WARNING LIGHTS DOES NOT FLASH. 2 − PUSH FLAP TO GRASP HANDLE. 3 − LIFT HANDLE FULLY UP TO HORIZONTAL POSITION (GREEN LINE). 4 − PULL THE DOOR OUT AND MOVE IT FORWARD.
OUTER HANDLE
SLIDE ARMED WARNING−LIGHT AND BUZZER (SLIDE WILL BE DISARMED AUTOMATICALLY IF DOOR IS OPEN FROM OUTSIDE)
RESIDUAL CABIN−PRESSURE WARNING−LIGHT
PASSENGER/CREW DOORS AND EMERGENCY EXITS EXTERIOR CONTROL HANDLES
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0090001_01_00
Pax/Crew Doors and Emergency Exits FIGURE-10-0-0-991-009-A01
Page 10 Jun 01/13
10-0-0
TO OPEN: 1 − PUSH ON THE HANDLE. THE HANDLE IS EJECTED FROM ITS HOUSING. 2 − TURN THE HANDLE COUNTERCLOCKWISE TO DESENGAGE THE LATCHES. 3 − PUSH ON THE ESCAPE HATCH. IT OPENS INSIDE THE COCKPIT.
NOTE: THE ESCAPE HATCH IS THE COCKPIT EMERGENCY EXIT. MAKE SURE THAT NO PERSON IN THE COCKPIT IS BELOW THE ESCAPE HATCH.
ESCAPE ROPE
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0100001_01_00
Cockpit Emergency Exit FIGURE-10-0-0-991-010-A01
Page 11 Jun 01/13
TOGGLE SWITCH
MANUAL OPERATING DEVICE
10-0-0
HANDLE
HYDRAULIC AUXILIARY− PUMP
194KB
4 − CONNECT A POWER HAND TOOL OR THE HANDLE TO OPERATE THE HYDRAULIC AUXILIARY−PUMP UNTIL THE GREEN INDICATOR LIGHT COMES ON (CARGO DOOR FULLY OPEN AND LOCKED). 5 − RELEASE THE MANUAL OPERATING DEVICE.
4 − RELEASE THE TOGGLE SWITCH.
2 − TURN THE MANUAL OPERATING DEVICE CLOCKWISE TO THE "OPEN" POSITION AND HOLD IT. 3 − ON THE YELLOW GROUND−SERVICE PANEL; PUT THE HYDRAULIC AUXILIARY−PUMP GEARBOX IN THE POSITION ON THE HYDRAULIC AUXILIARY−PUMP AND TIGHTEN THE BOLTS.
1− DO THE OPERATIONS 1 AND 2 AS FOR "NORMAL OPERATION".
NOTE: TWO OPERATORS ARE REQUIRED FOR THIS OPERATION. A POWER HAND TOOL (MINIMUM 600 RPM, ELECTRIC OR PNEUMATIC) OR THE HANDLE (ON THE YELLOW GROUND−SERVICE PANEL) IS REQUIRED FOR THIS OPERATION.
MANUAL OPERATION
GREEN INDICATOR LIGHT
3 − PUSH THE TOGGLE SWITCH ON THE DOOR OPERATION PANEL TO THE "OPEN" POSITION AND HOLD IT UNTIL THE GREEN INDICATOR LIGHT COMES ON (CARGO DOOR FULLY OPEN AND LOCKED).
2 − QUICKLY AND FULLY PULL THE LATCHING HANDLE DOWN WITH A CONTINUOUS MOVEMENT (OUT AND DOWN).
1− PUSH THE LOCKING HANDLE FLAP IN AND PULL THE LOCKING HANDLE TO THE "UNLOCKED" POSITION (OUTWARD AND UPWARD). MAKE SURE THAT YOU SEE ALL THE INDICATOR FLAGS (EIGHT FLAGS).
NORMAL OPERATION
WARNING: MAKE SURE THAT THE RESIDUAL PRESSURE WARNING−LIGHT DOES NOT FLASH.
WARNING: ENSURE THAT ALL PERSONNEL AND EQUIPMENT ARE CLEAR OF CARGO DOOR AREA.
