A340-200/-300 AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING...
Transcript of A340-200/-300 AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING...
@AIRBUSA340-200/-300
AIRPLANE CHARACTERISTICSFOR AIRPORT PLANNING
AC
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© AIRBUS S.A.S. 2005. All rights reserved.
AIRBUS S.A.S.Customer Services
Technical Data Support and Services31707 Blagnac Cedex
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Issue: Jul 30/92 Rev: Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
HIGHLIGHTS
Revision No. 19 - Jan 01/12
LOCATIONS CHGCODE
DESCRIPTIONS OF CHANGE
CHAPTER 2
Section 2-1
Subject 2-1-0
General Airplane Characteristics R
Subject 2-1-1
General Airplane Characteristics Data R OEW AND PAYLOAD DELETED. WV030DELETEDUSABLE VOLUME BASED ON LD3UPDATEDOEW AND PAYLOAD DELETEDUSABLE VOLUME BASED ON LD3UPDATED
Section 2-3
Subject 2-3-0
Ground Clearances R NOTE AMENDED
FIGURE Ground Clearances R ILLUSTRATION REVISED
FIGURE Ground Clearances R ILLUSTRATION REVISED
FIGURE Ground Clearances R ILLUSTRATION REVISED
FIGURE Ground Clearances R ILLUSTRATION REVISED
Section 2-6
Subject 2-6-1
Lower Deck Cargo Compartments R CONTAINERIZED VOLUME UPDATEDCONTAINERIZED VOLUME UPDATED
CHAPTER 5
Section 5-2 R
Subject 5-2-0 R
Subject 5-2-1 R
Section 5-3 R
Subject 5-3-0 R
Subject 5-3-1 R
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LOCATIONS CHGCODE
DESCRIPTIONS OF CHANGE
Section 5-4
Subject 5-4-6
Fuel System R
FIGURE Overpressure Protector andNACA Flame Arrestor
N NEW ILLUSTRATION ADDEDILLUSTRATION ADDED
Section 5-5
Subject 5-5-0
Engine Starting Pneumatic Requirements N
FIGURE Engine Starting PneumaticRequirements
N ILLUSTRATION ADDED
Subject 5-5-1 R
Low Ambient Temperatures R DESCRIPTION TITLE UPDATED
FIGURE Engine Starting PneumaticRequirements - Low AmbientTemperature -40˚C (-40˚F) --CFM56-5C2 series engine
R
Subject 5-5-2 R
Medium Ambient Temperatures R DESCRIPTION TITLE UPDATED
FIGURE Engine Starting PneumaticRequirements - Medium AmbientTemperature +15˚C (+59˚F) --CFM56-5C2 series engine
R
Subject 5-5-3 R
High Ambient Temperatures R DESCRIPTION TITLE UPDATED
FIGURE Engine Starting PneumaticRequirements - High AmbientTemperature +55˚C (+131˚F) --CFM56-5C2 series engine
R
CHAPTER 7
Section 7-4
Subject 7-4-2 R
Subject 7-4-3 R
HIGHLIGHTSPage 2
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
LIST OF EFFECTIVE CONTENT
Revision No. 19 - Jan 01/12
CONTENT CHGCODE
LAST REVISIONDATE
CHAPTER 1
Subject 1-1-0
Purpose May 01/07
Subject 1-2-0
Introduction May 01/07
CHAPTER 2
Subject 2-1-0
General Airplane Characteristics R Jan 01/12
Subject 2-1-1
General Airplane Characteristics Data R Jan 01/12
Subject 2-2-0
General Airplane Dimensions May 01/07
FIGURE General Airplane Dimensions May 01/07
FIGURE General Airplane Dimensions May 01/07
Subject 2-3-0
Ground Clearances R Jan 01/12
FIGURE Ground Clearances R Jan 01/12
FIGURE Ground Clearances R Jan 01/12
FIGURE Ground Clearances R Jan 01/12
FIGURE Ground Clearances R Jan 01/12
Subject 2-4-0
Interior Arrangements May 01/07
Subject 2-4-1
Typical Configuration May 01/07
FIGURE Typical Configuration May 01/07
FIGURE Typical Configuration May 01/07
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FIGURE Typical Configuration May 01/07
Subject 2-5-0
Passenger Compartment Cross-section May 01/07
FIGURE Passenger Compartment Cross-section May 01/07
Subject 2-6-0
Cargo Compartment May 01/07
Subject 2-6-1
Lower Deck Cargo Compartments R Jan 01/12
FIGURE Lower Deck Cargo Compartments May 01/07
FIGURE Loading Combinations May 01/07
Subject 2-7-0
Doors Clearances May 01/07
Subject 2-7-1
Forward Passenger / Crew Door May 01/07
FIGURE Forward Passenger / Crew Doors May 01/07
Subject 2-7-2
Mid Passenger / Crew Door May 01/07
FIGURE Mid Passenger / Crew Door May 01/07
Subject 2-7-3
Emergency Exits May 01/07
FIGURE Emergency Exits May 01/07
Subject 2-7-4
Aft Passenger / Crew Doors May 01/07
FIGURE Aft Passenger / Crew Doors May 01/07
Subject 2-7-5
Forward Cargo Compartment Doors May 01/07
FIGURE Forward Cargo Compartment Doors May 01/07
Subject 2-7-6
Aft Cargo Compartment Doors May 01/07
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FIGURE Aft Cargo Compartment Doors May 01/07
Subject 2-7-7
Bulk Cargo Compartment Doors May 01/07
FIGURE Bulk Cargo Compartment Doors May 01/07
Subject 2-7-8
Main Landing Gear Doors May 01/07
FIGURE Main and Center Landing Gear Doors May 01/07
Subject 2-7-9
Radome May 01/07
FIGURE Radome May 01/07
Subject 2-7-10
APU and Nose Landing Gear Doors May 01/07
FIGURE APU and Nose Landing Gear Doors May 01/07
FIGURE APU and Nose Landing Gear Doors May 01/07
CHAPTER 3
Subject 3-1-0
General Information May 01/07
Subject 3-2-0
Payload / Range May 01/07
Subject 3-2-1
ISA Conditions May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C2 engine May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C2 engine May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C3 engine May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C3 engine May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C4 engine May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C4 engine May 01/07
FIGURE PAYLOAD / RANGE - CFM56-5C4 engine May 01/07
Subject 3-3-0
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FAR / JAR Takeoff Weight Limitation May 01/07
Subject 3-3-1
FAR / JAR Takeoff Weight Limitation May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA Conditions --CFM56-5C2 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA Conditions --CFM56-5C2 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA Conditions --CFM56-5C3 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA Conditions --CFM56-5C3 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA Conditions --CFM56-5C4 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA Conditions --CFM56-5C4 engine
May 01/07
Subject 3-3-2
ISA +15˚C (ISA +27˚F) Conditions May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA +15˚C (ISA+27˚F) Conditions -- CFM56-5C2 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA +15˚C (ISA+27˚F) Conditions -- CFM56-5C2 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA +15˚C (ISA+27˚F) Conditions -- CFM56-5C3 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA +15˚C (ISA+27˚F) Conditions -- CFM56-5C3 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA +15˚C (ISA+27˚F) Conditions -- CFM56-5C4 engine
May 01/07
FIGURE FAR / JAR Takeoff Weight Limitation - ISA +15˚C (ISA+27˚F) Conditions -- CFM56-5C4 engine
May 01/07
Subject 3-4-0
Landing Field Length May 01/07
Subject 3-4-1
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ISA Conditions All series engine May 01/07
FIGURE FAR / JAR Landing Field Length - ISA Conditions --CFM56-5C2 engine
May 01/07
FIGURE FAR / JAR Landing Field Length - ISA Conditions --CFM56-5C2 engine
May 01/07
FIGURE FAR / JAR Landing Field Length - ISA Conditions --CFM56-5C3 engine
May 01/07
FIGURE FAR / JAR Landing Field Length - ISA Conditions --CFM56-5C3 engine
May 01/07
FIGURE FAR / JAR Landing Field Length - ISA Conditions --CFM56-5C4 engine
May 01/07
FIGURE FAR / JAR Landing Field Length - ISA Conditions --CFM56-5C4 engine
May 01/07
Subject 3-5-0
Final Approach Speed May 01/07
Subject 3-5-1
Final Approach Speed May 01/07
FIGURE Final Approach Speed - CFM56-5C2 engine May 01/07
FIGURE Final Approach Speed - CFM56-5C2 engine May 01/07
FIGURE Final Approach Speed - CFM56-5C3 engine May 01/07
FIGURE Final Approach Speed - CFM56-5C3 engine May 01/07
FIGURE Final Approach Speed - CFM56-5C4 engine May 01/07
FIGURE Final Approach Speed - CFM56-5C4 engine May 01/07
CHAPTER 4
Subject 4-1-0
General Information May 01/07
Subject 4-2-0
Turning Radii Jan 01/11
FIGURE Turning Radii - All Models Jan 01/11
FIGURE Turning Radii - Steady State Turning Radii Jan 01/11
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FIGURE Turning Radii - Steady State Turning Radii Jan 01/11
Subject 4-3-0
Minimum Turning Radii May 01/07
FIGURE Minimum Turning Radii Jan 01/11
FIGURE Minimum Turning Radii Jan 01/11
Subject 4-4-0
Visibility from Cockpit in Static Position May 01/07
FIGURE Visibility from Cockpit in Static Position May 01/07
Subject 4-5-0
Runway and Taxiway Turn Paths May 01/07
Subject 4-5-1
135˚ Turn - Runway to Taxiway Jan 01/11
FIGURE 135˚ Turn - Runway to Taxiway - Judgemental OversteeringMethod
Jan 01/11
FIGURE 135˚ Turn - Runway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
FIGURE 135˚ Turn - Runway to Taxiway - Judgemental OversteeringMethod
Jan 01/11
FIGURE 135˚ Turn - Runway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
Subject 4-5-2
90˚ Turn - Runway to Taxiway Jan 01/11
FIGURE 90˚ Turn - Runway to Taxiway - Judgement OversteeringMethod
Jan 01/11
FIGURE 90˚ Turn - Runway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
FIGURE 90˚ Turn - Runway to Taxiway - Judgement OversteeringMethod
Jan 01/11
FIGURE 90˚ Turn - Runway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
Subject 4-5-3
180˚ Turn on a Runway May 01/07
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FIGURE 180˚ Turn on a Runway - 180˚ Turn on a 202 ft WideRunway
Jan 01/11
FIGURE 180˚ Turn on a Runway - 180˚ Turn on a 203 ft WideRunway
Jan 01/11
FIGURE 180˚ Turn on a Runway - 180˚ Turn on a 194 ft WideRunway
Jan 01/11
FIGURE 180˚ Turn on a Runway - 180˚ Turn on a 194 ft WideRunway
Jan 01/11
Subject 4-5-4
135˚ Turn - Taxiway to Taxiway Jan 01/11
FIGURE 135˚ Turn - Taxiway to Taxiway - JudgementalOversteering Method
Jan 01/11
FIGURE 135˚ Turn - Taxiway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
FIGURE 135˚ Turn - Taxiway to Taxiway - JudgementalOversteering Method
Jan 01/11
FIGURE 135˚ Turn - Taxiway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
Subject 4-5-5
90˚ Turn - Taxiway to Taxiway Jan 01/11
FIGURE 90˚ Turn - Taxiway to Taxiway - Judgement OversteeringMethod
Jan 01/11
FIGURE 90˚ Turn - Taxiway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
FIGURE 90˚ Turn - Taxiway to Taxiway - Judgement OversteeringMethod
Jan 01/11
FIGURE 90˚ Turn - Taxiway to Taxiway - Cockpit Over CenterlineMethod
Jan 01/11
Subject 4-6-0
Runway Holding Bay (Apron) May 01/07
FIGURE Runway Holding Bay (Apron) Jan 01/11
Subject 4-7-0
Airplane Parking May 01/07
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FIGURE Airplane Parking - Steering Geometry May 01/07
FIGURE Airplane Parking - Steering Geometry May 01/07
FIGURE Airplane Parking - Minimum Parking Space Requirements May 01/07
FIGURE Airplane Parking - Steering Geometry May 01/07
FIGURE Airplane Parking - Steering Geometry May 01/07
FIGURE Airplane Parking - Minimum Parking Space Requirements May 01/07
CHAPTER 5
Subject 5-0-0
TERMINAL SERVICING Jan 01/10
Subject 5-1-0
Airplane Servicing Arrangements Jan 01/10
Subject 5-1-1
Symbols Used on Servicing Diagrams Jan 01/10
Subject 5-1-2
Loading (Open Apron) Jan 01/10
FIGURE Airplane Servicing Arrangements - Typical Ramp Layout(Open Apron)
Jan 01/10
FIGURE Airplane Servicing Arrangements - Typical Ramp Layout(Open Apron)
Jan 01/10
Subject 5-1-3
Loading (Passenger Bridge) Jan 01/10
FIGURE Airplane Servicing Arrangements - Typical Ramp Layout(gate area)
Jan 01/10
FIGURE Airplane Servicing Arrangements - Typical Ramp Layout(gate area)
Jan 01/10
Subject 5-2-0
Terminal Operations - Full Servicing Turn Round Charts Jan 01/10
Subject 5-2-1
Full Servicing Turn Round Charts Jan 01/10
FIGURE Turn around charts - Turn Round Time 59 min. Jan 01/10
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FIGURE Turn around charts - Turn Round Time 70 min. Jan 01/10
Subject 5-3-0
Terminal Operations - Transit Turn Round Charts Jan 01/10
Subject 5-3-1
Transit Turn Round Charts Jan 01/10
FIGURE Transit Turn Round Charts - Turn Round Time 39 min. Jan 01/10
FIGURE Transit Turn Round Charts - Turn Round Time 43 min. Jan 01/10
Subject 5-4-0
Ground Service Connections May 01/07
Subject 5-4-1
Ground Service Connections Layout May 01/07
FIGURE Ground Service Connections - Ground Service ConnectionsLayout
May 01/07
Subject 5-4-2
Grounding Points May 01/07
FIGURE Ground Service Connections - Grounding Points May 01/07
FIGURE Ground Service Connections - Grounding Points May 01/07
Subject 5-4-3
Hydraulic System May 01/07
Subject 5-4-4
Electrical System May 01/07
Subject 5-4-5
Oxygen System May 01/07
Subject 5-4-6
Fuel System R Jan 01/12
FIGURE Overpressure Protector and NACA Flame Arrestor N Jan 01/12
Subject 5-4-7
Pneumatic System May 01/07
Subject 5-4-8
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Potable Water System May 01/07
Subject 5-4-9
Oil System May 01/07
FIGURE Ground Service Connections - Engine Oil Tank - CFM56-5C2series engine
May 01/07
FIGURE Ground Service Connections - IDG Oil Tank - CFM56-5C2series engine
May 01/07
APU Oil System Jan 01/10
FIGURE Ground Service Connections - APU Oil Tank Jan 01/10
Subject 5-4-10
Vacuum Toilet System May 01/07
Subject 5-5-0
Engine Starting Pneumatic Requirements N Jan 01/12
FIGURE Engine Starting Pneumatic Requirements N Jan 01/12
Subject 5-5-1
Low Ambient Temperatures R Jan 01/12
FIGURE Engine Starting Pneumatic Requirements - Low AmbientTemperature -40˚C (-40˚F) -- CFM56-5C2 series engine
R Jan 01/12
Subject 5-5-2
Medium Ambient Temperatures R Jan 01/12
FIGURE Engine Starting Pneumatic Requirements - Medium AmbientTemperature +15˚C (+59˚F) -- CFM56-5C2 series engine
R Jan 01/12
Subject 5-5-3
High Ambient Temperatures R Jan 01/12
FIGURE Engine Starting Pneumatic Requirements - High AmbientTemperature +55˚C (+131˚F) -- CFM56-5C2 series engine
R Jan 01/12
Subject 5-6-0
Ground Pneumatic Power Requirements May 01/07
Subject 5-6-1
Heating May 01/07
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FIGURE Ground Pneumatic Power Requirements - Heating May 01/07
Subject 5-6-2
Cooling May 01/07
FIGURE Ground Pneumatic Power Requirements - Cooling May 01/07
Subject 5-7-0
Preconditioned Airflow Requirements May 01/07
FIGURE Preconditioned Airflow Requirements May 01/07
Subject 5-8-0
Ground Towing Requirements Jan 01/10
FIGURE Ground Towing Requirements Jan 01/10
FIGURE Ground Towing Requirements - Typical tow barconfiguration 1
Jan 01/10
FIGURE Ground Towing Requirements - Typical tow barconfiguration 2
Jan 01/10
FIGURE Ground Towing Requirements - Maximum Extension of theNLG Shock Absorber
Jan 01/10
CHAPTER 6
Subject 6-1-0
Engine Exhaust Velocities and Temperatures May 01/07
Subject 6-1-1
Engine Exhaust Velocities Contours - Ground Idle Power May 01/07
FIGURE Engine Exhaust Velocities - Ground Idle Power - CFM56-5Cseries engine
May 01/07
Subject 6-1-2
Engine Exhaust Temperatures Contours - Ground Idle Power May 01/07
FIGURE Engine Exhaust Temperatures - Ground Idle Power -CFM56-5C series engine
May 01/07
Subject 6-1-3
Engine Exhaust Velocities Contours - Breakaway Power May 01/07
FIGURE Engine Exhaust Velocities - Breakaway Power - CFM56-5Cseries engine
May 01/07
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Subject 6-1-4
Engine Exhaust Temperatures Contours - Breakaway Power May 01/07
FIGURE Engine Exhaust Temperatures - Breakaway Power -CFM56-5C series engine
May 01/07
Subject 6-1-5
Engine Exhaust Velocities Contours - Takeoff Power May 01/07
FIGURE Engine Exhaust Velocities - Takeoff Power - CFM56-5Cseries engine
May 01/07
Subject 6-1-6
Engine Exhaust Temperatures Contours - Takeoff Power May 01/07
FIGURE Engine Exhaust Temperatures - Takeoff Power - CFM56-5Cseries engine
May 01/07
Subject 6-2-0
Airport and Community Noise Data May 01/07
Subject 6-2-1
Noise Data May 01/07
FIGURE Airport and Community Noise - CFM56-5C series engine May 01/07
Subject 6-3-0
Danger Areas of Engines May 01/07
Subject 6-3-1
Ground Idle Power May 01/07
FIGURE Danger Areas of Engines - CFM56-5C series engine May 01/07
Subject 6-3-2
Breakaway Power May 01/07
FIGURE Danger Areas of Engines - CFM56-5C series engine May 01/07
Subject 6-3-3
Takeoff Power May 01/07
FIGURE Danger Areas of Engines - CFM56-5C series engine May 01/07
Subject 6-4-0
APU Exhaust Velocities and Temperatures May 01/07
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Subject 6-4-1
APU - GARRETT May 01/07
FIGURE Exhaust Velocities and Temperatures - GARRETT GTCP331-350
May 01/07
CHAPTER 7
Subject 7-1-0
General Information Jan 01/11
Subject 7-2-0
Landing Gear Footprint Jan 01/11
FIGURE Landing Gear Footprint - MTOW 253 500 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 257 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 260 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 262 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 271 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 275 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 276 500 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 253 500 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 257 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 260 000 kg Jan 01/11
FIGURE Landing Gear Footprint - MTOW 275 000 kg Jan 01/11
Subject 7-3-0
Maximum Pavement Loads May 01/07
FIGURE Maximum Pavement Loads Jan 01/11
FIGURE Maximum Pavement Loads May 01/07
FIGURE Maximum Pavement Loads May 01/07
FIGURE Maximum Pavement Loads May 01/07
Subject 7-4-0
Landing Gear Loading on Pavement Jan 01/11
Subject 7-4-1
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Landing Gear Loading on Pavement May 01/07
FIGURE Landing Gear Loading on Pavement - MTOW 253 500 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 257 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 260 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 260 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 260 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 271 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 275 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 276 500 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 276 500 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 253 500 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 257 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 260 000 kg Jan 01/11
FIGURE Landing Gear Loading on Pavement - MTOW 275 000 kg Jan 01/11
Subject 7-4-2
Wing Gear and Center Landing Gear Loading on Pavement Jan 01/11
Subject 7-4-3
Wing Gear and Center Landing Gear Loading on Pavement May 01/07
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 253 500 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 257 000 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 260 000 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 260 000 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 262 000 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 271 000 kg
Jan 01/11
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FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 275 000 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 276 500 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 253 500 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 260 000 kg
Jan 01/11
FIGURE Wing Gear and Center Landing Gear Loading on Pavement -MTOW 275 000 kg
Jan 01/11
Subject 7-5-0
Flexible Pavement Requirements - U.S. Army Corps of EngineersDesign Method
Jan 01/11
Subject 7-5-1
Flexible Pavement Requirements - U.S. Army Corps of EngineersDesign Method
May 01/07
FIGURE Flexible Pavement Requirements - MTOW 253 500 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 260 000 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 276 500 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 253 500 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 260 000 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 275 000 kg Jan 01/11
Subject 7-6-0
Flexible Pavement Requirements - LCN Conversion Jan 01/11
Subject 7-6-1
Flexible Pavement Requirements - LCN Conversion May 01/07
FIGURE Flexible Pavement Requirements - MTOW 253 500 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 260 000 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 276 500 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 253 500 kg Jan 01/11
FIGURE Flexible Pavement Requirements - MTOW 260 000 kg Jan 01/11
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FIGURE Flexible Pavement Requirements - MTOW 275 000 kg Jan 01/11
Subject 7-7-0
Rigid Pavement Requirements - Portland Cement Association DesignMethod
Jan 01/11
Subject 7-7-1
Rigid Pavement Requirements - Portland Cement Association DesignMethod
May 01/07
FIGURE Rigid Pavement Requirements - MTOW 253 500 kg Jan 01/11
FIGURE Rigid Pavement Requirements - MTOW 260 000 kg Jan 01/11
FIGURE Rigid Pavement Requirements - MTOW 276 500 kg Jan 01/11
FIGURE Rigid Pavement Requirements - MTOW 253 500 kg Jan 01/11
FIGURE Rigid Pavement Requirements - MTOW 260 000 kg Jan 01/11
FIGURE Rigid Pavement Requirements - MTOW 275 000 kg Jan 01/11
Subject 7-8-0
Rigid Pavement Requirements - LCN Conversion Jan 01/11
Subject 7-8-1
Radius of Relative Stiffness May 01/07
FIGURE Radius of relative stiffness - (Reference : Portland CementAssociation)
May 01/07
Subject 7-8-2
Rigid Pavement Requirements - LCN Conversion May 01/07
FIGURE Rigid Pavement Requirements LCN - MTOW 253 500 kg Jan 01/11
FIGURE Rigid Pavement Requirements LCN - MTOW 260 000 kg Jan 01/11
FIGURE Rigid Pavement Requirements LCN - MTOW 276 500 kg Jan 01/11
FIGURE Rigid Pavement Requirements LCN - MTOW 253 500 kg Jan 01/11
FIGURE Rigid Pavement Requirements LCN - MTOW 260 000 kg Jan 01/11
FIGURE Rigid Pavement Requirements LCN - MTOW 275 000 kg Jan 01/11
Subject 7-8-3
Radius of Relative Stiffness (Other values of ”E” and ”L”) Jan 01/11
Subject 7-8-4
L.E.C.Page 16
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
CONTENT CHGCODE
LAST REVISIONDATE
Radius of Relative Stiffness May 01/07
FIGURE Radius of Relative Stiffness - (Effect of ”E” and ”µ” on ”L”values)
May 01/07
Subject 7-9-0
ACN/PCN Reporting System - Flexible and Rigid Pavements Jan 01/11
Subject 7-9-1
Aircraft Classification Number - Flexible Pavement May 01/07
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW253 500 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW257 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW260 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW260 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW262 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW271 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW275 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW276 500 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW253 500 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW260 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Flexible Pavement - MTOW275 000 kg
Jan 01/11
Subject 7-9-2
Aircraft Classification Number - Rigid Pavement May 01/07
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW253 500 kg
Jan 01/11
L.E.C.Page 17
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
CONTENT CHGCODE
LAST REVISIONDATE
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW257 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW260 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW260 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW262 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW271 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW275 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW276 500 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW253 500 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW260 000 kg
Jan 01/11
FIGURE Aircraft Classification Number -- Rigid Pavement - MTOW275 00 kg
Jan 01/11
CHAPTER 8
Subject 8-1-0
Possible Future Derivative Airplane May 01/07
CHAPTER 9
Subject 9-1-0
Scaled Drawing 1 in. = 50 ft. May 01/07
FIGURE Scaled Drawing - 1 in. = 50 ft. May 01/07
FIGURE Scaled Drawing - 1 in. = 50 ft. May 01/07
FIGURE Scaled Drawing - 1 in. = 50 ft. May 01/07
FIGURE Scaled Drawing - 1 in. = 50 ft. May 01/07
Subject 9-2-0
L.E.C.Page 18
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
CONTENT CHGCODE
LAST REVISIONDATE
Scaled Drawing 1 cm. = 500 cm. May 01/07
FIGURE Scaled Drawing - 1 cm. = 500 cm. May 01/07
FIGURE Scaled Drawing - 1 cm. = 500 cm. May 01/07
FIGURE Scaled Drawing - 1 cm. = 500 cm. May 01/07
FIGURE Scaled Drawing - 1 cm. = 500 cm. May 01/07
L.E.C.Page 19
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
TABLE OF CONTENTS
1 SCOPE
1-1-0 Purpose
1-2-0 Introduction
2 AIRPLANE DESCRIPTION
2-1-0 General Airplane Characteristics
2-1-1 General Airplane Characteristics Data
2-2-0 General Airplane Dimensions
2-3-0 Ground Clearances
2-4-0 Interior Arrangements
2-4-1 Typical Configuration
2-5-0 Passenger Compartment Cross Section
2-6-0 Cargo Compartments
2-6-1 Lower Deck Cargo Compartments (Loading combinations)
2-7-0 Door Clearances
2-7-1 Forward Passenger / Crew Doors
2-7-2 Mid Passenger / Crew Doors
2-7-3 Emergency Exits
2-7-4 Aft Passenger / Crew Doors
2-7-5 Forward Cargo Compartment Doors
2-7-6 Aft Cargo Compartment Doors
2-7-7 Bulk Cargo Compartment Doors
2-7-8 Main and Center Landing Gear Doors
2-7-9 Radome
2-7-10 APU and Nose Landing Gear Doors
3 AIRPLANE PERFORMANCE
3-1-0 General Information
3-2-0 Payload / Range
3-2-1 ISA Conditions
3-3-0 FAR / JAR Takeoff Weight Limitation
3-3-1 ISA Conditions
3-3-2 ISA +15˚C (ISA +27˚F) Conditions
3-4-0 FAR / JAR Landing Field Length
3-4-1 ISA Conditions All series engines
T.O.C.Page 1
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-5-0 Final Approach Speed
3-5-1 Final Approach Speed
4 GROUND MANEUVERING
4-1-0 General Information
4-2-0 Turning Radii
4-3-0 Minimum Turning Radii
4-4-0 Visibility from Cockpit in Static Position
4-5-0 Runway and Taxiway Turn Paths
4-5-1 135˚ Turn - Runway to Taxiway
4-5-2 90˚ Turn - Runway to Taxiway
4-5-3 180˚ Turn on a Runway
4-5-4 135˚ Turn - Taxiway to Taxiway
4-5-5 90˚ Turn - Taxiway to Taxiway
4-6-0 Runway Holding Bay (Apron)
4-7-0 Airplane Parking
5 TERMINAL SERVICING
5-0-0 TERMINAL SERVICING
5-1-0 Airplane Servicing Arrangements
5-1-1 Symbols Used on Servicing Diagrams
5-1-2 Loading (Open Apron)
5-1-3 Loading (Passenger Bridge)
5-2-0 Terminal Operations
5-2-1 Type A and Type B Turn around Charts
5-3-0 Terminal Operation - en route station
5-3-1 Type C Turn around Chart
5-4-0 Ground Service Connections
5-4-1 Ground Service Connections Layout
5-4-2 Grounding Points
5-4-3 Hydraulic System
5-4-4 Electrical System
5-4-5 Oxygen System
5-4-6 Fuel System
5-4-7 Pneumatic System
5-4-8 Potable Water System
5-4-9 Oil System
5-4-10 Vacuum Toilet System
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-5-0 Engine Starting Pneumatic Requirements
5-5-1 Low Ambient Temperatures
5-5-2 Medium Ambient Temperatures
5-5-3 High Ambient Temperatures
5-6-0 Ground Pneumatic Power Requirements
5-6-1 Heating
5-6-2 Cooling
5-7-0 Preconditioned Airflow Requirements
5-8-0 Ground Towing Requirements
6 OPERATING CONDITIONS
6-1-0 Engine Exhaust Velocities and Temperatures
6-1-1 Engine Exhaust Velocities Contours - Ground Idle Power
6-1-2 Engine Exhaust Temperatures Contours - Ground Idle Power
6-1-3 Engine Exhaust Velocities Contours - Breakaway Power
6-1-4 Engine Exhaust Temperatures Contours - Breakaway Power
6-1-5 Engine Exhaust Velocities Contours - Takeoff Power
6-1-6 Engine Exhaust Temperatures Contours - Takeoff Power
6-2-0 Airport and Community Noise
6-2-1 Noise Data
6-3-0 Danger Areas of Engines
6-3-1 Ground Idle Power
6-3-2 Breakaway Power
6-3-3 Takeoff Power
6-4-0 APU Exhaust Velocities and Temperatures
6-4-1 APU
7 PAVEMENT DATA
7-1-0 General Information
7-2-0 Landing Gear Footprint
7-3-0 Maximum Pavement Loads
7-4-0 Landing Gear Loading on Pavement
7-4-1 Landing Gear Loading on Pavement
7-4-2 Main Gear and Center Gear Loading on Pavement
7-4-3 Main Gear and Center Gear Loading on Pavement
7-5-0 Flexible Pavement Requirements - U.S. Army Corps of Engineers Design Method
7-5-1 Flexible Pavement Requirements - U.S. Army Corps of Engineers Design Method S-77-1
7-6-0 Flexible Pavement Requirements - LCN Conversion
T.O.C.Page 3
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-6-1 Flexible Pavement Requirements - LCN Conversion
7-7-0 Rigid Pavement Requirements - Portland Cement Association Design Method
7-7-1 Rigid Pavement Requirements - Portland Cement Association Design Method
7-8-0 Rigid Pavement Requirements - LCN Conversion
7-8-1 Radius of Relative Stiffness
7-8-2 Rigid Pavement Requirements - LCN Conversion
7-8-3 Radius of Relative Stiffness (Other values of E and L)
7-8-4 Radius of Relative Stiffness
7-9-0 ACN/PCN Reporting System - Flexible and Rigid Pavements
7-9-1 Aircraft Classification Number - Flexible Pavement
7-9-2 Aircraft Classification Number - Rigid Pavement
8 DERIVATIVE AIRPLANES
8-1-0 Possible Future Derivative Airplane
9 SCALED DRAWINGS
9-1-0 Scaled Drawing 1 in. = 500 ft.
9-2-0 Scaled Drawing 1 cm. = 500 cm.
T.O.C.Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
SCOPE
1-1-0 Purpose
**ON A/C A340-200 A340-300
Purpose
1. GeneralThe A340-200/-300 AIRPLANE CHARACTERISTICS (AC) manual is issued for the A340-200,A340-300 basic versions to provide the necessary data needed by airport operators and airlines for theplanning of airport facilities.
This document conforms to NAS 3601.
CORRESPONDENCECorrespondence concerning this publication should be directed to :
AIRBUS S.A.S.Customer ServicesTechnical Data Support and Services1 Rond Point Maurice BELLONTE31707 BLAGNAC CEDEXFRANCE
1-1-0Page 1
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
1-2-0 Introduction
**ON A/C A340-200 A340-300
Introduction
1. General
This manual comprises 9 chapters with a List of Effective Pages (LEP) and a Table Of Content(TOC) at the beginning of the manual.
Chapter 1 : SCOPE
Chapter 2 : AIRPLANE DESCRIPTION
This chapter contains general dimensional and other basic aircraft data.
It covers :- aircraft dimensions and ground clearances,- passenger and cargo compartments arrangement.
Chapter 3 : AIRPLANE PERFORMANCE
This chapter indicates the aircraft performance.
It covers :- payload range,- takeoff and landing runway requirements,- landing approach speed.
Chapter 4 : GROUND MANEUVERING
This chapter provides the aircraft turning capability and maneuvering characteristics on the ground.
It includes :- turning radii and visibility from the cockpit,- runway and taxiway turn path.
Chapter 5 : TERMINAL SERVICING
This chapter provides information for the arrangement of ground handling and servicing equipment.
It covers :- location and connections of ground servicing equipment,
1-2-0Page 1
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
- engines starting pneumatic and preconditioned airflow requirements.
Chapter 6 : OPERATING CONDITIONS
This chapter contains data and safety/environmental precautions related to engine and APUoperation on the ground.
It covers :- contour size and shape of the jet engine exhaust velocities and temperatures,- noise data.
Chapter 7 : PAVEMENT DATA
This chapter contains the pavement data helpful for airport planning.
It gives :- landing gear foot print and static load,- charts for flexible pavements with Load Classification Number (LCN),- charts for rigid pavements with LCN,- Aircraft Classification Number (ACN), Pavement Classification Number (PCN), reporting system
for flexible and rigid pavements.
Chapter 8 : DERIVATIVE AIRPLANES
This chapter gives relevant data of possible new version with the associated size change.
Chapter 9 : SCALED DRAWINGS
This chapter contains different airplane scaled drawings.
1-2-0Page 2
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
AIRPLANE DESCRIPTION
2-1-0 General Airplane Characteristics
**ON A/C A340-200 A340-300
General Airplane Characteristics
1. General Airplane CharacteristicsThe weight terms used throughout this manual are given below together with their respectivedefinitions.
Maximum Taxi Weight (MTW) :Maximum weight for ground maneuver as limited by aircraft strength and airworthiness requirements.(It includes weight of run-up and taxi fuel). It is also called Maximum Ramp Weight (MRW).
Maximum Landing Weight (MLW) :Maximum weight for landing as limited by aircraft strength and airworthiness requirements.
Maximum Takeoff Weight (MTOW) :Maximum weight for takeoff as limited by aircraft strength and airworthiness requirements. (This isthe maximum weight at start of the takeoff run).
Maximum Zero Fuel Weight (MZFW) :Maximum operational weight of the aircraft without usable fuel.
Standard Seating Capacity :Number of passengers specifically certified or anticipated for certification.
Usable Volume :Usable volume available for cargo, pressurized fuselage, passenger compartment and cockpit.
Usable Fuel Capacity:Fuel available for aircraft propulsion.Water Volume :Volume of cargo compartment.
2-1-0Page 1
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-1-1 General Airplane Characteristics Data
**ON A/C A340-200 A340-300
General Airplane Characteristics Data
**ON A/C A340-300
1. The following table provides characteristics of A340-300 Models, these data are specific to eachWeight Variant:
Aircraft CharacteristicsWV000 WV001 WV002 WV003 WV004
Maximum Taxi Weight(MTW)Maximum Ramp Weight(MRW)
254 400 kg(560 856 lb)
257 900 kg(568 572 lb)
260 900 kg(575 186 lb)
257 900 kg(568 572 lb)
260 900 kg(575 186 lb)
Maximum Takeoff Weight(MTOW)
253 500 kg(558 872 lb)
257 000 kg(566 588 lb)
260 000 kg(573 202 lb)
257 000 kg(566 588 lb)
260 000 kg(573 202 lb)
Maximum Landing Weight(MLW)
186 000 kg(410 060 lb)
186 000 kg(410 060 lb)
186 000 kg(410 060 lb)
188 000 kg(414 469 lb)
188 000 kg(414 469 lb)
Maximum Zero Fuel Weight(MZFW)
174 000 kg(383 604 lb)
174 000 kg(383 604 lb)
174 000 kg(383 604 lb)
178 000 kg(392 423 lb)
178 000 kg(392 423 lb)
Aircraft CharacteristicsWV020 WV021 WV023 WV024 WV025
Maximum Taxi Weight(MTW)Maximum Ramp Weight(MRW)
271 900 kg(599 437 lb)
275 900 kg(608 255 lb)
262 900 kg(579 595 lb)
275 900 kg(608 255 lb)
260 900 kg(575 186 lb)
Maximum Takeoff Weight(MTOW)
271 000 kg(597 453 lb)
275 000 kg(606 271 lb)
262 000 kg(577 611 lb)
275 000 kg(606 271 lb)
260 000 kg(573 202 lb)
Maximum Landing Weight(MLW)
190 000 kg(418 878 lb)
190 000 kg(418 878 lb)
190 000 kg(418 878 lb)
192 000 kg(423 287 lb)
190 000 kg(418 878 lb)
Maximum Zero Fuel Weight(MZFW)
178 000 kg(392 423 lb)
178 000 kg(392 423 lb)
178 000 kg(392 423 lb)
180 000 kg(396 832 lb)
178 000 kg(392 423 lb)
Aircraft CharacteristicsWV026 WV027 WV028 WV029
Maximum Taxi Weight (MTW)Maximum Ramp Weight (MRW)
275 900 kg(608 255 lb)
271 900 kg(599 437 lb)
277 400 kg(611 562 lb)
260 900 kg(575 186 lb)
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
Aircraft CharacteristicsWV026 WV027 WV028 WV029
Maximum Takeoff Weight(MTOW)
275 000 kg(606 271 lb)
271 000 kg(597 453 lb)
276 500 kg(609 578 lb)
260 000 kg(573 202 lb)
Maximum Landing Weight (MLW)192 000 kg(423 287 lb)
192 000 kg(423 287 lb)
190 000 kg(418 878 lb)
188 000 kg(414 469 lb)
Maximum Zero Fuel Weight(MZFW)
181 000 kg(399 037 lb)
178 000 kg(392 423 lb)
178 000 kg(392 423 lb)
178 000 kg(392 423 lb)
Aircraft CharacteristicsWV050 WV051 WV052 WV053 WV054
Maximum Taxi Weight(MTW)Maximum Ramp Weight(MRW)
275 900 kg(608 255 lb)
275 900 kg(608 255 lb)
277 400 kg(611 562 lb)
277 400 kg(611 562 lb)
275 900 kg(608 255 lb)
Maximum Takeoff Weight(MTOW)
275 000 kg(606 271 lb)
275 000 kg(606 271 lb)
276 500 kg(609 578 lb)
276 500 kg(609 578 lb)
275 000 kg(606 271 lb)
Maximum Landing Weight(MLW)
192 000 kg(423 287 lb)
192 000 kg(423 287 lb)
192 000 kg(423 287 lb)
192 000 kg(423 287 lb)
192 000 kg(423 287 lb)
Maximum Zero Fuel Weight(MZFW)
180 000 kg(396 832 lb)
181 000 kg(399 037 lb)
181 000 kg(399 037 lb)
183 000 kg(403 446 lb)
183 000 kg(403 446 lb)
2. The following table provides characteristics of A340-300 Models, these data are common to eachWeight Variant:
Aircraft CharacteristicsStandard Seating Capacity 335
140 640 l(37 153 US gal)Usable Fuel Capacity
(density = 0.785 kg/l) 110 402 kg(243 395 lb)
Pressurized Fuselage Volume(A/C non equipped)
1 056 m3
(37 292 ft3)
Passenger CompartmentVolume
372 m3
(13 137 ft3)
Cockpit Volume12 m3
(424 ft3)
Usable Volume, FWD CC(Based on LD3)
78 m3
(2 754 ft3)
2-1-1Page 2
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
Aircraft CharacteristicsUsable Volume, AFT CC(Based on LD3
60.7 m3
(2 142 ft3)
Usable Volume, Bulk CC19.7 m3
(695 ft3)
Water Volume, FWD CC107 m3
(3 789 ft3)
Water Volume, AFT CC85.7 m3
(3 026 ft3)
Water Volume, Bulk CC22.7 m3
(802 ft3)
**ON A/C A340-200
3. The following table provides characteristics of A340-200 Models, these data are specific to eachWeight Variant:
Aircraft CharacteristicsWV000 WV001 WV002 WV021
Maximum Taxi Weight(MTW)Maximum Ramp Weight(MRW)
254 400 kg(560 856 lb)
257 900 kg(568 572 lb)
260 900 kg(575 186 lb)
275 900 kg(608 255 lb)
Maximum Takeoff Weight(MTOW)
253 500 kg(558 872 lb)
257 000 kg(566 588 lb)
260 000 kg(573 202 lb)
275 000 kg(606 271 lb)
Maximum Landing Weight(MLW)
181 000 kg(399 037 lb)
181 000 kg(399 037 lb)
181 000 kg(399 037 lb)
185 000 kg(407 855 lb)
Maximum Zero Fuel Weight(MZFW)
169 000 kg(372 581 lb)
169 000 kg(372 581 lb)
169 000 kg(372 581 lb)
173 000 kg(381 400 lb)
4. The following table provides characteristics of A340-200 Models, these data are common to eachWeight Variant:
Aircraft CharacteristicsStandard Seating Capacity 303
140 640 l(37 153 US gal)Usable Fuel Capacity
(density = 0.785 kg/l) 110 402 kg(243 395 lb)
Pressurized Fuselage Volume(A/C non equipped)
946 m3
(33 408 ft3)
2-1-1Page 3
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
Aircraft Characteristics
Passenger CompartmentVolume
345 m3
(12 184 ft3)
Cockpit Volume12 m3
(424 ft3)
Usable Volume, FWD CC(Based on LD3)
60.7 m3
(2 142 ft3)
Usable Volume, AFT CC(Based on LD3)
52 m3
(1 836 ft3)
Usable Volume, Bulk CC19.7 m3
(695 ft3)
Water Volume, FWD CC84.6 m3
(2 988 ft3)
Water Volume, AFT CC71.1 m3
(2 511 ft3)
Water Volume, Bulk CC22.7 m3
(802 ft3)
2-1-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-2-0 General Airplane Dimensions
**ON A/C A340-200 A340-300
General Airplane Dimensions
1. This section provides General Airplane Dimensions.
2-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(197 ft 10 in)60.304 m
(35 ft 0.6 in)
10.684 m
0SCALE FEET
10 20 30
63.689 m(208 ft 11.5 in)
9.37 m(30 ft 9 in)
19.6 m(64 ft 3.7 in)
SCALE METER0 3 6 9
SEECHAPTER
2−3
NOTE :6.671 m 25.37 m FOR DOOR SIZESEE CHAPTER 2−7
(83 ft 3 in)(21 ft 10.7 in)
22.387 m(73.5 ft)
28.962 m(95 ft)
19.404 m(63 ft 6 in)
F_AC_020200_1_0070101_01_01
General Airplane DimensionsFIGURE-2-2-0-991-007-A01
2-2-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0SCALE METER
3
59.422 m(194 ft 11.4 in)
6 9SCALE FEET
3010 200
(63 ft 6 in)19.404 m
(64 ft 3.7 in)19.6 m
(66.5 ft)20.254 m
NOTE :
SEECHAPTER
2−3
FOR DOOR SIZE
26.828 m(88 ft)
6.671 m 23.24 m
SEE CHAPTER 2−7(21 ft 10.7 in) (76 ft 3 in)
60.304 m(197 ft 10 in)
10.684 m(35 ft 0.6 in)
9.37 m(30 ft 9 in)
F_AC_020200_1_0080101_01_01
General Airplane DimensionsFIGURE-2-2-0-991-008-A01
2-2-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-3-0 Ground Clearances
**ON A/C A340-200 A340-300
Ground Clearances
1. This section gives the height of various points of the aircraft, above the ground, for different aircraftconfigurations.Dimensions in the tables are approximate and will vary with tire type, W&B an others specialconditions.The dimensions are given for:- the basic aircraft OWE with a mid CG,- the MRW for the lightest weight variant with a FWD CG and a AFT CG,- the MRW for the heaviest weight variant with a FWD CG and a AFT CG,- aircraft on jacks, FDL at 6.5 m (21.33 ft).