LATCHING HANDLE
LOCKING HANDLE
FWD AND AFT CARGO COMPARTMENT DOOR CONTROLS
PRESSURE WARNING LIGHT
YELLOW GROUND−SERVICE PANEL
HYDRAULIC AUXILIARY− PUMP GEARBOX
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0110001_01_00
FWD and AFT Lower Deck Cargo Doors FIGURE-10-0-0-991-011-A01
Page 12 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
INSTALLED ON NLG
**ON A/C A350-900
P_AC_100000_1_0120001_01_00
Control Panels FIGURE-10-0-0-991-012-A01
10-0-0
Page 13 Jun 01/13
10-0-0 HOOK LATCHES
316AR
316AL
PIN LATCHES
1 − OPEN THE OVERPRESSURE DOOR 316BR TO RELEASE UNWANTED AIR PRESSURE. 2 − TURN THE MECHANISM LEVER AND BLOCK IT. 3 − RELEASE THE HOOK LATCHES ON RIGHT ACCESS DOOR 316AR. 4 − OPERATE PIN LATCHES (FORWARD AND AFT). 5 − OPEN RIGHT ACCESS DOOR 316AR AND LOCK MANUALLY THE FIXED ROD WHEN DOOR IS FULLY OPEN. 6 − OPERATE PIN LATCHES (FORWARD AND AFT) ON LEFT ACCESS DOOR 315AL. 7 − OPEN LEFT ACCESS DOOR 315AL AND LOCK MANUALLY THE FIXED ROD WHEN DOOR IS FULLY OPEN.
OPERATION:
316BR
PIN LATCHES
APU ACCESS DOORS
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0150001_01_00
APU Compartment Access FIGURE-10-0-0-991-015-A01
Page 14 Jun 01/13
10-0-0
FT3
WL1 FT1
D3 BF3
RAT
BF2
BF1
N1
D2
HT
F3 C1
D1 D5 F1
AP BF1 BF2 BF3 C1 C2 C3 CP1 D1 D2 D3 D4 D5
m 6.52 2.66 2.08 2.59 3.37 3.29 3.26 6.20 5.37 5.33 5.27 5.21 7.61
ft 21.39 8.73 6.82 8.50 11.06 10.79 10.70 20.34 17.62 17.49 17.29 17.09 24.97
A/C (142 000 kg) CONFIGURATION AFT CG (40%)
F1 F2 F3 F4 FT1 FT2 FT3 HT N1 RAT RD1 VT WL1 WL2
m 2.70 2.58 8.78 8.45 3.84 4.64 5.27 7.56 0.93 1.25 4.34 17.07 9.44 7.04
ft 8.86 8.46 28.81 27.72 12.60 15.22 17.29 24.80 3.05 4.10 14.24 56.00 30.97 23.10
A/C (142 000 kg) CONFIGURATION AFT CG (40%)
DIMENSIONS ARE RELATED TO AIRCRAFT WEIGHT AND CG CONFIGURATION
FT2
D4 C3 C2 F2 F4
AP
NOTE: PASSENGER AND CARGO DOOR GROUND CLEARANCES ARE MEASURED FROM THE CENTER OF THE DOOR SILL AND FROM FLOOR LEVEL.
VT
WL2
RD1 CP1
@A350-900
AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
**ON A/C A350-900
P_AC_100000_1_0160001_01_01
Aircraft Ground Clearances FIGURE-10-0-0-991-016-A01
Page 15 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
=
=
=
=
CUT HERE IN EMERGENCY
NOT MARKED ON ALL AIRCRAFT
COLORED
**ON A/C A350-900
P_AC_100000_1_0170001_01_01
Structural Break-in Points FIGURE-10-0-0-991-017-A01
10-0-0
Page 16 Jun 01/13
@A350-900 AIRCRAFT CHARACTERISTICS - AIRPORT AND MAINTENANCE PLANNING
BAT 1
BAT EMER 1
BAT 2
BAT EMER 2
ACCESS VIA FWD CARGO COMPARTMENT DOOR
811
ACCESS VIA ACCESS DOOR 811
**ON A/C A350-900
P_AC_100000_1_0180001_01_00
Batteries Location and Access FIGURE-10-0-0-991-018-A01
10-0-0
Page 17 Jun 01/13
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