NOTE : Passenger and cargo door clearances are measured from the center of the door sill and fromfloor level.
2-3-0Page 1
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
X L C2 Y K E3 H E2 D C1 B E1 AM
P N V U T S O Q
J
Am ftm m ftm
BC1C2D
FR 26FR 72
FR 20FR 37FR 56FR 45
PONMLKJHE3E2E1
3.683.68
29.430.224.7
21.4
10.7121212
20.730.5
20.7
6
6.956.59
ft
8.969.237.55
6.534.24
3.26
3.68
9.329.324.14 13.5
30.5
13.9
ft
MRW254 900 kg561 949 lb
OPERATING WEIGHTEMPTY CG 31.9%
MAXIMUM RAMPWEIGHT CG 20.7%
MAXIMUM RAMPWEIGHT CG 38.2%
QRSTUVXY
4.592.737.768.424.842.132.272.372.025.313.445.70
16.996.358.147.912.591.423.854.314.594.907.303.58
15.058.95
25.4527.6215.876.987.447.776.62
17.4211.2818.6955.7220.8326.7025.948.494.65
12.6314.1415.0516.0723.9411.74
2.547.588.254.651.942.092.491.845.123.265.52
16.826.017.967.572.351.233.674.124.384.667.12
14.598.33
24.8627.0615.256.366.858.176.03
16.8010.6918.1055.1719.7126.1124.837.714.03
12.0413.5114.3715.2823.3511.12
4.522.587.608.204.671.962.102.461.835.103.235.4716.735.987.887.532.341.243.654.104.364.647.053.35
8.6225.0926.7315.41
7.97
16.7310.4917.7454.6119.5525.5824.607.674.10
11.9413.4514.2315.1522.8310.86
6.32
6.32
6.32
17.62
3.982.795.255.70
66.308.104.39
20.7
57.80
139.1
17.218.719.620.626.514.43.39
4.45 14.8
AIRCRAFTON JACKS
R
NOTE: PASSENGER AND CARGO DOOR CLEARANCES ARE MEASURED FROM THE CENTEROF THE DOOR SILL AND FROM FLOOR LEVEL.
F_AC_020300_1_0050101_01_01
Ground ClearancesFIGURE-2-3-0-991-005-A01
2-3-0Page 2
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
X L C2 Y K E3 H E2 D C1 B E1 AM
P N V U T S R O Q
ZJ
Am ftm m ftm
BC1C2D
FR 26FR 72
FR 20FR 37FR 56FR 45
PONMLKJHE3E2E1
3.683.68
29.430.224.7
21.4
10.7121212
20.730.5
20.7
6
ft
8.969.237.55
6.534.24
3.26
3.68
9.329.324.14 13.5
30.5
13.9
ft
OPERATING WEIGHTEMPTY CG 31.9%
MAXIMUM RAMPWEIGHT CG 20.7%
MAXIMUM RAMPWEIGHT CG 38.2%
QRSTUVXY
3.85
2.35
4.12
4.66
13.51
15.28
5.10
4.10
16.73
13.45
6.32
6.32
6.32
17.62
3.982.795.255.70
66.308.104.39
139.1
17.218.719.620.626.514.4
20.73
57.8
15.098.8825.1226.83
6.496.987.83
10.4317.5854.6819.4825.6824.547.704.20
11.94
14.2015.1222.8910.8917.74
4.602.717.668.18
1.982.132.391.83
3.185.3616.675.947.837.482.351.283.64
4.334.616.983.325.41
14.598.4624.7327.23
6.036.758.035.97
16.8610.7318.0155.3619.626.3724.767.704.1012.01
14.33
23.5811.1517.15
4.452.587.548.30
1.842.062.451.825.143.275.49
16.886
8.047.55
1.253.66
4.37
7.193.435.23
15.259.1225.429.09
6.77.418.626.5917.4511.3118.5655.8920.7626.8625.888.534.72
12.6314.1014.9215.8424.0711.8017.845.44
3.607.344.834.554.30
1.442.607.898.196.33
17.045.663.455.322.012.632.262.04
8.877.742.784.65
Z
15.714.7915.54.7216.14.91
MRW271 900 kg599 431 lb
7.10 23.3
AIRCRAFTON JACKS
NOTE: PASSENGER AND CARGO DOOR CLEARANCES ARE MEASURED FROM THE CENTEROF THE DOOR SILL AND FROM FLOOR LEVEL. F_AC_020300_1_0080101_01_01
Ground ClearancesFIGURE-2-3-0-991-008-A01
2-3-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
X L C2 Y K E3 H E2D C1 B E1 AM
P N V U T S R O Q
J
Am ftm m ftm
BC1C2D
FR 26FR 72
FR 20FR 37FR 56FR 45
PONMLKJHE3E2E1
3.683.68
29.430.224.7
21.4
10.7121212
20.730.5
20.7
6
ft
8.969.237.55
6.534.24
3.26
3.68
9.329.324.14 13.5
30.5
13.9
ft
MRW254 900 kg561 949 lb
OPERATING WEIGHTEMPTY CG 31.9%
MAXIMUM RAMPWEIGHT CG 20.7%
MAXIMUM RAMPWEIGHT CG 38.2%
QRSTUVXY
2.73
2.02
5.70
8.95
6.62
18.69
2.35
3.674.124.38
8.33
6.03
12.0413.5114.37
11.12
2.10
1.83
5.987.887.532.341.243.654.10
8.62
17.74
7.67
13.45
10.86
6.32
6.32
6.32
17.62
3.982.795.255.70
66.308.104.39
20.7
57.80
139.1
17.218.719.620.626.514.4
4.58
7.788.434.862.142.262.66
5.323.45
17.036.378.187.952.601.413.864.334.604.937.333.58
15.02
25.5227.6515.947.027.418.72
17.4511.31
55.8620.8926.8326.088.534.62
12.6614.2015.0916.1724.0411.74
4.402.547.568.244.671.932.072.471.845.133.255.51
16.846.037.997.59
1.22
4.687.143.39
14.43
24.8027.0215.316.336.788.10
16.8310.6618.0755.2319.7826.2124.897.70
4
15.3523.42
4.502.637.638.164.711.99
2.42
5.093.195.41
16.68
4.354.636.983.31
14.76
25.0326.7615.456.536.897.94
16.7010.46
54.7119.6125.8524.70
4.0611.97
14.2715.1922.89
AIRCRAFTON JACKS
NOTE: PASSENGER AND CARGO DOOR CLEARANCES ARE MEASURED FROM THE CENTEROF THE DOOR SILL AND FROM FLOOR LEVEL.
F_AC_020300_1_0100101_01_01
Ground ClearancesFIGURE-2-3-0-991-010-A01
2-3-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
X L C2 Y K E3 H E2D C1 B E1 AM
P N V U T S R O Q
ZJ
Am ftm m ftm
BC1C2D
FR 26FR 72
FR 20FR 37FR 56FR 45
PONMLKJHE3E2E1
3.683.68
29.430.224.7
21.4
10.7121212
20.730.5
20.7ft
8.969.237.55
6.534.24
3.26
3.68
9.329.324.14 13.5
30.5
13.9
ft
OPERATING WEIGHTEMPTY CG 31.9%
MAXIMUM RAMPWEIGHT CG 20.7%
MAXIMUM RAMPWEIGHT CG 38.2%
QRSTUVXY
3.85
4.66 15.28
5.10
4.10
16.73
13.45
6.32
6.32
6.32
17.62
3.982.795.255.70
66.308.104.39
139.1
17.218.719.620.626.514.4
20.73
57.8
6.98
10.43
11.94
3.18
3.64
8.4624.73
18.01
12.01
14.33
2.587.54
5.49
4.37
17.45
18.56
12.63
17.845.44
2.60
5.66
5.32
Z
4.662.797.768.46
2.052.282.652.05
3.44
17.066.358.217.92
1.43
4.314.564.857.363.59 11.77
24.1415.9014.9514.14
4.698.53
25.9826.9320.8355.95
11.28
6.728.697.486.72
27.7525.459.15
15.28 4.44 14.56
8.29 27.19
1.83 62.08 6.822.46 8.061.86 6.105.13 16.833.41 11.18
16.90 55.436.01 19.718.05 26.417.57 24.832.34 7.671.22 43.664.11 13.48
7.20 23.613.41 11.185.21 17.09
4.56 14.952.68 8.797.64 25.068.19 26.86
1.95 6.402.132.41 7.901.85 6.07
5.38 17.6416.72 54.855.96 19.557.88 25.847.50 24.602.34 7.671.26 4.13
4.34 14.234.62 15.157.02 23.023.33 10.925.36 17.58
MRW271 900 kg599 431 lb
7.10 23.3
4.92 16.14 15.45 4.77 15.654.71
AIRCRAFTON JACKS
NOTE: PASSENGER AND CARGO DOOR CLEARANCES ARE MEASURED FROM THE CENTEROF THE DOOR SILL AND FROM FLOOR LEVEL. F_AC_020300_1_0110101_01_01
Ground ClearancesFIGURE-2-3-0-991-011-A01
2-3-0Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-4-0 Interior Arrangements
**ON A/C A340-200 A340-300
Interior Arrangements
1. This section gives the standard interior arrangements configuration.
2-4-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-4-1 Typical Configuration
**ON A/C A340-200 A340-300
Typical Configuration
1. This section gives the typical configuration for A340-200 and A340-300.
2-4-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
EM
ER
GE
NC
Y E
XIT
EM
ER
GE
NC
Y E
XIT
FO
RW
AR
D P
AS
SE
NG
ER
/CR
EW
DO
OR
FO
RW
AR
D P
AS
SE
NG
ER
/CR
EW
DO
OR
AF
T P
AS
SE
NG
ER
/CR
EW
DO
OR
AF
T P
AS
SE
NG
ER
/CR
EW
DO
OR
FO
R D
OO
R S
IZE
S
S
EE
CH
AP
TE
R 2
.7
PA
SS
EN
GE
R S
EA
TS
30 F
IRS
T C
LAS
S
305
TO
UR
IST
CLA
SS
F_AC_020401_1_0030101_01_00
NO
TE
:IT
EM
D
ES
IGN
AT
ION
A
G L S
AT
TE
ND
AN
TS
SE
AT
GA
LLE
Y
LAV
AT
OR
Y
ST
OW
AG
E
(9)
(6)
(8)
(3)
F_AC_020401_1_0030101_01_00
A
A
A
A
A
AA
A A
L LLLL
GG
S
S S
GG
G
G
L
L L
Typical ConfigurationFIGURE-2-4-1-991-003-A01
2-4-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
EM
ER
GE
NC
Y E
XIT
EM
ER
GE
NC
Y E
XIT
FO
RW
AR
D P
AS
SE
NG
ER
/CR
EW
DO
OR
FO
RW
AR
D P
AS
SE
NG
ER
/CR
EW
DO
OR
AF
T P
AS
SE
NG
ER
/CR
EW
DO
OR
AF
T P
AS
SE
NG
ER
/CR
EW
DO
OR
ITE
M
DE
SIG
NA
TIO
N
A
G L S
AT
TE
ND
AN
TS
SE
AT
GA
LLE
Y
LAV
AT
OR
Y
ST
OW
AG
E
PA
SS
EN
GE
R S
EA
TS
30 F
IRS
T C
LAS
S27
3 T
OU
RIS
T C
LAS
S
FO
R D
OO
R S
IZE
S
S
EE
CH
AP
TE
R 2
.7
F_AC_020401_1_0040101_01_00
L
NO
TE
:
L
(9)
(5)
(7)
(3)
F_AC_020401_1_0040101_01_00
A
A
A
A
A
A
A
A
A
S
G
G
S S
L L
L L
LG
GG
Typical ConfigurationFIGURE-2-4-1-991-004-A01
2-4-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
EM
ER
GE
NC
Y E
XIT
EM
ER
GE
NC
Y E
XIT
FO
RW
AR
D P
AS
SE
NG
ER
/CR
EW
DO
OR
FO
RW
AR
D P
AS
SE
NG
ER
/CR
EW
DO
OR
AF
T P
AS
SE
NG
ER
/CR
EW
DO
OR
AF
T P
AS
SE
NG
ER
/CR
EW
DO
OR
PA
SS
EN
GE
R S
EA
TS
10 F
IRS
T C
LAS
S
170
TO
UR
IST
CLA
SS
48 B
US
INE
SS
CLA
SS
NO
TE
:
S
EE
CH
AP
TE
R 2
.7 F
OR
DO
OR
SIZ
ES
ITE
M
DE
SIG
NA
TIO
N
A
G L S
AT
TE
ND
AN
TS
SE
AT
GA
LLE
Y
LAV
AT
OR
Y
ST
OW
AG
E
(14)
(10)
(8)
(4)
S
A
AA
AA
A A
AA
A AG
G
G
G
G GA A
S S
G
A
S
G G
L
L L
LLL
L LG
F_AC_020401_1_0050101_01_00
Typical ConfigurationFIGURE-2-4-1-991-005-A01
2-4-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-5-0 Passenger Compartment Cross Section
**ON A/C A340-200 A340-300
Passenger Compartment Cross-section
1. This section gives the typical passenger compartment cross-section configuration of A340-200/-300models.
2-5-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
C D C
F N M
H
K K
222 in5.640 m
208 in5.290 m
FIRST CLASS, 6 ABREAST BUSINESS CLASS, 7 ABREAST
TOURIST CLASS, 8 ABREAST CHARTER CLASS, 9 ABREAST
A − 54.0 in (1371.6 mm)B − 21.0 in (533 mm)C − 39.6 in (1006 mm)D − 17.7 in (450 mm)E − 72.0 in (1829 mm)F − 19.0 in (483 mm)
G − 48.0 in (1219 mm)H − 19.8 in (503 mm)K − 41.5 in (1054.1 mm)M − 57.1 in (1450 mm)N − 16.5 in (419 mm)
C
ABA
D
F G
C D
DCH
C C
E
M
91.7 in2.330 mA
F_AC_020500_1_0020101_01_00
Passenger Compartment Cross-sectionFIGURE-2-5-0-991-002-A01
2-5-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-6-0 Cargo Compartments
**ON A/C A340-200 A340-300
Cargo Compartment
1. This section gives the cargo compartments location and dimensions.
2-6-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-6-1 Lower Deck Cargo Compartments (Loading combinations)
**ON A/C A340-200 A340-300
Lower Deck Cargo Compartments
**ON A/C A340-300
1. This table gives cargo compartments loading combinations.
Cargo Compartment Palletized volume Containerized volume
Forward Door size (h × w) 2442 ft3 (69.150 m3) 2754 ft3 (77.985 m3)
66.89 in (1.699 m) x 106.34 in(2.701 m)
based on 96 in × 125 in palletsloaded to height of 64 in (1.626
m)
based on LD3 (IATA E NAS3610-2K2C) container volume
Aft Door size (h × w) 1628 ft3 (46.100 m3) 2142 ft3 (60.655 m3)
66.3 in (1.684 m) x 107.1 in(2.720 m)
based on 96 in × 125 in palletsloaded to height of 64 in (1.626
m)
based on LD3 (IATA E NAS3610-2K2C) container volume
Bulk Door size (h × w)
37.3 in (0.947 m) x 37.3 in (0.947m)
695 ft3 (19.680 m3)
**ON A/C A340-200
2. This table gives cargo compartments loading combinations.
Cargo Compartment Palletized volume Containerized volume
Forward Door size (h × w) 2025 ft3 (57.342 m3) 2142 ft3 (60.655 m3)
66.89 in (1.699 m) x 106.34 in(2.701 m)
based on 96 in × 125 in palletsloaded to height of 64 in (1.626
m)
based on LD3 (IATA E NAS3610-2K2C) container volume
Aft Door size (h × w) 1620 ft3 (45.873 m3) 1836 ft3 (51.990 m3)
66.3 in (1.684 m) x 107.1 in(2.720 m)
based on 96 in × 125 in palletsloaded to height of 64 in (1.626
m)
based on LD3 (IATA E NAS3610-2K2C) container volume
Bulk Door size (h × w)
37.3 in (0.947 m) x 37.3 in (0.947m)
695 ft3 (19.680 m3)
2-6-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
(125.0 in)
(163.4 in)
(37.4 in)
(222.0 in)
(106.3 in)
(159.1 in)
AFT CARGOCOMPARTMENT
BULK CARGOCOMPARTMENT
FWD CARGOCOMPTARTMENT
TYPICAL SECTIONSFR20 TO FR39.2
AND FR53.2 TO FR65TOP OF CARGO COMPT
CARGO COMPT FLOOR
(159.1 in)
(49.3 ft) (40.5 ft)−300:
−200:
3.18 m
4.15 m
5.640 m
2.73 m
(107.5 in)2.70 m
0.95 m
FWD : 1.713 m (67.6 in)AFT : 1.67 m (65.7 in)
4.04 m15.01 m 12.32 m
4.04 m10.19 m12.88 m(33.4 ft)(42.3 ft)
F_AC_020601_1_0050101_01_01
Lower Deck Cargo CompartmentsFIGURE-2-6-1-991-005-A01
2-6-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
−HALF−SIZE CONTAINERS NAS 3610−2K2C AS PER IATA CONTOUR E
−HALF−SIZE CONTAINERS NAS 3610−2K2C AS PER IATA CONTOUR C
−FULL−SIZE CONTAINERS NAS 3610−2L2C AS PER IATA CONTOUR F
12
CARGO FLEXIBILITY−LOADING COMBINATIONS
AFT FWD AFTFWDTYPICAL LOADING COMBINATIONS−STANDARD AIRCRAFT
FWD CARGO COMPT
AFT CARGO COMPT
14 18 14
7 6 9 7
7 6 9 7
5 4 6 4
− − − 2
− − − 2
− − − 1
− − − 1
LIMITED TO MAX GROSS WEIGHT 3500 lb (1587 kg) EACH OR 60.4 in X 61.5 in PALLETS NAS 3610−2K3P
LIMITED TO MAX GROSS WEIGHT 3500 lb (1587 kg) EACH
OR 60.4 in X 61.5 in PALLETS NAS 3610−2K3P,2L4P LIMITED TO MAX GROSS WIGHT 7000 lb (3174 kg) EACH
−96 in X 125 in PALLETS NAS 3610−2M1P,2P,3P LIMITED TO MAX GROSS WEIGHT 10200 lb (4626 kg) EACH (WITH POTENTIAL FOR EXTENSION TO 11250 lb (5103 kg)
PLUS−HALF−SIZE CONTAINERS NAS 3610−2K2C AS PER IATA CONTOUR E OR N LIMITED TO MAX GROSS WEIGHT 3500 lb (1587 kg) EACH
−OR 60.4 IN x 61.5 IN PALLETS NAS 3610−2K3P LIMITED TO MAX GROSS WEIGHT 3500 lb (1587 kg) EACH
−OR 60.4 in x 125 in PALLETS NAS 3610−2L3P, 2L4P LIMITED TO MAX GROSS WEIGHT 7000 lb (3174 kg) EACH
−OR FULL−SIZE CONTAINERS NAS 3610−2L2C AS PER IATA CONTOUR P LIMITED TO MAX GROSS WEIGHT 7000 lb (3174 kg) EACH
A340−200 A340−300
F_AC_020601_1_0060101_01_01
Loading CombinationsFIGURE-2-6-1-991-006-A01
2-6-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-0 Door Clearances
**ON A/C A340-200 A340-300
Doors Clearances
1. This section gives doors clearances.
2-7-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-1 Forward Passenger / Crew Doors
**ON A/C A340-200 A340-300
Forward Passenger / Crew Door
1. This section gives forward passenger / crew doors clearances.
2-7-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
CRITICALCLEARANCELIMIT
2.43 m(7 ft 11 in)
1.07 m(3 ft 6 in)
0.64 m(2 ft 1 in)
0.75 m(2 ft 5 in)
3.00 m(9 ft 10 in)
5.85 m(19 ft 2 in)
SEECHAPTER
2−3
1.93 m(6 ft 3 in)
3.3 m(10 ft 9 in)
0.045 m(1.77 in)
CL
CL
CL
F_AC_020701_1_0030101_01_01
Forward Passenger / Crew DoorsFIGURE-2-7-1-991-003-A01
2-7-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-2 Mid Passenger / Crew Doors
**ON A/C A340-200 A340-300
Mid Passenger / Crew Door
1. This section gives mid passenger / crew doors clearances.
2-7-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
(TOP OF FLOOR)
0.75 m(2 ft 5 in)
1.07 m(3 ft 6 in)
2.43 m(7 ft 11 in)
0.64 m(2 ft 1 in)
3.41 m(11 ft 2 in)
A340−200: 17.741 m (58 ft 2 in)
A340−300: 17.741 m (58 ft 2 in)(FROM NOSE)
1.93 m(6 ft 3 in)
SEECHAPTER
2−3
CL
CL
CL
0.045 m(1.77 in)
A
A
A AF_AC_020702_1_0020101_01_00
Mid Passenger / Crew DoorFIGURE-2-7-2-991-002-A01
2-7-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-3 Emergency Exits
**ON A/C A340-200 A340-300
Emergency Exits
1. This section gives emergency exits doors clearances.
2-7-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
(TOP OF FLOOR)
0.77 m(2 ft 6 in)
1.07 m
(3 ft 6 in)
(11 ft 2 in)
0.59 m(1 ft 11 in)
A340−200: 33.66 m (110 ft 5 in)
A340−300: 35.793 m (117 ft 5 in)(FROM NOSE)
1.93 m
SEECHAPTER
2−3
0.036 m(1.4 in)
A
A
3.41 m
CL
CL
CL
2.36 m(7 ft 8 in)
(6 ft 3 in)
A AF_AC_020703_1_0020101_01_01
Emergency ExitsFIGURE-2-7-3-991-002-A01
2-7-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-4 Aft Passenger / Crew Doors
**ON A/C A340-200 A340-300
Aft Passenger / Crew Doors
1. This section gives Aft passenger / crew doors clearances.
2-7-4Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
CRITICALCLEARANCE
LIMIT
CLSEE
CHAPTER2−3
CL CL
CL
1.07 m(3 ft 6 in)
2.43 m(8 ft)
0.75 m(2 ft 5 in)
3 m(9 ft 10 in)
1.99 m(6 ft 6 in)
0.64 m(2 ft 1 in)
A340−300: 50.956 m (167 ft 2 in)
A340−200: 46.689 m (153 ft 2 in)
(FROMNOSE)
A
A
A A
0.045 m(1.8 in)
F_AC_020704_1_0020101_01_00
Aft Passenger / Crew DoorsFIGURE-2-7-4-991-002-A01
2-7-4Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-5 Forward Cargo Compartment Doors
**ON A/C A340-200 A340-300
Forward Cargo Compartment Doors
1. This section gives forward cargo compartment doors clearances.
2-7-5Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
A
A
(FROM NOSE)
COMPARTMENT DOOR
CL
CL
CL
SEECHAPTER
2−3
MID PASSENGER/CREW DOOR
CL
9.53 m(31 ft 3 in)
0.64 m(2 ft 1 in)
2.7 m(8 ft 10 in)
6.37 m(20 ft 10 in)
1.70 m(5 ft 6 in)
5.27 m(17 ft 3 in)
2.04 m(6 ft 8 in)
FORWARD PASSENGER/CREW DOOR
FORWARD CARGO
A AF_AC_020705_1_0040101_01_00
Forward Cargo Compartment DoorsFIGURE-2-7-5-991-004-A01
2-7-5Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-6 Aft Cargo Compartment Doors
**ON A/C A340-200 A340-300
Aft Cargo Compartment Doors
1. This section gives Aft cargo compartment doors clearances.
2-7-6Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
A
AAFT PASSENGER/CREW DOOR
CL
CL
CL
SEECHAPTER
2−3
CL
BULK CARGOCOMPARTMENT DOOR
1.68 m(5 ft 6 in)
5.19 m(17 ft)
2.03 m(6 ft 7 in)
F_AC_020706_1_0040101_01_00
A A
(FROM NOSE)A340−200: 40.092 m (131 ft 6 in)
A340−300: 44.36 m (145 ft 6 in)
2.78 m
(9 ft 1 in)
AFT CARGOCOMPARTMENT DOOR
F_AC_020706_1_0040101_01_00
Aft Cargo Compartment DoorsFIGURE-2-7-6-991-004-A01
2-7-6Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-7 Bulk Cargo Compartment Doors
**ON A/C A340-200 A340-300
Bulk Cargo Compartment Doors
1. This section gives the bulk cargo compartment doors clearances.
2-7-7Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
A
A CL
CL
CL
SEECHAPTER
2−3
CL
AFT PASSENGER/CREW DOOR(REF)
(FROM NOSE)A340−200: 43.075 m (141 ft 3 in)
A340−300: 47.342 m (155 ft 3 in)
1.1 m(3 ft 7 in)
0.95 m(3 ft 1 in)
BULK CARGOCOMPARTMENT DOOR
1.07 m(3 ft 6 in)
1.41 m(4 ft 7 in)
A A
AFT CARGOCOMPARTMENT DOOR
F_AC_020707_1_0030101_01_00
Bulk Cargo Compartment DoorsFIGURE-2-7-7-991-003-A01
2-7-7Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-8 Main and Center Landing Gear Doors
**ON A/C A340-200 A340-300
Main Landing Gear Doors
1. This section gives the main landing gear doors clearances.
2-7-8Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
GROUND LINE
A/C
81°
0.06 m
0.97 m
(3 ft 2 in)
0.85 m
(2 ft 9 in)
(2.4 in)
1.1m(3 ft 7 in )
2.7 m(8 ft 10 in)
3.96 m(13 ft)
A340−200: 27.31 m (89 ft 7 in)
A340−300: 29.45 m (96 ft 7in)
0.23 m(9 in)
C L
2.34 m(7 ft 8 in)
3.03 m(9 ft 11 in)
1.56 m(5 ft 1 in) Z−2 m (6 ft 6 in)
A
A
F_AC_020708_1_0030101_01_01
Main and Center Landing Gear DoorsFIGURE-2-7-8-991-003-A01
2-7-8Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-9 Radome
**ON A/C A340-200 A340-300
Radome
1. This section gives the radome clearances.
2-7-9Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
67°
CL
STA 7662.5FR1
1.32
5 m
(4 ft
4 in
)1.
25 m
(4 ft
1 in
)
1.65 m(5 ft 4 in)
F_AC_020709_1_0010101_01_00
RadomeFIGURE-2-7-9-991-001-A01
2-7-9Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
2-7-10 APU and Nose Landing Gear Doors
**ON A/C A340-200 A340-300
APU and Nose Landing Gear Doors
1. This section gives APU and Nose Landing Gear doors clearances.
2-7-10Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
FUSELAGE DATUM LINE
FR95
FR101
* DEPENDING OF THE CG POSITION AND AIRCRAFT LOAD
MAX = 6.53 m (21 ft 5 in)
MIN = 5.79 m (18 ft 11 in)
MAX = 6.88 m (22 ft 6 in)
MIN = 6.14 m (20 ft 1 in)
MAX = 2.01 m (6 ft 7 in)
MIN = 1.83 m (6 ft)
MAX = 1.58 m (5 ft 2 in)
MIN = 1.4 m (4 ft 7 in)*
*
**
F_AC_020710_1_0030101_01_00
APU and Nose Landing Gear DoorsFIGURE-2-7-10-991-003-A01
2-7-10Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
FUSELAGE DATUM LINE
FR95
FR101
* DEPENDING OF THE CG POSITION AND AIRCRAFT LOAD
MAX = 6.51 m (21 ft 4 in)
MIN = 5.77 m (18 ft 11 in)
MAX = 6.85 m (22 ft 5 in)
MIN = 6.11 m (20 ft)
MIN = 1.39 m (4 ft 6 in)
MAX = 1.57 m (5 ft 1 in)MAX = 2.00 m (6 ft 6 in)
MIN = 1.82 m (5 ft 11 in)*
*
**
F_AC_020710_1_0040101_01_00
APU and Nose Landing Gear DoorsFIGURE-2-7-10-991-004-A01
2-7-10Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
AIRPLANE PERFORMANCE
3-1-0 General Information
**ON A/C A340-200 A340-300
General Information
1. This section gives standard day temperatures.
Section 3-2 indicates payload range information at specific altitudes recommended for long rangecruise with a given fuel reserve condition.
Section 3-3 represents FAR takeoff runway length requirements at ISA and ISA +15˚C (+27˚F) forCFM56-5C series engine conditions for FAA certification.
Section 3-4 represents FAR landing runway length requirements for FAA certification.
Section 3-5 indicates final approach speeds.
Standard day temperatures for the altitude shown are tabulated below:
Standard day temperatures for the altitude
Altitude Standard Day Temperature
FEET METERS ˚F ˚C0 0 59.0 15.02000 610 51.9 11.14000 1219 44.7 7.16000 1829 37.6 3.18000 2438 30.5 -0.8
3-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-2-0 Payload / Range
**ON A/C A340-200 A340-300
Payload / Range
1. Payload / Range
3-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-2-1 ISA Conditions
**ON A/C A340-200 A340-300
ISA Conditions
1. This section gives the payload / range at ISA conditions.
3-2-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
10
20
30
40
50
60
70
80
90
100
110
120
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
MAX STRUCTURAL PAYLOAD
MAX PASSENGER PAYLOAD
CRUISE CONDITIONSISA 39000 ft M = 0.82
F_AC_030201_1_0110101_01_00
PAYLOAD / RANGECFM56-5C2 engine
FIGURE-3-2-1-991-011-A01
3-2-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0
10
20
30
40
50
60
70
80
90
100
110
120
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
MAX PASSENGER PAYLOAD
MAX STRUCTURAL PAYLOAD
F_AC_030201_1_0120101_01_00
CRUISE CONDITIONSISA 39000 ft M = 0.82
PAYLOAD / RANGECFM56-5C2 engine
FIGURE-3-2-1-991-012-A01
3-2-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
10
20
30
40
50
60
70
80
90
100
110
120
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
MAX PASSENGER PAYLOAD
MAX STRUCTURAL PAYLOAD
F_AC_030201_1_0130101_01_00
CRUISE CONDITIONSISA 39000 ft M = 0.82
PAYLOAD / RANGECFM56-5C3 engine
FIGURE-3-2-1-991-013-A01
3-2-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0
10
20
30
40
50
60
70
80
90
100
110
120
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
MAX PASSENGER PAYLOAD
MAX STRUCTURAL PAYLOAD
F_AC_030201_1_0140101_01_00
CRUISE CONDITIONSISA 39000 ft M = 0.82
PAYLOAD / RANGECFM56-5C3 engine
FIGURE-3-2-1-991-014-A01
3-2-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
10
20
30
40
50
60
70
80
90
100
110
120
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
BASIC AIRCRAFT257t MTOW
NOMINAL PERFORMANCE LEVEL
MAX STRUCTURAL PAYLOAD
MAX PASSENGER PAYLOAD
F_AC_030201_1_0150101_01_00
CRUISE CONDITIONSISA 39000 ft M = 0.82
PAYLOAD / RANGECFM56-5C4 engine
FIGURE-3-2-1-991-015-A01
3-2-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0
10
20
30
40
50
60
70
80
90
100
110
120
3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
MAX PASSENGER PAYLOAD
MAX STRUCTURAL PAYLOAD
F_AC_030201_1_0160101_01_00
CRUISE CONDITIONSISA 39000 ft M = 0.82
PAYLOAD / RANGECFM56-5C4 engine
FIGURE-3-2-1-991-016-A01
3-2-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
10
20
30
40
50
60
70
80
90
100
110
120
4000 4500 5000 5500 6000 6500 7000 7500 8000 90008500
160007000 8000 9000 10000 11000 12000 13000 14000 15000
270
280
290
300
310
320
330
340
350
360
370
380
NOTE: THESE CURVES ARE GIVEN FOR INFORMATION ONLYTHE APPROVED VALUES ARE STATED IN THE "OPERATINGMANUALS" SPECIFIC TO THE AIRLINE OPERATING THE AIRCRAFT.
NOTE: MAX TAKE−OFF WEIGHTZFW
(1000 lb)PAYLOAD(1000 lb)
RANGE(Nm)
RANGE(Km)
BASIC AIRCRAFT271t AND 275t MTOW
NOMINAL PERFORMANCE LEVEL
275t
271t
F_AC_030201_1_0170101_01_00
MAX STRUCTURAL PAYLOAD
MAX PASSENGER PAYLOAD
CRUISE CONDITIONSISA 39000 ft M = 0.82
PAYLOAD / RANGECFM56-5C4 engine
FIGURE-3-2-1-991-017-A01
3-2-1Page 8
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-3-0 FAR / JAR Takeoff Weight Limitation
**ON A/C A340-200 A340-300
FAR / JAR Takeoff Weight Limitation
1. FAR / JAR Takeoff Weight Limitation
3-3-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-3-1 ISA Conditions
**ON A/C A340-200 A340-300
FAR / JAR Takeoff Weight Limitation
1. This section gives the takeoff weight limitation at ISA conditions.
3-3-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
TAKE−OFF WEIGHT1000 lb1000 kg
RUNWAY LENGHT(1000 ft)
RUNWAY LENGHT(1000 m)
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
THES CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
640
145
165
185
205
225
245
265
285
FLAPS 3 FLAPS 1
0
F_AC_030301_1_0040101_01_00
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
2
4
6
8
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA Conditions -- CFM56-5C2 engine
FIGURE-3-3-1-991-004-A01
3-3-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
TAKE−OFF WEIGHT1000 lb1000 kg
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
0
FLAPS 2
580
600
620
640
145
165
185
205
225
245
265
285
FLAPS 3 FLAPS 1
NOTE: THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
2
F_AC_030301_1_0050101_01_00
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
4
6
8
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA Conditions -- CFM56-5C2 engine
FIGURE-3-3-1-991-005-A01
3-3-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
TAKE−OFF WEIGHT1000 lb1000 kg
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
RUNWAY LENGTH(1000 m)
RUNWAY LENGTH(1000 ft)
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
8
0
4
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
6
2
BRAKE ENERGY
V.M.C
LIMITATION
F_AC_030301_1_0060101_01_00
FAR / JAR Takeoff Weight LimitationISA Conditions -- CFM56-5C3 engine
FIGURE-3-3-1-991-006-A01
3-3-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
1000 lb1000 kg
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
F_AC_030301_1_0070101_01_00
TAKE−OFF WEIGHT
0
2
4
6
8 AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA Conditions -- CFM56-5C3 engine
FIGURE-3-3-1-991-007-A01
3-3-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
1000 lb1000 kg
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
F_AC_030301_1_0080101_01_00
TAKE−OFF WEIGHT
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)0
2
4
6
8
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA Conditions -- CFM56-5C4 engine
FIGURE-3-3-1-991-008-A01
3-3-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
1000 lb1000 kg
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
F_AC_030301_1_0090101_01_00
TAKE−OFF WEIGHT
8
6
4
2
0
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA Conditions -- CFM56-5C4 engine
FIGURE-3-3-1-991-009-A01
3-3-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-3-2 ISA +15˚C (ISA +27˚F) Conditions
**ON A/C A340-200 A340-300
ISA +15˚C (ISA +27˚F) Conditions
1. This section gives the takeoff weight limitation at ISA +15˚C (ISA +27˚F) conditions.
3-3-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
1000 lb1000 kg
RUNWAY LENGHT(1000 ft)
RUNWAY LENGHT(1000 m)
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
THES CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
640
145
165
185
205
225
245
265
285
FLAPS 3 FLAPS 1
F_AC_030302_1_0040101_01_00
TAKE−OFF WEIGHT
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)0
2
4
6
8
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA +15˚C (ISA +27˚F) Conditions -- CFM56-5C2 engine
FIGURE-3-3-2-991-004-A01
3-3-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
1000 lb1000 kg
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
640
145
165
185
205
225
245
265
285
FLAPS 3 FLAPS 1
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
F_AC_030302_1_0050101_01_00
TAKE−OFF WEIGHT
0
2
4
6
8
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA +15˚C (ISA +27˚F) Conditions -- CFM56-5C2 engine
FIGURE-3-3-2-991-005-A01
3-3-2Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
1000 lb1000 kg
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 m)
RUNWAY LENGTH(1000 ft)
F_AC_030302_1_0060101_01_00
TAKE−OFF WEIGHT
0
2
4
6
8 AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA +15˚C (ISA +27˚F) Conditions -- CFM56-5C3 engine
FIGURE-3-3-2-991-006-A01
3-3-2Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
F_AC_030302_1_0070101_01_00
1000 lb1000 kgTAKE−OFF WEIGHT
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
0
2
4
6
8
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA +15˚C (ISA +27˚F) Conditions -- CFM56-5C3 engine
FIGURE-3-3-2-991-007-A01
3-3-2Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
F_AC_030302_1_0080101_01_00
1000 lb1000 kgTAKE−OFF WEIGHT
0
2
4
6
8
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA +15˚C (ISA +27˚F) Conditions -- CFM56-5C4 engine
FIGURE-3-3-2-991-008-A01
3-3-2Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
NOTE:
320
340
360
380
400
420
440
460
480
500
520
540
560
4 6 8 10 12 14 16
1 1.5 2 2.5 3 3.5 4 4.5 5
FLAPS 2
580
600
620
145
165
185
205
225
245
265
FLAPS 3 FLAPS 1
640
660
285
680305
THESE CURVES ARE GIVEN FOR INFORMATIONONLY THE APPROVED VALUES ARE STATEDIN THE "OPERATING MANUALS" SPECIFIC TOTHE AIRLINE OPERATING THE AIRCRAFT
RUNWAY LENGTH(1000 ft)
RUNWAY LENGTH(1000 m)
F_AC_030302_1_0090101_01_00
1000 lb1000 kgTAKE−OFF WEIGHT
AIR
PO
RT
PR
ES
SU
RE
ALT
ITU
DE
(10
00 ft
)0
2
4
6
8
BRAKE ENERGY
V.M.C
LIMITATION
FAR / JAR Takeoff Weight LimitationISA +15˚C (ISA +27˚F) Conditions -- CFM56-5C4 engine
FIGURE-3-3-2-991-009-A01
3-3-2Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-4-0 FAR / JAR Landing Field Length
**ON A/C A340-200 A340-300
Landing Field Length
1. Landing Field Length
3-4-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-4-1 ISA Conditions All series engines
**ON A/C A340-200 A340-300
ISA Conditions All series engine
1. This section gives the landing field length.
3-4-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
345678
1
1.52
2.5
NO
TE
: TH
ES
E C
UR
VE
S A
RE
GIV
EN
FO
R IN
FO
RM
AT
ION
ON
LYT
HE
AP
PR
OV
ED
VA
LUE
S A
RE
ST
AT
ED
IN T
HE
"O
PE
RA
TIN
GM
AN
UA
LS"
SP
EC
IFIC
TO
TH
E A
IRLI
NE
OP
ER
AT
ING
TH
E A
IRC
RA
FT
.
GR
OS
S W
EIG
HT
(100
0 kg
)
GR
OS
S W
EIG
HT
(100
0 lb
)
(100
0 m
)(1
000
ft)
24
68
10S
EA
LE
VE
L
150
200
250
300
350
400
450
500
7510
012
515
017
520
025
050
225
ISA
CO
ND
ITIO
NS
AIR
FIE
LD E
LEV
AT
ION
(100
0 ft)
F.A
.R L
AN
DIN
G L
EN
GH
T
F_AC_030401_1_0040101_01_00
FAR / JAR Landing Field LengthISA Conditions -- CFM56-5C2 engine
FIGURE-3-4-1-991-004-A01
3-4-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
345678
1
1.52
2.5
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
GR
OS
S W
EIG
HT
(100
0 kg
)
GR
OS
S W
EIG
HT
(100
0 lb
)
24
68
10S
EA
LE
VE
L
150
200
250
300
350
400
450
500
7510
012
515
017
520
025
050
225
AIR
FIE
LD E
LEV
AT
ION
(100
0 ft)
F.A
.R L
AN
DIN
G L
EN
GH
T
F_AC_030401_1_0050101_01_00(100
0 m
)(1
000
ft)
ISA
CO
ND
ITIO
NS
FAR / JAR Landing Field LengthISA Conditions -- CFM56-5C2 engine
FIGURE-3-4-1-991-005-A01
3-4-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
345678
1
1.52
2.5
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
GR
OS
S W
EIG
HT
(100
0 kg
)
GR
OS
S W
EIG
HT
(100
0 lb
)
24
68
10S
EA
LE
VE
L
150
200
250
300
350
400
450
500
7510
012
515
017
520
025
050
225
AIR
FIE
LD E
LEV
AT
ION
(100
0 ft)
F.A
.R L
AN
DIN
G L
EN
GH
T
F_AC_030401_1_0060101_01_00
ISA
CO
ND
ITIO
NS
(100
0 m
)(1
000
ft)
FAR / JAR Landing Field LengthISA Conditions -- CFM56-5C3 engine
FIGURE-3-4-1-991-006-A01
3-4-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
345678
1
1.52
2.5
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
GR
OS
S W
EIG
HT
(100
0 kg
)
GR
OS
S W
EIG
HT
(100
0 lb
)
24
68
10S
EA
LE
VE
L
150
200
250
300
350
400
450
500
7510
012
515
017
520
025
050
225
AIR
FIE
LD E
LEV
AT
ION
(100
0 ft)
F.A
.R L
AN
DIN
G L
EN
GH
T
F_AC_030401_1_0070101_01_00(100
0 m
)(1
000
ft)
ISA
CO
ND
ITIO
NS
FAR / JAR Landing Field LengthISA Conditions -- CFM56-5C3 engine
FIGURE-3-4-1-991-007-A01
3-4-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
345678
1
1.52
2.5
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
GR
OS
S W
EIG
HT
(100
0 kg
)
GR
OS
S W
EIG
HT
(100
0 lb
)
24
68
10S
EA
LE
VE
L
150
200
250
300
350
400
450
500
7510
012
515
017
520
025
050
225
AIR
FIE
LD E
LEV
AT
ION
(100
0 ft)
F.A
.R L
AN
DIN
G L
EN
GH
T
F_AC_030401_1_0080101_01_00
ISA
CO
ND
ITIO
NS
(100
0 m
)(1
000
ft)
FAR / JAR Landing Field LengthISA Conditions -- CFM56-5C4 engine
FIGURE-3-4-1-991-008-A01
3-4-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
345678
1
1.52
2.5
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
GR
OS
S W
EIG
HT
(100
0 kg
)
GR
OS
S W
EIG
HT
(100
0 lb
)
24
68
10S
EA
LE
VE
L
150
200
250
300
350
400
450
500
7510
012
515
017
520
025
050
225
AIR
FIE
LD E
LEV
AT
ION
(100
0 ft)
F.A
.R L
AN
DIN
G L
EN
GH
T
F_AC_030401_1_0090101_01_00
(100
0 m
)(1
000
ft)
ISA
CO
ND
ITIO
NS
FAR / JAR Landing Field LengthISA Conditions -- CFM56-5C4 engine
FIGURE-3-4-1-991-009-A01
3-4-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-5-0 Final Approach Speed
**ON A/C A340-200 A340-300
Final Approach Speed
1. Final Approach Speed
3-5-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
3-5-1 Final Approach Speed
**ON A/C A340-200 A340-300
Final Approach Speed
1. This section gives the final approach speed.
3-5-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
C.A
.S (
Kts
)
GR
OS
S W
EIG
HT
(100
0 lb
)
GR
OS
S W
EIG
HT
(100
0 kg
)
320
360
400
440
480
520
560
600
120
130
140
150
160
170
180
160
180
200
220
240
260
280
300
140
LAN
DIN
G G
EA
R D
OW
NF
ULL
PO
SIT
ION
F_AC_030501_1_0060101_01_00
Final Approach SpeedCFM56-5C2 engine
FIGURE-3-5-1-991-006-A01
3-5-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
C.A
.S (
Kts
)
GR
OS
S W
EIG
HT
(100
0 lb
)
GR
OS
S W
EIG
HT
(100
0 kg
)
320
360
400
440
480
520
560
600
120
130
140
150
160
170
180
160
180
200
220
240
260
280
300
140
LAN
DIN
G G
EA
R D
OW
NF
ULL
PO
SIT
ION
1.3
VS
F_AC_030501_1_0070101_01_00
Final Approach SpeedCFM56-5C2 engine
FIGURE-3-5-1-991-007-A01
3-5-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
NO
TE
:
C.A
.S (
Kts
)
GR
OS
S W
EIG
HT
(100
0 lb
)
GR
OS
S W
EIG
HT
(100
0 kg
)
320
360
400
440
480
520
560
600
120
130
140
150
160
170
180
160
180
200
220
240
260
280
300
140
LAN
DIN
G G
EA
R D
OW
N1.
3 V
SC
ON
FIG
UR
AT
ION
6
TH
ES
E C
UR
VE
S A
RE
GIV
EN
FO
R IN
FO
RM
AT
ION
ON
LYT
HE
AP
PR
OV
ED
VA
LUE
S A
RE
ST
AT
ED
IN T
HE
"O
PE
RA
TIN
GM
AN
UA
LS"
SP
EC
IFIC
TO
TH
E A
IRLI
NE
OP
ER
AT
ING
TH
E A
IRC
RA
FT
.
F_AC_030501_1_0080101_01_00
Final Approach SpeedCFM56-5C3 engine
FIGURE-3-5-1-991-008-A01
3-5-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
NO
TE
:
C.A
.S (
Kts
)
GR
OS
S W
EIG
HT
(100
0 lb
)
GR
OS
S W
EIG
HT
(100
0 kg
)
320
360
400
440
480
520
560
600
120
130
140
150
160
170
180
160
180
200
220
240
260
280
300
140
TH
ES
E C
UR
VE
S A
RE
GIV
EN
FO
R IN
FO
RM
AT
ION
ON
LYT
HE
AP
PR
OV
ED
VA
LUE
S A
RE
ST
AT
ED
IN T
HE
"O
PE
RA
TIN
GM
AN
UA
LS"
SP
EC
IFIC
TO
TH
E A
IRLI
NE
OP
ER
AT
ING
TH
E A
IRC
RA
FT
.
LAN
DIN
G G
EA
R D
OW
N1.
3 V
SC
ON
FIG
UR
AT
ION
6
F_AC_030501_1_0090101_01_00
Final Approach SpeedCFM56-5C3 engine
FIGURE-3-5-1-991-009-A01
3-5-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
NO
TE
:T
HE
SE
CU
RV
ES
AR
E G
IVE
N F
OR
INF
OR
MA
TIO
N O
NLY
TH
E A
PP
RO
VE
D V
ALU
ES
AR
E S
TA
TE
D IN
TH
E "
OP
ER
AT
ING
MA
NU
ALS
" S
PE
CIF
IC T
O T
HE
AIR
LIN
E O
PE
RA
TIN
GT
HE
AIR
CR
AF
T.
C.A
.S (
Kts
)
GR
OS
S W
EIG
HT
(100
0 lb
)
GR
OS
S W
EIG
HT
(100
0 kg
)
LAN
DIN
G G
EA
R D
OW
NF
ULL
PO
SIT
ION
110
120
130
140
150
160
170
300
340
380
420
460
500
540
120
140
160
180
200
220
240
260
280
580
F_AC_030501_1_0100101_01_00
Final Approach SpeedCFM56-5C4 engine
FIGURE-3-5-1-991-010-A01
3-5-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
NO
TE
:
C.A
.S (
Kts
)
GR
OS
S W
EIG
HT
(100
0 lb
)
GR
OS
S W
EIG
HT
(100
0 kg
)
320
360
400
440
480
520
560
600
120
130
140
150
160
170
180
160
180
200
220
240
260
280
300
140
TH
ES
E C
UR
VE
S A
RE
GIV
EN
FO
R IN
FO
RM
AT
ION
ON
LYT
HE
AP
PR
OV
ED
VA
LUE
S A
RE
ST
AT
ED
IN T
HE
"O
PE
RA
TIN
GM
AN
UA
LS"
SP
EC
IFIC
TO
TH
E A
IRLI
NE
OP
ER
AT
ING
TH
E A
IRC
RA
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.
LAN
DIN
G G
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R D
OW
N1.
3 V
SC
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FIG
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ION
6
F_AC_030501_1_0110101_01_00
Final Approach SpeedCFM56-5C4 engine
FIGURE-3-5-1-991-011-A01
3-5-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
GROUND MANEUVERING
4-1-0 General Information
**ON A/C A340-200 A340-300
General Information
1. This section provides airplane turning capability and maneuvering characteristics.
For ease of presentation, this data has been determined from the theoretical limits imposed by thegeometry of the aircraft, and where noted, provides for a normal allowance for tire slippage. As such,it reflects the turning capability of the aircraft in favorable operating circumstances. This data shouldonly be used as guidelines for the method of determination of such parameters and for themaneuvering characteristics of this aircraft type.
In the ground operating mode, varying airline practices may demand that more conservative turningprocedures be adopted to avoid excessive tire wear and reduce possible maintenance problems. Airlineoperating techniques will vary in the level of performance, over a wide range of operatingcircumstances throughout the world. Variations from standard aircraft operating patterns may benecessary to satisfy physical constraints within the maneuvering area, such as adverse grades, limitedarea or high risk of jet blast damage. For these reasons, ground maneuvering requirements should becoordinated with the using airlines prior to layout planning.
4-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-2-0 Turning Radii
**ON A/C A340-200 A340-300
Turning Radii
1. This section gives the turning radii.
4-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
R5
R3
R4
R6
55°
60°
62°
F_AC_040200_1_0050101_01_01
Turning RadiiAll Models
FIGURE-4-2-0-991-005-A01
4-2-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
40.3132
mft
61.4201
44.4146
R6
51167
TAILR3 R4 R5
NLG WING NOSE
46.3° 45°36.8121
56.6186
41.2135
47.3155
51.9° 50°34
11252.5172
38.8127
44.3145
57.9° 55°31.8105
49161
36.9121
41.9137
65.1° 60°30.299
46151
35.5116
39.9131
68.4° 62°29.697
44.8147
35115
39.2129
mftmftmftmftmft
A340−300 TURNING RADII
41°
STEERING ANGLESTEERING EFFECTIVE
ANGLE
40°
TURNING RADII TABLE
NOTE: SYMMETRIC THRUST−NO BRAKING
F_AC_040200_1_0100101_01_00
Turning RadiiSteady State Turning RadiiFIGURE-4-2-0-991-010-A01
4-2-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
36.9121
mft
58.9193
41.1135
R6
45.4149
TAILR3 R4 R5
NLG WING NOSE
45°46.6°33.6110
54.5179
38.2125
41.8137
50°52.3°31.1102
50.8167
36118
38.9128
55°58.7°29.195
47.6156
34.3112
36.5120
60°66.3°27.590
44.8147
33108
34.5113
62°69.1°2789
43.7143
32.5107
33.8111
mftmftmftmftmft
A340−200 TURNING RADII
40°
STEERING ANGLESTEERING EFFECTIVE
ANGLE
41.2°
TURNING RADII TABLE
NOTE: SYMMETRIC THRUST−NO BRAKING
F_AC_040200_1_0110101_01_00
Turning RadiiSteady State Turning RadiiFIGURE-4-2-0-991-011-A01
4-2-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-3-0 Minimum Turning Radii
**ON A/C A340-200 A340-300
Minimum Turning Radii
1. This section gives the minimum turning radii.
4-3-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
R3
R4
R6
25.4 m(83.25 ft)
OUTSIDE FACEOF TIRE
2−SYMMETRIC THRUST−NO BRAKINGTYPE OF TURN:NOTE:
A
Y
MINIMUM TURNINGWIDTH
EFFECTIVETURN ANGLE R3 R4 R5 R6TYPE OF
TURN
2
Y A
13.6
44.6
49.5
162.4
29.6
97.1
44.8
147.1
35.0
114.9
39.2
128.562.0°
m
ft
R5
F_AC_040300_1_0030101_01_01
Minimum Turning RadiiFIGURE-4-3-0-991-003-A01
4-3-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
EFFECTIVETURN ANGLE R3 R4 R5 R6TYPE OF
TURN
2
Y A
2−SYMMETRIC THRUST−NO BRAKINGTYPE OF TURN:NOTE:
12.5
40.9
45.8
150.2
27.0
88.7
43.7
143.4
32.5
106.8
33.8
110.862.0°
m
ft
R3
R4
R6
23.2 m(76.25 ft)
OUTSIDE FACEOF TIRE
A
Y
MINIMUM TURNINGWIDTH
R5
F_AC_040300_1_0040101_01_01
Minimum Turning RadiiFIGURE-4-3-0-991-004-A01
4-3-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-4-0 Visibility from Cockpit in Static Position
**ON A/C A340-200 A340-300
Visibility from Cockpit in Static Position
1. This section gives the visibility from cockpit in static position.
4-4-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
62°
0.53 m1 ft 9 in
36°30°
42°
30°36°
62°
42°
NOTEPILOT’S EYEPOSITION
7 ft 10.7 in2.40 m
45 ft 1.3 in13.75 m
21 ft 10.6 in6.67 m
19° 20’
25°
135°
PILOT’S EYE POSITION
111°
115°
135°
F_AC_040400_1_0040101_01_00
Visibility from Cockpit in Static PositionFIGURE-4-4-0-991-004-A01
4-4-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-5-0 Runway and Taxiway Turn Paths
**ON A/C A340-200 A340-300
Runway and Taxiway Turn Paths
1. Runway and Taxiway Turn Paths.
4-5-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-5-1 135˚ Turn - Runway to Taxiway
**ON A/C A340-200 A340-300
135˚ Turn - Runway to Taxiway
1. This section gives the 135˚ turn - runway to taxiway.
4-5-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
FAA LEAD−IN FILLET
L = 75 m (250 ft)
(15 ft)APPROX 4.5 m
APPROX 11.7 m(39 ft)
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
45 m(150 ft)
23 m(75 ft)
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
NLG PATH
MLG PATH
F_AC_040501_1_0030101_01_01
135˚ Turn - Runway to TaxiwayJudgemental Oversteering Method
FIGURE-4-5-1-991-003-A01
4-5-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
APPROX 2 m(7 ft)
ADDITIONAL FILLET TO MEET4.5 m (15 ft) EDGE CLEARANCE
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
45 m(150 ft)
FAA LEAD−IN FILLET
L = 75 m (250 ft)
23 m(75 ft)
F_AC_040501_1_0080101_01_00
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
NLG PATH
MLG PATH
135˚ Turn - Runway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-1-991-008-A01
4-5-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
45 m(150 ft)
APPROX 10.8 m(35 ft)
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
APPROX 6.4 m(21 ft)
23 m(75 ft)
FAA LEAD−IN FILLET
L = 75 m (250 ft)
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
NLG PATH
MLG PATH
F_AC_040501_1_0090101_01_00
135˚ Turn - Runway to TaxiwayJudgemental Oversteering Method
FIGURE-4-5-1-991-009-A01
4-5-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
APPROX 3.4 m(11 ft)
ADDITIONAL FILLET TO MEET
4.5 m (15 ft) EDGE CLEARANCE
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
FAA LEAD−IN FILLET
L = 75 m (250 ft)
45 m150 ft
23 m(75 ft)
F_AC_040501_1_0100101_01_00
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
NLG PATH
MLG PATH
135˚ Turn - Runway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-1-991-010-A01
4-5-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-5-2 90˚ Turn - Runway to Taxiway
**ON A/C A340-200 A340-300
90˚ Turn - Runway to Taxiway
1. This section gives the 90˚ turn - runway to taxiway.
4-5-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
FAA LEAD−IN FILLETL = 75 m (250 ft)
(41 ft)APPROX 12.3 m
(44 ft)APPROX 13.2 m
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
45 m(150 ft)
F_AC_040502_1_0030101_01_01
23 m(75 ft)
NLG PATH
MLG PATH
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
F_AC_040502_1_0030101_01_01
90˚ Turn - Runway to TaxiwayJudgement Oversteering Method
FIGURE-4-5-2-991-003-A01
4-5-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(18 ft)APPROX 5.4 m
FILLET R = 25.5 m(85 ft)
FAA LEAD−IN FILLETL = 75 m (250 ft)
45 m(150 ft)
TURN R = 45 m(150 ft)
23 m(75 ft)
NLG PATH
MLG PATH
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
F_AC_040502_1_0100101_01_00
90˚ Turn - Runway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-2-991-010-A01
4-5-2Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
45 m(150 ft)
FILLET R = 25.5 m(85 ft)
(44 ft)APPROX 13.3 m
FAA LEAD−IN FILLETL = 75 m (250 ft)
(42 ft)APPROX 12.7 m
TURN R = 45 m(150 ft)
23 m(75 ft)
NLG PATH
MLG PATH
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
F_AC_040502_1_0110101_01_00
90˚ Turn - Runway to TaxiwayJudgement Oversteering Method
FIGURE-4-5-2-991-011-A01
4-5-2Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
FAA LEAD−IN FILLETL = 75 m (250 ft)
(27 ft)APPROX 8 m
FILLET R = 25.5 m(85 ft)
45 m(150 ft)
TURN R = 45 m(150 ft)
23 m(75 ft)
NLG PATH
MLG PATH
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
F_AC_040502_1_0120101_01_00
90˚ Turn - Runway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-2-991-012-A01
4-5-2Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-5-3 180˚ Turn on a Runway
**ON A/C A340-200 A340-300
180˚ Turn on a Runway
1. This section gives the 180˚ turn on a runway.
4-5-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
NOTE:
58.5 m(192 ft)
49.5 m(162.4 ft)
R = 44.8 m(147 ft)
R = 39.1 m
(128.4 ft)
R = 35 m
(114.8 ft)
0.9 m(3 ft)
14.7 m
(48.2 ft)
20.3 m(66.7 ft)
4.6 m
(15 ft)
68.4° NOSE WHEEL STEERING ANGLE.29.6 (97.1) NLG RAD.
4.6 m(15 ft)
NLG PATH
MLG PATH
RUNWAYCENTERLINE
F_AC_040503_1_0050101_01_01
180˚ Turn on a Runway180˚ Turn on a 202 ft Wide Runway
FIGURE-4-5-3-991-005-A01
4-5-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0.9 m(3 ft)
R = 35 m(114.8 ft)
20.2 m(66.4 ft)
14.6 m(47.9 ft)
R = 39.1 m(128.4 ft)
R = 44.8 m(147 ft)
4.6 m(15 ft)
(15 ft)4.6 m
58.6 m(192.3 ft)
49.6 m(162.7 ft)
NOTE: 68.4° NOSE WHEEL STEERING ANGLE.29.6 (97.1) NLG RAD.
NLG PATH
MLG PATH
RUNWAYCENTERLINE
F_AC_040503_1_0060101_01_01
180˚ Turn on a Runway180˚ Turn on a 203 ft Wide Runway
FIGURE-4-5-3-991-006-A01
4-5-3Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
NOTE: 69.0° NOSE WHEEL STEERING ANGLE.27.0 (88.7) NLG RAD.
0.9 m(3 ft)
55 m(180.4 ft)
45.8 m(150.4 ft)
R = 32.6 m(106.8 ft)
20.4 m(66.8 ft)
13.4 m(44.1 ft)
R = 36.8 m
(120.6 ft)
R = 43.7 m(143.3 ft)
4.6 m(15 ft)
(15 ft)4.6 m
NLG PATH
MLG PATH
RUNWAYCENTERLINE
F_AC_040503_1_0070101_01_01
180˚ Turn on a Runway180˚ Turn on a 194 ft Wide Runway
FIGURE-4-5-3-991-007-A01
4-5-3Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
R = 43.7 m(143.3 ft)
R = 36.8 m(120.6 ft)
R = 32.6 m(106.8 ft)
0.9 m(3 ft)
13.4 m(44.1 ft)
20.3 m(66.8 ft)
4.6 m(15 ft)
4.6 m(15 ft)
NOTE:
55 m(180.4 ft)
45.8 m(150.4 ft)
69.0° NOSE WHEEL STEERING ANGLE.27.0 (88.7) NLG RAD.
NLG PATH
MLG PATH
RUNWAYCENTERLINE
F_AC_040503_1_0080101_01_01
180˚ Turn on a Runway180˚ Turn on a 194 ft Wide Runway
FIGURE-4-5-3-991-008-A01
4-5-3Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-5-4 135˚ Turn - Taxiway to Taxiway
**ON A/C A340-200 A340-300
135˚ Turn - Taxiway to Taxiway
1. This section gives the 135˚ turn - taxiway to taxiway
4-5-4Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
TURN R = 45 m(150 ft)
FILLET R = 25.5 m(85 ft)
APPROX 12.9 m(43 ft)
APPROX 4.5 m(15 ft)
FAA LEAD−IN FILLET
L = 75 m (250 ft)
TAXIWAY CENTERLINE
TAXIWAY CENTERLINE
NLG PATH
MLG PATH
(75 ft)23 m
23 m(75 ft)
F_AC_040504_1_0090101_01_00
135˚ Turn - Taxiway to TaxiwayJudgemental Oversteering Method
FIGURE-4-5-4-991-009-A01
4-5-4Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
FILLET R = 25.5 m(85 ft)
FAA LEAD−IN FILLET
L = 75 m (250 ft)
APPROX 3.5 m(12 ft)
ADDITIONAL FILLET TO MEET4.5 m (15 ft) EDGE CLEARANCE
TAXIWAY CENTERLINE
TAXIWAY CENTERLINE
23 m(75 ft)
(75 ft)23 m
TURN R = 45 m(150 ft)
NLG PATH
MLG PATH
F_AC_040504_1_0100101_01_00
135˚ Turn - Taxiway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-4-991-010-A01
4-5-4Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
APPROX 13 m(43 ft)
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
TAXIWAY CENTERLINE
APPROX 5.1 m(17 ft)
FAA LEAD−IN FILLET
L = 75 m (250 ft)
(75 ft)23 m
TAXIWAY CENTERLINE
NLG PATH
MLG PATH
23 m(75 ft)
F_AC_040504_1_0110101_01_00
135˚ Turn - Taxiway to TaxiwayJudgemental Oversteering Method
FIGURE-4-5-4-991-011-A01
4-5-4Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
FILLET R = 25.5 m(85 ft)
APPROX 5.2 m(17 ft)
TAXIWAY CENTERLINE
FAA LEAD−IN FILLET
L = 75 m (250 ft)
23 m(75 ft)
TAXIWAY CENTERLINE
(75 ft)23 m
NLG PATH
MLG PATH
TURN R = 45 m(150 ft)
F_AC_040504_1_0120101_01_00
135˚ Turn - Taxiway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-4-991-012-A01
4-5-4Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-5-5 90˚ Turn - Taxiway to Taxiway
**ON A/C A340-200 A340-300
90˚ Turn - Taxiway to Taxiway
1. This section gives the 90˚ turn - taxiway to taxiway.
4-5-5Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(40 ft)APPROX 12 m
FAA LEAD−IN FILLETL = 75 m (250 ft)
TAXIWAY CENTERLINE(43 ft)APPROX 12.9 m
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
TAXIWAY CENTERLINE
23 m(75 ft)
(75 ft)23 m NLG PATH
MLG PATH
F_AC_040505_1_0050101_01_01
90˚ Turn - Taxiway to TaxiwayJudgement Oversteering Method
FIGURE-4-5-5-991-005-A01
4-5-5Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
FAA LEAD−IN FILLETL = 75 m (250 ft)
(14 ft)APPROX 4.1 m
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
4.5 m (15 ft) EDGE CLEARANCEADDITIONAL FILLET TO MEET
TAXIWAY CENTERLINE
23 m(75 ft)
TAXIWAY CENTERLINE
(75 ft)23 m
NLG PATH
MLG PATHF_AC_040505_1_0130101_01_00
90˚ Turn - Taxiway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-5-991-013-A01
4-5-5Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
(44 ft)APPROX 13.1 m
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
(41 ft)APPROX 12.4 m
FAA LEAD−IN FILLETL = 75 m (250 ft)
TAXIWAY CENTERLINE
(75 ft)23 m NLG PATH
MLG PATH
23 m(75 ft)
TAXIWAY CENTERLINE
F_AC_040505_1_0060101_01_02
90˚ Turn - Taxiway to TaxiwayJudgement Oversteering Method
FIGURE-4-5-5-991-006-A01
4-5-5Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
FAA LEAD−IN FILLETL = 75 m (250 ft)
(24 ft)APPROX 7.1 m
FILLET R = 25.5 m(85 ft)
TURN R = 45 m(150 ft)
TAXIWAY CENTERLINE
(75 ft)23 m
NLG PATH
MLG PATH
TAXIWAY CENTERLINE
23 m(75 ft)
F_AC_040505_1_0140101_01_00
90˚ Turn - Taxiway to TaxiwayCockpit Over Centerline Method
FIGURE-4-5-5-991-014-A01
4-5-5Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-6-0 Runway Holding Bay (Apron)
**ON A/C A340-200 A340-300
Runway Holding Bay (Apron)
1. This section gives the runway holding bay (Apron).
4-6-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
NOTE : 20° NOSE WHEEL STEERING ANGLE.COORDINATE WITH USING AIRPLANE FOR SPECIFIC
6.1 m(20 ft)
6.1 m(20 ft)
45 m(150 ft)
12.2 m(40 ft)
HOLDINGPOINT
RUNWAYCENTERLINE
TAXIWAYCENTERLINE
PLANNED OPERATING PROCEDURES.
190 m(625 ft)
97.3 m(319 ft)
90 m(300 ft)
23 m(75 ft)
F_AC_040600_1_0030101_01_02
Runway Holding Bay (Apron)FIGURE-4-6-0-991-003-A01
4-6-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
4-7-0 Airplane Parking
**ON A/C A340-200 A340-300
Airplane Parking
1. The following figures and charts show the rectangular space required for parking against the terminalbuilding.
The rectangle includes allowance for swinging the airplane on arrival and departure.- Steering Geometry- Minimum Parking Space Requirements
4-7-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
73.85
PARKING45° ENTRY PUSH OUT
PARKINGSTRAIGHT ENTRY PUSH BACK
PARKING90° ENTRY PUSH OUT
67.2356
.53 68
.26
82.5
7
96.76
F_AC_040700_1_0070101_01_01
Airplane ParkingSteering Geometry
FIGURE-4-7-0-991-007-A01
4-7-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
PARKINGPARALLEL IN POWER OUT
PARKING45° ENTRY POWER OUT
73.8
5
95.89
72.0
2
100.77
F_AC_040700_1_0080101_01_01
Airplane ParkingSteering Geometry
FIGURE-4-7-0-991-008-A01
4-7-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
10
20
30
40
50
60
70
80
90
100
0 10 20 30 40 50 60 70 80 90 100 110
0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340
DISTANCE ALONG TERMINAL (m)
DISTANCE ALONG TERMINAL (ft)
(m)
DISTANCE OUTFROM TERMINAL
STRAIGHT ENTRY PUSH BACK
45° ENTRY PUSH OUT
PARALLEL IN POWER OUT
90° ENTRY PUSH OUT
45° ENTRY POWER OUT
(ft)
F_AC_040700_1_0090101_01_00
Airplane ParkingMinimum Parking Space Requirements
FIGURE-4-7-0-991-009-A01
4-7-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
65.72 73.85
66.1
3
55.0
2
PARKING45° ENTRY PUSH OUT
PARKINGSTRAIGHT ENTRY PUSH BACK
93.76
80.4
3
PARKING90° ENTRY PUSH OUT
F_AC_040700_1_0100101_01_01
Airplane ParkingSteering Geometry
FIGURE-4-7-0-991-010-A01
4-7-0Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
PARKINGPARALLEL IN POWER OUT
PARKING45° ENTRY POWER OUT
73.8
5
70.8
7
95.89
96.86
F_AC_040700_1_0110101_01_01
Airplane ParkingSteering Geometry
FIGURE-4-7-0-991-011-A01
4-7-0Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0
20
40
60
80
100
120
140
160
180
200
220
240
260
280
300
10
20
30
40
50
60
70
80
90
100
0 10 20 30 40 50 60 70 80 90 100 110
20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340
DISTANCE ALONG TERMINAL (m)
DISTANCE ALONG TERMINAL (ft)
(m)
DISTANCE OUTFROM TERMINAL
0
45° ENTRY PUSH OUT
STRAIGHT ENTRY PUSH BACK
PARALLEL IN POWER OUT
90° ENTRY PUSH OUT
45° ENTRY POWER OUT
F_AC_040700_1_0120101_01_00
(ft)
Airplane ParkingMinimum Parking Space Requirements
FIGURE-4-7-0-991-012-A01
4-7-0Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
TERMINAL SERVICING
5-0-0 TERMINAL SERVICING
**ON A/C A340-200 A340-300
TERMINAL SERVICING
1. Terminal servicing
This chapter provides typical ramp layouts, corresponding minimum turnaround time estimations,locations of ground service points and service requirements.The information given in this chapter reflects ideal conditions. Actual ramp layouts and servicerequirements may vary according to local regulations, airline procedures and the airplane condition.
Section 5.1 shows typical ramp layouts for passenger aircraft at the gate or on an Open Apron andfreighter aircraft on an Open Apron.
Section 5.2 shows the minimum turnaround schedules for full servicing arrangements (turnroundstations).
Section 5.3 shows the minimum turnaround schedule for reduced servicing arrangements (en routestations).
Section 5.4 gives the locations of ground service connections, the standard of connections used andtypical capacities and requirements.
Section 5.5 provides the engine starting pneumatic requirements for different engine types anddifferent ambient temperatures.
Section 5.6 provides the air conditioning requirements for heating and cooling (pull-down and pull-up)using ground conditioned air for different ambient temperatures.
Section 5.7 provides the air conditioning requirements for heating and cooling to maintain a constantcabin air temperature using low pressure conditioned air.
Section 5.8 shows the ground towing requirements taking into account different ground surface andaircraft conditions.
5-0-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-1-0 Airplane Servicing Arrangements
**ON A/C A340-200 A340-300
Airplane Servicing Arrangements
1. This section provides typical ramp layouts, showing the various GSE items in position during typicalturnaround scenarios for the passenger aircraft.
These ramp layouts show typical arrangements only. Each operator will have its own specificrequirements/regulations for the positioning and operation on the ramp.
The associated turnaround station is given in the section 5-2-1 for Full Servicing Turn Round Charts.The associated minimum turnaround time for Transit Turn Round Charts is given in a section 5-3-1.
5-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-1-1 Symbols Used on Servicing Diagrams
**ON A/C A340-200 A340-300
Symbols Used on Servicing Diagrams
1. This table gives the symbols used on servicing diagrams.
Ground Support Equipment
AC AIR CONDITIONING UNITAS AIR START UNIT
CAT CATERING TRUCKCB CONVEYOR BELT
CLEAN CLEANING TRUCKFUEL FUEL HYDRANT DISPENSER or TANKERGPU GROUND POWER UNIT
LD CL LOWER DECK CARGO LOADERLV LAVATORY VEHICLE
MD CL MAIN DECK CARGO LOADERPBB PASSENGER BOARDING BRIDGE
PS PASSENGER STAIRSTOW TOW TRACTORULD ULD TRAINWV POTABLE WATER VEHICLE
5-1-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-1-2 Loading (Open Apron)
**ON A/C A340-200 A340-300
Loading (Open Apron)
1. This section gives the typical ramp layout for the passenger aircraft on an Open Apron.
5-1-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
PS CAT
PS CAT
PS CAT
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
AS
GPU
LD CL
LD CL
AC
F_AC_050102_1_0030101_01_01
ULD
FUELFUEL
LV
CB
ULD
BULKWV
TOW
Airplane Servicing ArrangementsTypical Ramp Layout (Open Apron)
FIGURE-5-1-2-991-003-A01
5-1-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
PS
PS
CAT
CAT
PS CAT
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
TOW
AS
GPU
LD CL
LD CL
AC
F_AC_050102_1_0040101_01_01
ULD
ULD
BULKCBWV
LV
FUELFUEL
Airplane Servicing ArrangementsTypical Ramp Layout (Open Apron)
FIGURE-5-1-2-991-004-A01
5-1-2Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-1-3 Loading (Passenger Bridge)
**ON A/C A340-200 A340-300
Loading (Passenger Bridge)
1. This section gives the typical ramp layout for the passenger aircraft at a gate with 2 passengerboarding bridges.
5-1-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
CLEAN
CAT
CAT
CAT
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
TOW
AS
GPU
LD CL
LD CL
AC
ULD
ULD
BULKCB
LV
FUELFUEL
PBB
PBB
F_AC_050103_1_0020101_01_01
WV
Airplane Servicing ArrangementsTypical Ramp Layout (gate area)
FIGURE-5-1-3-991-002-A01
5-1-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
CLEAN
WV
CAT
CAT
CAT
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
AS
GPU
LD CL
LD CL
AC
ULD
FUELFUEL
LV
CB
ULD
BULK
TOW
F_AC_050103_1_0030101_01_01
PBB
PBB
Airplane Servicing ArrangementsTypical Ramp Layout (gate area)
FIGURE-5-1-3-991-003-A01
5-1-3Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-2-0 Terminal Operations
**ON A/C A340-200 A340-300
Terminal Operations - Full Servicing Turn Round Charts
1. This section provides a series of charts showing typical activities during turnaround at destinationairports.
This data is provided to show the general scope and type of activities involved in ramp operationsduring the turnaround of an aircraft.
Varying Airline practices and operating circumstances may result in different sequences and differenttime intervals to do the activities shown.
5-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-2-1 Type A and Type B Turn around Charts
**ON A/C A340-200 A340-300
Full Servicing Turn Round Charts
**ON A/C A340-200
1. Assumptions for full servicing turn round chart.
A. PASSENGER BOARDING/DEBOARDING (PB/D)
Deboarding : 231 passengers (10 first + 42 business + 179 tourists)- For full servicing, all passengers deboard and board- Doors used: L1 + L2- Deboarding:
- 104 pax at L1 (10 first + 42 business + 52 tourists) and 127 pax at L2- Deboarding rate = 25 pax/min- Priority deboarding for premium passengers
- Boarding:- 52 pax at L1 and 179 pax at L2- Boarding rate = 15 pax/min
- Last Pax Seating Allowance (LPS) + headcounting = + 4 min
B. CARGO- 6 LD3 + 2 pallets for AFT CC- 8 LD3 + 2 pallets for FWD CC- 1 000 kg (2 205 lb) in Bulk CC- LD-3 off-loading/loading times:
- off-loading = 1.2 min/LD-3- loading = 1.4 min/LD-3
- Pallet loading times:- off-loading = 2.4 min/pallet- loading = 2.8 min/pallet
- Bulk off-loading/loading times:- off-loading = 9.2 min/t- loading = 10.5 min/t
C. REFUELLING- Block fuel for Nominal Range through 4 nozzles- 127 000 l (33 550 US gal) at 50 psi- Dispenser positioning or removal = 3 min (fuel truck change) / if any = 5 min
D. CLEANING- Cleaning is performed in available time
5-2-1Page 1
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@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
E. CATERING- 3 catering vehicles- 36 Full size trolley: 7 FST at R1, 9 FST at R2 and 20 FST at R4- FST exchange time = 1.5 min/FST
F. GROUND HANDLING/SERVICING- Start of operations :
(1) Bridges = t0 = 0(2) Others = t0 + 1 min
- Vehicle positioning/removal = 2 min (fuel truck excluded)- Ground Power Unit (GPU) = up to 2 × 90 kVA- Air conditioning = two carts- Potable water servicing: replenish 700 l (185 US gal); flow rate: 60 l/min (15.85 US
gal/min)- Waste water servicing (draining + rinsing): discharge 700 l (185 US gal)- Dollies per tractor = 4
**ON A/C A340-300
2. Assumptions for full servicing turn round chart.
A. PASSENGER BOARDING/DEBOARDING (PB/D)
Deboarding : 270 passengers (10 first + 28 business + 232 tourists)- For full servicing, all passengers deboard and board- Doors used: L1 + L2- Deboarding:
- 130 pax at L1 (10 first + 28 business + 92 tourists) and 140 pax at L2- Deboarding rate = 25 pax/min- Priority deboarding for premium passengers
- Boarding:- 38 pax at L1 and 232 pax at L2- Boarding rate = 15 pax/min
- Last Pax Seating Allowance (LPS) + headcounting = + 4 min
B. CARGO- 8 LD3 + 2 pallets for AFT CC- 12 LD3 + 2 pallets for FWD CC- 1 000 kg (2 205 lb) in Bulk CC- LD-3 off-loading/loading times:
- off-loading = 1.2 min/LD-3- loading = 1.4 min/LD-3
- Pallet loading times:- off-loading = 2.4 min/pallet- loading = 2.8 min/pallet
5-2-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
- Bulk off-loading/loading times:- off-loading = 9.2 min/t- loading = 10.5 min/t
C. REFUELLING- Block fuel for Nominal Range through 4 nozzles- 127 000 l (33 550 US gal) at 50 psi- Dispenser positioning or removal = 3 min (fuel truck change) / if any = 5 min
D. CLEANING- Cleaning is performed in available time
E. CATERING- 3 catering vehicles- 48 Full size trolley: 10 FSTE at R1, 13 FSTE at R2 and 25 FST at R4- FST exchange time = 1.5 min/FST
F. GROUND HANDLING/SERVICING- Start of operations :
(1) Bridges = t0 = 0(2) Others = t0 + 1 min
- Vehicle positioning/removal = 2 min (fuel truck excluded)- Ground Power Unit (GPU) = up to 2 × 90 kVA- Air conditioning = two carts- Potable water servicing: replenish 700 l (185 US gal); flow rate: 60 l/min (15.85 US
gal/min)- Waste water servicing (draining + rinsing): discharge 700 l (185 US gal)- Dollies per tractor = 4
5-2-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0 10 20 30 40 50 60 70
DEBOARDING/BOARDING AT L1
HEADCOUNTING
CATERING AT R1
CLEANING
CARGO FWD CC
BULK
REFUELLING
POTABLE WATER SERVICING
TOILET SERVICING
DEBOARDING/BOARDING AT L2
CATERING AT R2
CATERING AT R4
CARGO AFT CC
TRT : 59 min
POSITIONING/REMOVAL
ACTIVITY
AVAILABLE TIME
F_AC_050201_1_0060101_01_01
Turn around chartsTurn Round Time 59 min.FIGURE-5-2-1-991-006-A01
5-2-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0 10 20 30 40 50 60 70
DEBOARDING/BOARDING AT L1
HEADCOUNTING
CATERING AT R1
CLEANING
CARGO FWD CC
BULK
REFUELLING
POTABLE WATER SERVICING
TOILET SERVICING
DEBOARDING/BOARDING AT L2
CATERING AT R2
CATERING AT R4
CARGO AFT CC
TRT : 70 min
POSITIONING/REMOVAL
ACTIVITY
AVAILABLE TIME
F_AC_050201_1_0070101_01_01
80
Turn around chartsTurn Round Time 70 min.FIGURE-5-2-1-991-007-A01
5-2-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-3-0 Terminal Operation - en route station
**ON A/C A340-200 A340-300
Terminal Operations - Transit Turn Round Charts
1. This section provides a series of charts showing typical activities during turnaround at transit airports.
This data is provided to show the general scope and type of activities involved in ramp operationsduring the turnaround of an aircraft.
Varying Airline practices and operating circumstances may result in different sequences and differenttime intervals to do the activities shown.
5-3-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-3-1 Type C Turn around Chart
**ON A/C A340-200 A340-300
Transit Turn Round Charts
**ON A/C A340-200
1. Assumptions for transit turn round chart.
A. PASSENGER BOARDING/DEBOARDING (PB/D)
Deboarding : 231 passengers (10 first + 42 business + 179 tourists)- 50% pax in transit, all passengers deboard and board- Doors used: L1 + L2- Deboarding:
- 104 pax at L1 (10 first + 42 business and 52 tourists) and 127 pax at L2- Deboarding rate = 25 pax/min- Priority deboarding for premium passengers
- Boarding:- 52 pax at L1 and 179 pax at L2- Boarding rate = 15 pax/min
- Last Pax Seating Allowance (LPS) + headcounting = + 4 min
B. CARGO
For transit, 50% of luggages are exchanged in one cargo compartment only- 1 container loader for AFT CC- 4 LD3 for AFT CC- LD-3 off-loading/loading times:
- off-loading = 1.2 min/LD-3- loading = 1.4 min/LD-3
C. REFUELLING- Refueling through 2 nozzles- For transit, fuel uplift is 30% of maximum fuel uplift. (Max = 155 040 l (40 957 US gal))
Note: local rules and regulations to be respected- Passengers boarding can start before refuel is finished- Dispenser positioning or removal = 3 min (fuel truck change) / if any = 5 min
D. CLEANING- Cleaning is performed in available time
E. CATERING- Time needed just for additional meals- Assumptions: 10 min
5-3-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
F. GROUND HANDLING/SERVICING- Start of operations :
(1) Bridges = t0 = 0(2) Others = t0 + 1 min
- Vehicle positioning/removal = 2 min (fuel truck excluded)- Ground Power Unit (GPU) = up to 2 × 90 kVA- Air conditioning = two carts- No potable water servicing- No waste water servicing- Dollies per tractor = 4
**ON A/C A340-300
2. Assumptions for transit turn round chart.
A. PASSENGER BOARDING/DEBOARDING (PB/D)
Deboarding :270 passengers (10 first + 28 business + 232 tourists)- 50% pax in transit, all passengers deboard and board- Doors used: L1 + L2- Deboarding:
- 130 pax at L1 (10 first + 28 business and 92 tourists) and 140 pax at L2- Deboarding rate = 25 pax/min- Priority deboarding for premium passengers
- Boarding:- 38 pax at L1 and 232 pax at L2- Boarding rate = 15 pax/min
- Last Pax Seating Allowance (LPS) + headcounting = + 4 min
B. CARGO
For transit, 50% of luggages are exchanged in one cargo compartment only- 1 container loader for AFT CC- 4 LD3 for AFT CC- LD-3 off-loading/loading times:
- off-loading = 1.2 min/LD-3- loading = 1.4 min/LD-3
C. REFUELLING- Refueling through 2 nozzles- For transit, fuel uplift is 30% of maximum fuel uplift. (Max = 141 500 l (37 380 US gal))
Note: local rules and regulations to be respected- Passengers boarding can start before refuel is finished- Dispenser positioning or removal = 3 min (fuel truck change) / if any = 5 min
5-3-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
D. CLEANING- Cleaning is performed in available time
E. CATERING- Time needed just for additional meals- Assumptions: 10 min
F. GROUND HANDLING/SERVICING- Start of operations :
(1) Bridges = t0 = 0(2) Others = t0 + 1 min
- Vehicle positioning/removal = 2 min (fuel truck excluded)- Ground Power Unit (GPU) = up to 2 × 90 kVA- Air conditioning = two carts- No potable water servicing- No waste water servicing- Dollies per tractor = 4
5-3-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
0 5 15 20 25 30 35 40
DEBOARDING/BOARDING AT L1
HEADCOUNTING
CATERING AT R1
CLEANING
CARGO FWD CC
BULK
REFUELLING
POTABLE WATER SERVICING
TOILET SERVICING
DEBOARDING/BOARDING AT L2
CATERING AT R2
CATERING AT R4
CARGO AFT CC
TRT : 39 min
POSITIONING/REMOVAL
ACTIVITY
10 45
AVAILABLE TIME
F_AC_050301_1_0040101_01_01
Transit Turn Round ChartsTurn Round Time 39 min.FIGURE-5-3-1-991-004-A01
5-3-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0 5 15 20 25 30 35 40
DEBOARDING/BOARDING AT L1
HEADCOUNTING
CATERING AT R1
CLEANING
CARGO FWD CC
BULK
REFUELLING
POTABLE WATER SERVICING
TOILET SERVICING
DEBOARDING/BOARDING AT L2
CATERING AT R2
CATERING AT R4
CARGO AFT CC
TRT : 43 min
POSITIONING/REMOVAL
ACTIVITY
10 45
AVAILABLE TIME
F_AC_050301_1_0050101_01_01
Transit Turn Round ChartsTurn Round Time 43 min.FIGURE-5-3-1-991-005-A01
5-3-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-0 Ground Service Connections
**ON A/C A340-200 A340-300
Ground Service Connections
1. Ground Service Connections.
5-4-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-1 Ground Service Connections Layout
**ON A/C A340-200 A340-300
Ground Service Connections Layout
1. This section gives the ground service connections layout.
Ground Service Connections Layout
1 -- OXYGEN SYSTEM2 -- EXTERNAL POWER (ELECTRICAL)
3 -- POTABLE WATER DRAIN4 -- LOW PRESSURE PRE-CONDITIONING5 -- HIGH PRESSURE AIR PRE-CONDITIONING AND ENGINE STARTING6 -- IDG OIL FILLING7 -- ENGINE OIL FILLING8 -- PRESSURE REFUEL9 -- OVERWING REFUEL10 -- HYDRAULIC GROUND POWER SUPPLY (YELLOW)
11 -- HYD RESERVOIR FILLING AND GROUND POWER SUPPLY (GREEN)
12 -- HYD RESERVOIR AIR PRESSURIZATION & GROUND POWER SUPPLY (BLUE)
13 -- NITROGEN CHARGING FOR HYDRAULIC ACCUMULATORS14 -- REFUEL/DEFUEL PANEL
15 -- POTABLE WATER FILLING16 -- TOILET SERVICING17 -- APU OIL FILLING18 -- GROUNDING POINTS
5-4-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
1 2 3 4 5 6 7 1012
8 9
6 3
8
9
9
8
1 2 3 4
5
12
10
1113
7
6
7
7
6
6
7
13
11
15 16 17
14 3 15
16
17
18 7
18
18
18
18
18
18
6
F_AC_050401_1_0030101_01_00
Ground Service ConnectionsGround Service Connections Layout
FIGURE-5-4-1-991-003-A01
5-4-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-2 Grounding Points
**ON A/C A340-200 A340-300
Grounding Points
**ON A/C A340-300
1. Grounding Points.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
On Nose Landing Gear leg:6.57 m(21.56 ft) on centerline
1.40 m(4.59 ft)
On left Main Landing Gearleg:
31.58 m(103.61 ft)
5.34 m(17.52 ft)
1.50 m(4.92 ft)
On right Main LandingGear leg:
31.58 m(103.61 ft)
5.34 m(17.52 ft)
1.50 m(4.92 ft)
A. The grounding stud on each landing gear leg is designed for use with a clip-on connector (suchas Appleton TGR).
B. The grounding studs are used to connect the aircraft to an approved ground connection on theramp or in the hangar for:- refuel/defuel operations.- maintenance operations.- bad weather conditions.
NOTE : In all other conditions, the electrostatic discharge through the tyre is sufficient.
**ON A/C A340-200
2. Grounding Points.
5-4-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
On Nose Landing Gear leg:6.57 m(21.56 ft) on centerline
1.40 m(4.59 ft)
On left Main Landing Gearleg:
29.40 m(96.46 ft)
5.34 m(17.52 ft)
1.50 m(4.92 ft)
On right Main LandingGear leg:
29.40 m(96.46 ft)
5.34 m(17.52 ft)
1.50 m(4.92 ft)
A. The grounding stud on each landing gear leg is designed for use with a clip-on connector (suchas Appleton TGR).
B. The grounding studs are used to connect the aircraft to an approved ground connection on theramp or in the hangar for:- refuel/defuel operations.- maintenance operations.- bad weather conditions.
NOTE : In all other conditions, the electrostatic discharge through the tyre is sufficient.
5-4-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
(1)(2)
LANDINGGEAR
GROUND CABLE(OPTIONAL)
GROUNDINGPOINT
GROUNDINGPOINT
NOSE GEAR MAIN GEAR
AA
A
F_AC_050402_1_0030101_01_00
Ground Service ConnectionsGrounding Points
FIGURE-5-4-2-991-003-A01
5-4-2Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
RIB22
RIB23
NOTE
A
A
B
: R SIDE SYMETRICALBFWD
F_AC_050402_1_0040101_01_00
A
Ground Service ConnectionsGrounding Points
FIGURE-5-4-2-991-004-A01
5-4-2Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-3 Hydraulic System
**ON A/C A340-200 A340-300
Hydraulic System
**ON A/C A340-300
1. Ground service panels.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Green System:41.30 m(135.50 ft)
1.34 m(4.40 ft)
2.23 m(7.32 ft)
Yellow System:35.40 m(116.14 ft)
1.30 m(4.27 ft)
1.95 m(6.40 ft)
Blue System:34.41 m(112.89 ft)
1.28 m(4.20 ft)
1.94 m(6.36 ft)
**ON A/C A340-200
2. Ground service panels.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Green System:39.17 m(128.51 ft)
1.34 m(4.40 ft)
2.23 m(7.32 ft)
Yellow System:33.27 m(109.15 ft)
1.30 m(4.27 ft)
1.95 m(6.40 ft)
Blue System:32.28 m(105.91 ft)
1.28 m(4.20 ft)
1.94 m(6.36 ft)
**ON A/C A340-300
3. Reservoir Pressurization.
5-4-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
One 1/4 in. self sealingconnection common to the3 reservoirs.(Blue System GroundService Panel):
34.47 m(113.09 ft)
1.41 m(4.63 ft)
1.89 m(6.20 ft)
**ON A/C A340-200
4. Reservoir Pressurization.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
One 1/4 in. self sealingconnection common to the3 reservoirs.(Blue System GroundService Panel):
32.34 m(106.10 ft)
1.41 m(4.63 ft)
1.89 m(6.20 ft)
**ON A/C A340-300
5. Accumulator Charging, 5 connections.
(one for each accumulator) for:
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Yellow Systemaccumulator:
35.55 m(116.63 ft)
1.43 m(4.69 ft)
1.91 m(6.27 ft)
5-4-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Green Systemaccumulator:
41.52 m(136.22 ft)
1.33 m(4.36 ft)
2.19 m(7.19 ft)
Blue System accumulator:34.54 m(113.32 ft)
1.38 m(4.53 ft)
1.90 m(6.23 ft)
Blue System brakeaccumulator:
34.54 m(113.32 ft)
1.24 m(4.07 ft)
1.90 m(6.23 ft)
**ON A/C A340-200
6. Accumulator Charging, 5 connections.
(one for each accumulator) for:
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Yellow Systemaccumulator:
33.42 m(109.65 ft)
1.43 m(4.69 ft)
1.91 m(6.27 ft)
Green Systemaccumulator:
39.39 m(129.23 ft)
1.33 m(4.36 ft)
2.19 m(7.19 ft)
Blue System accumulator:32.41 m(106.33 ft)
1.38 m(4.53 ft)
1.90 m(6.23 ft)
Blue System brakeaccumulator:
32.41 m(106.33 ft)
1.18 m3.87 ft
1.90 m(6.23 ft)
**ON A/C A340-300
7. Reservoir Filling, 2 connections.
One self-sealing connection for pressurized supply on the Green system ground service panel.
5-4-3Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
One handpump fillingconnection.
41.31 m(135.53 ft)
1.30 m(4.27 ft)
2.11 m(6.92 ft)
**ON A/C A340-200
8. Reservoir Filling, 2 connections.
One self-sealing connection for pressurized supply on the Green system ground service panel.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
One handpump fillingconnection.
39.18 m(128.54 ft)
1.30 m(4.27 ft)
2.11 m(6.92 ft)
**ON A/C A340-300
9. Reservoir Drain.
One 3/8 in. self-sealing connection on reservoir for:
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Yellow System:29.03 m(95.24 ft)
2.12 m(6.96 ft)
2.40 m(7.87 ft)
Green System:33.17 m(108.83 ft)
0.70 m(2.30 ft)
3.80 m(12.47 ft)
Blue System:29.03 m(95.24 ft)
2.12 m(6.96 ft)
2.40 m(7.87 ft)
5-4-3Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
10. Reservoir Drain.
One 3/8 in. self-sealing connection on reservoir for:
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Yellow System:26.90 m(88.25 ft)
2.12 m(6.96 ft)
2.40 m(7.87 ft)
Green System:31.04 m(101.84 ft)
0.70 m(2.30 ft)
3.80 m(12.47 ft)
Blue System:26.90 m(88.25 ft)
2.12 m(6.96 ft)
2.40 m(7.87 ft)
**ON A/C A340-300
11. Ground Test.
Three 1 in. self-sealing connections and three 1-1/2 in. self-sealing connections (one pair per system)
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUNDGreen System groundservice panel:
34.92 m(114.57 ft)
1.35 m(4.43 ft)
2.20 m(7.22 ft)
Yellow System groundservice panel:
29.03 m(95.24 ft)
1.30 m(4.27 ft)
2.00 m(6.56 ft)
Blue System groundservice panel:
28.03 m(91.96 ft)
1.28 m(4.20 ft)
2.00 m(6.56 ft)
**ON A/C A340-200
12. Ground Test.
Three 1 in. self-sealing connections and three 1-1/2 in. self-sealing connections (one pair per system)
5-4-3Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUNDGreen System groundservice panel:
32.79 m(107.58 ft)
1.35 m(4.43 ft)
2.20 m(7.22 ft)
Yellow System groundservice panel:
26.90 m(88.25 ft)
1.30 m(4.27 ft)
2.00 m(6.56 ft)
Blue System groundservice panel:
25.90 m(84.97 ft)
1.28 m(4.20 ft)
2.00 m(6.56 ft)
5-4-3Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-4 Electrical System
**ON A/C A340-200 A340-300
Electrical System
1. Electrical System.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUNDTwo standard 6 pinconnectors ISO R 461specification.
7.01 m(23.00 ft) on centerline
1.98 m(6.50 ft)
- Supply: 115/200 Volt, 3-Phase, 400 Hz.- Power required: 2 -- (90 KVA).
5-4-4Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-5 Oxygen System
**ON A/C A340-200 A340-300
Oxygen System
1. Oxygen System.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUND
OPTION 1:2.50 m(8.20 ft)
0.53 m(1.74 ft)
3.20 m(10.50 ft)
OPTION 2:2.50 m(8.20 ft)
0.68 m(2.23 ft)
3.20 m(10.50 ft)
- 0 -- Basic: external charging in the avionic compartment.- 1 -- Option.- 2 -- Option.
Zero, one or two service connections (external charging in the avionics compartment) MS22066 Std.
NOTE : Internal Charging Connection Provided.
5-4-5Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-6 Fuel System
**ON A/C A340-200 A340-300
Fuel System
**ON A/C A340-300
1. Refuel/defuel access
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUND
Refuel/defuel coupling30.00 m(98.43 ft)
12.60 m(41.33 ft)
12.60 m(41.33 ft)
5.00 m(16.40 ft)
Overwing gravity refuelcap
34.50 m(113.19 ft)
17.20 m(56.43 ft)
17.20 m(56.43 ft)
5.80 m(19.03 ft)
Refuel/defuel controlpanel
34.30 m(112.53 ft)
0.8 m(2.62 ft)
1.90 m(6.23 ft)
A. Four Standard 2.5 in. connections -- ISO R45 SPEC.
B. Two service connections (gravity refuel).
C. Flow Rate: 1250 l/min (330 US gal/min) per connection.
D. Maximum Pressure: 50.00 psi (3.45 bar).
**ON A/C A340-200
2. Refuel/defuel access
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUND
Refuel/defuel coupling27.80 m(91.21 ft)
12.60 m(41.33 ft)
12.60 m(41.33 ft)
5.00 m(16.40 ft)
Overwing gravity refuelcap
31.20 m(102.30 ft)
17.20 m(56.43 ft)
17.20 m(56.43 ft)
5.80 m(19.02 ft)
5-4-6Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUND
Refuel/defuel controlpanel
32.20 m(105.64 ft)
0.80 m2.62 ft
1.90 m(6.23 ft)
A. Four Standard 2.5 in. connections -- ISO R45 SPEC.
B. Two service connections (gravity refuel).
C. Flow Rate: 1250 l/min (330 US gal/min) per connection.
D. Maximum Pressure: 50.00 psi (3.45 bar).
5-4-6Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
C
OVERPRESSURE PROTECTOR
A
NACA FLAME ARRESTOR
B
A
A
FWD
LH SIDE SHOWNRH SIDE SYMMETRICAL
B
C
RIB36
RIB37
RIB38
550EB(650EB)
550DB(650DB)
F_AC_050406_1_0030101_01_00
Overpressure Protector and NACA Flame ArrestorFIGURE-5-4-6-991-003-A01
5-4-6Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-7 Pneumatic System
**ON A/C A340-200 A340-300
Pneumatic System
**ON A/C A340-300
1. High Pressure Connectors.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND23.90 m(78.41 ft)
0.84 m(2.76 ft)
1.79 m(5.87 ft)Connections for engine
starting and cabin airconditioning:
24.25 m(79.56 ft)
0.84 m(2.76 ft)
1.79 m(5.87 ft)
A. Two standard 3 in. TC20 connections for engine starting and cabin air conditioning.
2. Low Pressure Connectors.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND22.48 m(73.75 ft)
0.31 m(1.02 ft)
1.86 m(6.10 ft)Connections for
preconditioned air: 22.48 m(73.75 ft)
0.76 m(2.49 ft)
1.89 m(6.20 ft)
A. Two standard 8 in. connections (SAE - AS4262 TYPE B) for preconditioned air.
**ON A/C A340-200
3. High Pressure Connectors.
5-4-7Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND21.77 m(71.42 ft)
0.84 m(2.76 ft)
1.79 m(5.87 ft)Connections for engine
starting and cabin airconditioning:
22.12 m(72.57 ft)
0.84 m(2.76 ft)
1.79 m(5.87 ft)
A. Two standard 3 in. TC20 connections for engine starting and cabin air conditioning.
4. Low Pressure Connectors.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND20.35 m(66.77 ft)
0.31 m(1.02 ft)
1.86 m(6.10 ft)Connections for
preconditioned air: 20.35 m(66.77 ft)
0.76 m(2.49 ft
1.89 m(6.20 ft)
A. Two standard 8 in. connections (SAE - AS4262 TYPE B) for preconditioned air.
5-4-7Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-8 Potable Water System
**ON A/C A340-200 A340-300
Potable Water System
**ON A/C A340-300
1. Service panel.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Service panel, located betweenframe 69--70:
48.15 m(157.97 ft)
0.51 m(1.67 ft)
3.15 m(10.33 ft)
- one heated 3/4 in. quick release filling connection.- one heated 3/4 in. overflow and discharge connection.- one ground pressurization connection.
**ON A/C A340-200
2. Service panel.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUND
Service panel, located betweenframe 69--70:
43.88 m(143.96 ft)
0.51 m(1.67 ft)
3.13 m(10.27 ft)
- one heated 3/4 in. quick release filling connection.- one heated 3/4 in. overflow and discharge connection.- one ground pressurization connection.
**ON A/C A340-300
3. Fwd drainage panel.
5-4-8Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUNDFwd drainage panel, locatedbetween frame 28--29comprising:
14.70 m(48.23 ft)
0.60 m(1.97 ft)
1.90 m(6.23 ft)
- one standard 3/4 in. drain connection with back-up mechanical control.
**ON A/C A340-200
4. Fwd drainage panel.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINE
AFT OF NOSER SIDE L SIDE
MEANHEIGHTFROM
GROUNDFwd drainage panel, locatedbetween frame 28--29comprising:
14.70 m(48.23 ft)
0.60 m(1.97 ft)
1.92 m(6.30 ft)
- one standard 3/4 in. drain connection with back-up mechanical control.
**ON A/C A340-300
5. Aft drainage panel.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUNDAft drainage panel,located between frame51.1--57.2:
40.18 m(131.82 ft)
0.72 m(2.36 ft)
2.46 m(8.07 ft)
- one standard 3/4 in. drain connection with back-up mechanical control.- one standard 3/4 in. overflow and discharge connection with back-up mechanical control.
5-4-8Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
A. Usable capacity:- 700 l (184.92 US gal) standard.- 1050 l (277.38 US gal) standard option.
**ON A/C A340-200
6. Aft drainage panel.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUNDAft drainage panel,located between frame55--56:
36.51 m(119.78 ft)
0.72 m(2.36 ft)
2.44 m(8.01 ft)
- one standard 3/4 in. drain connection with back-up mechanical control.- one standard 3/4 in. overflow and discharge connection with back-up mechanical control.
A. Usable capacity:- 700 l (184.92 US gal) standard.- 1050 l (277.38 US gal) standard option.
**ON A/C A340-200 A340-300
7. Fill rate:
Potable water storage tank installed in ... or ...
Fwd-tank (and opt-tank) [sect.15/16] aft-tank [sect.18]
Pressure:50 psi(3.45 bar)
125 psi(8.62 bar)
50 psi(3.45 bar)
125 psi(8.62 bar)
Flow:45 l/min(11.89 US gal/min)
73 l/min(19.28 US gal/min)
56 l/min(14.79 US gal/min)
85 l/min(22.45 US gal/min)
5-4-8Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-9 Oil System
**ON A/C A340-200 A340-300
Oil System
**ON A/C A340-300
1. Engine Oil Tank and IDG for CFM56-5C2 series engine.
A. Engine Oil Replenishment:
One gravity filling cap and one pressure filling connection per engine.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
LH SIDE RH SIDE
MEANHEIGHT FROM
GROUND
Engine Oil Gravity FillingCap:
Engine 1-431.03 m(101.80 ft)Engine 2-324.46 m(80.25 ft)
Engine 120.56 m(67.45 ft)Engine 210.33 m(33.89 ft)
Engine 38.41 m(27.59 ft)Engine 418.64 m(61.15 ft)
Engine 1-43.47 m(11.38 ft)Engine 2-32.20 m(7.22 ft)
Engine Oil Pressure FillingPort:
Engine 1-430.90 m(101.38 ft)Engine 2-324.32 m(79.79 ft)
Engine 120.64 m(67.72 ft)Engine 210.41 m(34.15 ft)
Engine 38.32 m(27.30 ft)Engine 418.56 m(60.89 ft)
Engine 1-43.47 m(11.38 ft)Engine 2-32.20 m(7.22 ft)
- Max delivery pressure required: 25 psi (1.72 bar).- Max delivery flow required: 66.00 US gal/hour (249.84 l/hour).
(1) Tank capacity:- Full level: 20.70 Qts (22.79 l).- Minimum Usable: 9.70 Qts (10.68 l).
B. IDG Oil Replenishment:
One pressure filling connection per engine.
5-4-9Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
LH SIDE RH SIDE
MEANHEIGHT FROM
GROUND
IDG Oil Pressure FillingPort:
Engine 1-430.12 m(98.82 ft)Engine 2-323.54 m(77.23 ft)
Engine 119.40 m(63.65 ft)Engine 29.17 m(30.09 ft)
Engine 39.57 m(31.40 ft)Engine 419.80 m(64.96 ft)
Engine 1-42.55 m(8.37 ft)Engine 2-31.35 m(4.43 ft)
- Max delivery pressure required: 40 psi (2.76 bar).- Max OIL capacity of IDG: 1.10 US gal (4.16 l).
**ON A/C A340-200
2. Engine Oil Tank and IDG for CFM56-5C2 series engine.
A. Engine Oil Replenishment:
One gravity filling cap and one pressure filling connection per engine.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
LH SIDE RH SIDE
MEANHEIGHT FROM
GROUND
Engine Oil Gravity FillingCap:
Engine 1-428.90 m(94.82 ft)Engine 2-322.33 m(73.26 ft)
Engine 120.56 m(67.45 ft)Engine 210.33 m(33.89 ft)
Engine 38.41 m(27.59 ft)Engine 418.64 m(61.15 ft)
Engine 1-43.47 m(11.38 ft)Engine 2-32.20 m(7.22 ft)
Engine Oil Pressure FillingPort:
Engine 1-428.77 m(94.39 ft)Engine 2-322.19 m(72.80 ft)
Engine 120.64 m(67.72 ft)Engine 210.41 m(34.15 ft)
Engine 38.32 m(27.30 ft)Engine 418.56 m(60.89 ft)
Engine 1-43.47 m(11.38 ft)Engine 2-32.20 m(7.22 ft)
- Max delivery pressure required: 25 psi (1.72 bar).- Max delivery flow required: 66.00 US gal/hour (249.84 l/hour).
5-4-9Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
(1) Tank capacity:- Full level: 20.70 Qts (22.79 l).- Minimum Usable: 9.70 Qts (10.68 l).
B. IDG Oil Replenishment:
One pressure filling connection per engine.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
LH SIDE RH SIDE
MEANHEIGHT FROM
GROUND
IDG Oil Pressure FillingPort:
Engine 1-427.99 m(91.83 ft)Engine 2-321.41 m(70.24 ft)
Engine 119.40 m(63.65 ft)Engine 29.17 m(30.09 ft)
Engine 39.57 m(31.40 ft)Engine 419.80 m(64.96 ft)
Engine 1-42.55 m(8.37 ft)Engine 2-31.35 m(4.43 ft)
- Max delivery pressure required: 40 psi (2.76 bar).- Max OIL capacity of IDG: 1.10 US gal (4.16 l).
5-4-9Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
A
AIR PRESSURESWITCH NIPPLE
OIL CAP
PRESSURE NIPPLE
SIGHT WINDOW
ANTI−SIPHONDEVICE
VENT
OIL OUT
OIL/FUEL HEATEXCHANGER SERVO FUEL
HEATER
SELF−SEALING MAGNETICDRAIN PLUG
OIL INOIL LEVELTRANSMITTER(OPTIONAL)
AF_AC_050409_1_0080101_01_00
Ground Service ConnectionsEngine Oil Tank - CFM56-5C2 series engine
FIGURE-5-4-9-991-008-A01
5-4-9Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
A
RED
YELLOW
GREEN
RED
A
B
C
OIL LEVELINDICATOR
(SIGHT GLASS)
CASEDRAINPLUG
DUSTCAP
PRESSUREFILL
VALVE
OVERFILLDRAINVALVE
NOTE : OIL SERVICING IS REQUIRED.
B IF THE OIL LEVEL IS WITHIN THE GREEN AND YELLOW BANDS,OIL SERVICING IS NOT REQUIRED.
C IF THE OIL LEVEL IS BELOW THE GREEN BAND,OIL SERVICING IS REQUIRED.
A
B
A IF THE OIL LEVEL IS ABOVE THE YELLOW BAND,
F_AC_050409_1_0090101_01_00
B
A340OVER
ADDOIL
CFM56−5C2
FULL
ADDOIL
Ground Service ConnectionsIDG Oil Tank - CFM56-5C2 series engine
FIGURE-5-4-9-991-009-A01
5-4-9Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
APU Oil System
**ON A/C A340-300
1. APU Oil System.
APU oil gravity filling cap.
DISTANCE: Meters (ft)
AFT OF NOSE
FROM AIRPLANECENTERLINE(LEFT HAND)
MEAN HEIGHT FROMGROUND
APU Oil Replenishment:60.30 m(197.83 ft)
0.40 m(1.31 ft)
8.00 m(26.25 ft)
A. Tank capacity (usable):- APU Type: 331-350: 7.30 l (1.93 US gal).- APU Type: 331-600: 11.00 l (2.91 US gal).
**ON A/C A340-200
2. APU Oil System.
APU oil gravity filling cap.
DISTANCE: Meters (ft)
AFT OF NOSE
FROM AIRPLANECENTERLINE(LEFT HAND)
MEAN HEIGHT FROMGROUND
APU Oil Replenishment:56.00 m(183.73 ft)
0.40 m(1.31 ft)
8.00 m(26.25 ft)
A. Tank capacity (usable):- APU Type: 331-350: 7.30 l (1.93 US gal).- APU Type: 331-600: 11.00 l (2.91 US gal).
5-4-9Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
FR95
316AR
315AL
FR101
A
PRESSURE FILLOVERFLOW PORT
OIL SCUPPER
GRAVITY FILLPORT
LUBRIFICATION OIL FILTER
GENERATOR SCAVENGE OIL FILTER
OIL PUMPMODULE5100KT9
A
B
OIL FILLERCAP
OVERFLOW PORT
PRESSUREFILL PORT
OIL SIGHTGLASS
OIL SCUPPER
GRAVITY FILL PORT
B
DO NOT REMOVE OILFILLER CAP WHEN OILLEVEL IS ABOVE FULLMARK ON SIGHT GLASS
FWD
F_AC_050409_1_0100101_01_01
Ground Service ConnectionsAPU Oil Tank
FIGURE-5-4-9-991-010-A01
5-4-9Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-4-10 Vacuum Toilet System
**ON A/C A340-200 A340-300
Vacuum Toilet System
**ON A/C A340-300
1. Vacuum Toilet System.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDE L SIDE
MEAN HEIGHTFROM
GROUND
Waste Service panel:50.65 m(166.17 ft)
0.09 m(0.30 ft)
3.60 m(11.81 ft)
A. Waste Service panel comprising:- Standard: One standard 4 in. drain connection and two 1 in. flushing connections.- Standard option: One standard 4 in. drain connection and three 1 in. flushing connections.
B. Capacity waste tanks:- Standard: 700 l (184.92 US gal).- Standard option: 1050 l (277.38 US gal).
C. Chemical fluid:- Standard: 36 l (9.51 US gal).- Standard option: 54 l (14.27 US gal).
**ON A/C A340-200
2. Vacuum Toilet System.
DISTANCE: Meters (ft)
FROM AIRPLANE CENTERLINEAFT OF NOSE
R SIDEL SIDE
MEAN HEIGHTFROM
GROUND
Waste Service panel:46.39 m
(152.20 ft)0.09 m(0.30 ft)
3.60 m(11.81 ft)
A. Waste Service panel comprising:- Standard: One standard 4 in. drain connection and two 1 in. flushing connections.
5-4-10Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
- Standard option: One standard 4 in. drain connection and three 1 in. flushing connections.
B. Capacity waste tanks:- Standard: 700 l (184.92 US gal).- Standard option: 1050 l (277.38 US gal).
C. Chemical fluid:- Standard: 36 l (9.51 US gal).- Standard option: 54 l (14.27 US gal).
5-4-10Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-5-0 Engine Starting Pneumatic Requirements
**ON A/C A340-200 A340-300
Engine Starting Pneumatic Requirements
1. Engine Starting Pneumatic Requirements.To determinate the airflow required at ground connection, refer to the example given in FIGURE 5---0-99--002-A.
For engine starting pneumatic requirements for:- Low ambient temperatures, refer to 5-5-1,- Medium ambient temperatures, refer to 5-5-2,- High ambient temperatures, refer to 5-5-3.
5-5-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
EXAMPLE TO DETERMINATE THE AIRFLOW REQUIRED AT THE FUSELAGE CONNECTION:−FOR AN AIR START UNIT DELIVERING 60 PSIA (4.14 BARS) AIR PRESSURE AT THE
FUSELAGE CONNECTOR
1. DRAW AN HORIZONTAL LINE FROM THE SUPPLIED AIR PRESSURE (60 PSIA (4.14 BARS)).2. FROM THE INTERSECTION WITH THE AIR SUPPLY TEMPERATURE AT FUSELAGE
CONNECTION (220°C (428°F)), DRAW A VERTICAL LINE.3. THE INTERSECTION WITH THE HORIZONTAL AXIS GIVES THE REQUIRED AIRFLOW AT GROUND
CONNECTION (74 kg/min (1.23 kg/s)).
−AT A SUPPLIED AIR TEMPERATURE OF 220°C (428°F) AT THE FUSELAGE CONNECTOR
30
40
70
80
AIR SUPPLY PRESSUREAT GROUND CONNECTION
PSIA ABSOLUTE BARS
2
3
4
5
6
60
50
90
100 7
100°C
150°C
200°C
220°C
AIR SUPPLY TEMPERATUREAT FUSELAGE CONNECTION
50°C
0°C
2.5
3.5
4.5
5.5
6.5
60s
SEA LEVELZ = 8000 ft
Z = 8000 ft
SEA LEVEL
MAXIMUM DUCT PRESSURE:60 PSIG
MAXIM
UM T
EMPERATURE L
IMIT
Z = 8000 ft
SEA LEVEL
35s40s
50s
70s
0.50 0.67 0.83 1.00 2.001.671.501.331.17 kg/s
30 40 50 60 8070 kg/min12010090
1.83
110
AIR FLOW REQUIRED AT GROUND CONNECTION
TIMES UP TO IDLEESTIMATED STARTING
33 PSIG
MIN PRESSURE ATGROUND CONNECTION:
RECOMMANDED PRESSURE:
GROUND CONNECTION38 PSIG AT
F_AC_050500_1_0020101_01_00
Engine Starting Pneumatic RequirementsFIGURE-5-5-0-991-002-A01
5-5-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-5-1 Low Ambient Temperatures
**ON A/C A340-200 A340-300
Low Ambient Temperatures
1. This section provides the engine starting pneumatic requirements for a temperature of -40˚C(-40˚F).
5-5-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
30
40
70
80
40 50 60 70 80 90 100 110 120
AIR SUPPLY PRESSUREAT GROUND CONNECTION
PSIA ABSOLUTE BARS
2
3
4
5
6
60
50
kg/mn
90
100 7
30
100°C
150°C
200°C
220°C
AIR SUPPLY TEMPERATUREAT FUSELAGE CONNECTION
50°C
0°C
2.5
3.5
4.5
5.5
6.5
70s
35s
40s
50s60s
SEA LEVELZ = 8000 ft
Z = 8000 ft
SEA LEVEL
Z = 8000 ft
SEA LEVEL
AIR FLOW REQUIRED AT GROUND CONNECTION
MAXIMUM DUCT PRESSURE:60 PSIG
MAXIM
UM T
EMPERATURE L
IMIT
TIMES UP TO IDLEESTIMATED STARTING
33 PSIG
MIN PRESSURE ATGROUND CONNECTION:
RECOMMANDED PRESSURE:
GROUND CONNECTION38 PSIG AT
F_AC_050501_1_0040101_01_00
Engine Starting Pneumatic RequirementsLow Ambient Temperature -40˚C (-40˚F) -- CFM56-5C2 series engine
FIGURE-5-5-1-991-004-A01
5-5-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-5-2 Medium Ambient Temperatures
**ON A/C A340-200 A340-300
Medium Ambient Temperatures
1. This section provides the engine starting pneumatic requirements for a temperature of +15˚C(+59˚F).
5-5-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_050502_1_0040101_01_00
30
40
70
80
40 50 60 70 80 90 100 110 120
AIR SUPPLY PRESSUREAT GROUND CONNECTION
PSIA ABSOLUTE BARS
2
3
4
5
6
60
50
kg/mn
90
100 7
30
100°C
150°C
200°C220°C
AIR SUPPLY TEMPERATUREAT FUSELAGE CONNECTION
50°C
0°C
2.5
3.5
4.5
5.5
6.5
SEA LEVEL
Z = 8000 ft
SEA LEVEL
Z = 8000 ft
Z = 8000 ft
SEA LEVEL
70s
35s
40s
50s
60s
AIR FLOW REQUIRED AT GROUND CONNECTION
MAXIM
UM T
EMPERATURE L
IMIT
MAXIMUM DUCT PRESSURE:60 PSIG
TIMES UP TO IDLEESTIMATED STARTING
CONNECTIONAT GROUNDPRESSURE: 33PSIGRECOMMANDED
22 PSIGGROUND CONNECTION:MIN PRESSURE AT
Engine Starting Pneumatic RequirementsMedium Ambient Temperature +15˚C (+59˚F) -- CFM56-5C2 series engine
FIGURE-5-5-2-991-004-A01
5-5-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-5-3 High Ambient Temperatures
**ON A/C A340-200 A340-300
High Ambient Temperatures
1. This section provides the engine starting pneumatic requirements for a temperature upper +55˚C(+131˚F).
5-5-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
30
40
70
80
40 50 60 70 80 90 100 110 120
AIR SUPPLY PRESSUREAT GROUND CONNECTION
PSIA ABSOLUTE BARS
2
3
4
5
6
60
50
kg/mn
90
100 7
30
50°C
100°C
150°C
200°C220°C
AIR SUPPLY TEMPERATUREAT FUSELAGE CONNECTION
2.5
3.5
4.5
5.5
6.5
F_AC_050503_1_0040101_01_00
SEA LEVEL
Z = 8000 ft
70s
60s
50s
40s
35s
RECOMMANDED PRESSURE:33PSIG ATGROUND CONNECTION
SEA LEVEL
AIR FLOW REQUIRED AT GROUND CONNECTION
MAXIMUM DUCT PRESSURE:60 PSIG
SEA LEVEL
Z = 8000 ft
MAXIM
UM T
EMPERATURE L
IMIT
ESTIMATED STARTINGTIMES UP TO IDLE
GROUND CONNECTION:MIN PRESSURE AT
22 PSIGZ = 8000 ft
F_AC_050503_1_0040101_01_00
Engine Starting Pneumatic RequirementsHigh Ambient Temperature +55˚C (+131˚F) -- CFM56-5C2 series engine
FIGURE-5-5-3-991-004-A01
5-5-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-6-0 Ground Pneumatic Power Requirements
**ON A/C A340-200 A340-300
Ground Pneumatic Power Requirements
1. Ground Pneumatic Power Requirements.
5-6-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-6-1 Heating
**ON A/C A340-200 A340-300
Heating
1. This section provides the ground pneumatic power requirements heating.
5-6-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
3.00
8
2.81
4
2.62
0
2.42
6
2.23
1
2.03
7
1.84
3
1.45
5
1.31
0
CABIN AIRFLOW
3.23
2
3.03
0
2.82
8
2.62
6
2.42
4
2.22
2
2.02
0
1.81
8
1.61
6
1.46
4
TOTAL AIRFLOW
(kg/
s)
3040
5060
TIM
E (
min
)CABIN AIRFLOW
TOTAL AIRFLOW
(lb/s
)
1.64
9
6.51
5.55
4.59
3.63
2.67
7.0
6.0
5.0
3.0
4.0
INIT
IAL
CA
BIN
TE
MP
ER
AT
UR
E A
T −
23°
C (
−9.
4°F
)T
EM
PE
RA
TU
RE
AT
GR
OU
ND
CO
NN
EC
TIO
N :
70°
C (
158°
F)
EM
PT
Y C
AB
INE
LEC
TR
ICA
L LO
AD
: 67
50 W
EX
TE
RN
AL
HE
AT
LO
AD
: −
1768
8 W
RE
CIR
CU
LAT
ION
: O
N
MA
X. A
LLO
WE
D T
OT
AL
AIR
FLO
W (
2mba
r C
AB
IN O
VE
RP
RE
SS
UR
E)
F_AC_050601_1_0020101_01_00
TIM
E T
O H
EA
T C
AB
IN T
O 2
1°C
(69
.8°
F)
ON
GR
OU
ND
Ground Pneumatic Power RequirementsHeating
FIGURE-5-6-1-991-002-A01
5-6-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-6-2 Cooling
**ON A/C A340-200 A340-300
Cooling
1. This section provides the ground pneumatic power requirements cooling.
5-6-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
3.00
8
2.81
4
2.62
0
2.42
6
2.23
1
2.03
7
1.84
3
1.45
5
1.31
0
CABIN AIRFLOW
3.23
2
3.03
0
2.82
8
2.62
6
2.42
4
2.22
2
2.02
0
1.81
8
1.61
6
1.46
4
TOTAL AIRFLOW(k
g/s)
TIM
E (
min
)CABIN AIRFLOW
TOTAL AIRFLOW
(lb/s
)
1.64
9
6.51
5.55
4.59
3.63
2.67
7.0
6.0
5.0
3.0
4.0
2030
4050
MA
X. A
LLO
WE
D T
OT
AL
AIR
FLO
W (
2mba
r C
AB
IN O
VE
RP
RE
SS
UR
E)
INIT
IAL
CA
BIN
TE
MP
ER
AT
UR
E A
T 3
8°C
(10
0.4°
F)
TE
MP
ER
AT
UR
E A
T G
RO
UN
D C
ON
NE
CT
ION
: 1.
5°C
(34
.7°
F)
EM
PT
Y C
AB
INE
LEC
TR
ICA
L LO
AD
: 14
000
WS
UN
: 72
19 W
PA
X H
EA
T L
OA
D :
0 W
EX
TE
RN
AL
HE
AT
LO
AD
: 80
40 W
RE
CIR
CU
LAT
ION
: O
N
TIM
E T
O C
OO
L C
AB
IN T
O 2
7°C
(80
.6°
F)
ON
GR
OU
ND
F_AC_050602_1_0020101_01_00
Ground Pneumatic Power RequirementsCooling
FIGURE-5-6-2-991-002-A01
5-6-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-7-0 Preconditioned Airflow Requirements
**ON A/C A340-200 A340-300
Preconditioned Airflow Requirements
1. This section gives the preconditioned airflow requirements for cabin air conditioning.
The total airflow must be not more than 3.232 kg/s. If the total airflow is more than this value, itwill be more than the capacity of the outflow valve in the fully open position and a cabin overpressureof more than 2 mbar will occur.
Other Filling capacities and characteristics (hydraulic, electrical, oxygen, fuel, oil, water, toilet) areshown in chapter 5-4.
5-7-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
3.00
8
2.81
4
2.62
0
2.42
6
2.23
1
2.03
7
1.84
3
1.45
5
1.31
0
CABIN AIRFLOW
3.23
2
3.03
0
2.82
8
2.62
6
2.42
4
2.22
2
2.02
0
1.81
8
1.61
6
1.46
4
TOTAL AIRFLOW
(kg/
s)
CABIN AIRFLOW
TOTAL AIRFLOW
(lb/s
)
1.64
9
6.51
5.55
4.59
3.63
2.67
7.0
6.0
5.0
3.0
4.0
−20
−10
010
2030
40−
30 −20
050
100
(°C
)
(°F
)
INLE
T T
EM
PE
RA
TU
RE
CU
RV
E 1
:C
AB
IN T
EM
PE
RA
TU
RE
: 27
°C
(80
.6°
F)
PA
SS
EN
GE
RS
: 33
5.A
TT
EN
DA
NT
S :
10 A
ND
CR
EW
ME
MB
ER
S :
3R
EC
IRC
ULA
TIO
N :
ON
ELE
CT
RIC
AL
LOA
D :
1400
0 W
SO
LAR
RA
DIA
TIO
N :
7219
W
LP G
RO
UN
D C
ON
NE
CT
ION
MA
XIM
UM
PR
ES
SU
RE
50m
b
O.A
.T =
OU
TS
IDE
AM
BIE
NT
TE
MP
. RE
CIR
CU
LAT
ION
: O
NE
LEC
TR
ICA
L LO
AD
: 67
50 W
NO
PA
SS
EN
GE
R A
ND
AT
TE
ND
.
MA
X. A
LLO
WE
D T
OT
AL
AIR
FLO
W (
2mba
r C
AB
IN O
VE
RP
RE
SS
UR
E)
NO
TE
:
CA
BIN
TE
MP
ER
AT
UR
E :
21°
C (
69.8
°F
)C
UR
VE
2,3
,4 :
O.A
.T =
38°
C (
100.
4°F
)
F_AC_050700_1_0030101_01_00
O.A
.T =
−23
°C
(−
9.4°
F)
O.A
.T =
−30
°C
(−
22°
F)
O.A
.T =
−40
°C
(−
40°
F)
Preconditioned Airflow RequirementsFIGURE-5-7-0-991-003-A01
5-7-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
5-8-0 Ground Towing Requirements
**ON A/C A340-200 A340-300
Ground Towing Requirements
1. This section provides information on aircraft towing.
The A340 is designed with means for conventional or towbarless towing.Information/procedures can be found for both in chapter 9 of the Aircraft Maintenance Manual.Status on towbarless towing equipment qualification can be found in SIL 09-002.It is possible to tow or push the aircraft, at maximum ramp weight with engines at zero or up to idlethrust, using a tow bar attached to the nose gear leg (refer to AMM chapter 9 for conditions andlimitations). One tow bar fitting is installed at the front of the leg (optional towing fitting for towingfrom the rear of the NLG available).The Main Landing Gears have attachment points for towing or debogging (for details refer to chapter7 of the Aircraft Recovery Manual).
- The first part of this section shows the chart to determine the draw bar pull and tow tractormass requirements as function of the following physical characteristics:- aircraft weight- slope- number of engines at idle
The following chart is applicable to both A340-200 and -300 aircraft.
- The second part of this section supplies guidelines for the tow bar.
Note: information on aircraft towing procedures and corresponding aircraft limitations are given inchapter 9 of the Aircraft Maintenance Manual.
2. Towbar design guidelines
The aircraft towbar shall respect the following norms:- SAE AS 1614, ”Main Line Aircraft Tow Bar Attach Fitting Interface”- SAE ARP1915 Revision C, ”Aircraft Tow Bar”- ISO 8267-1, ”Aircraft - Tow bar attachment fitting - Interface requirements - Part 1: Main line
aircraft”- ISO 9667, ”Aircraft ground support equipment - Tow bars”- IATA Airport Handling Manual AHM 958, ”Functional Specification for an Aircaft Towbar”
A conventional type tow bar is required which should be equipped with a damping system to protectthe nose gear 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 (277 028 lbf.in)
5-8-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
The towing head is designed according to SAE/AS 1614 (issue C) cat. III.
There is a variety of shear pin arrangements and the values of the shear pins depend on them. Wehereafter show two arrangements classically used on towbars.
5-8-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_050800_1_0060101_01_00
EXAMPLE HOW TO DETERMINE THE MASS REQUIREMENT TO TOW A A340−200 OR −300 AT 270 t, AT 1.5%SLOPE, 2 ENGINES AT IDLE AND FOR WET TARMAC CONDITIONS:
− ON THE RIGHT HAND SIDE OF THE GRAPH, CHOOSE THE RELEVANT AIRCRAFT WEIGHT (270 t),− FROM THIS POINT DRAW A PARALLEL LINE TO THE REQUIRED SLOPE PERCENTAGE (1.5%),− FROM THIS POINT OBTAINED DRAW A STRAIGHT HORIZONTAL LINE UNTIL NO OF ENGINES AT IDLE = 4,− 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 (21.3 t),− SEARCH THE INTERSECTION WITH THE "WET CONCRETE" LINE. THE OBTAINED X−COORDINATE IS THE RECOMMENDED MINIMUM TRACTOR WEIGHT (37.3 t).
30
25
20
15
10
5
00 10 20 30 40 50 60 70 80 0 1 2 3 4 0 0.5 1.0 1.5 2.0
280
255
230
205
180
155
130
TOTAL TRACTION WHEEL LOAD [ t ] NO OF ENGINES AT IDLE SLOPE [ % ]
DRAWBAR PULL [ t ] A/C WEIGHT [ t ]
BREAKWAY RESISTANCE 6%# OF ENGINES ON FOR PB: 2ENGINE THRUST 500 daN
21.3
37.3
2 ENGINES ON1.5% SLOPE
270 tons
ICE = 0.05
HARD SNOW = 0.2
WET
CO
NC
RET
E
= 0
.57
DR
Y C
ON
CR
ETE
= 0.
8
Ground Towing RequirementsFIGURE-5-8-0-991-006-A01
5-8-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
D1
MF
M
LONGHOLE BLOCKINGLATERAL MOVEMENTS
HOLES FOR SPARE SHEAR PINS
MF
LOCKING/UNLOCKING HANDLE
SHEAR PIND1
L
F F
Fshear
F
Mshear
Fshear
Lshear
M = Fshear
x L
Mshear
= Fshear
x Lshear
Mshear
= F x D1 (Mshear
< M)
D1 = (M/L) x Lshear
/ F
Fshear
= M / L
Mshear
= (M/L) x Lshear
D1 = (M x Lshear
/ (F x L)
A
AF_AC_050800_1_0070101_01_00
Ground Towing RequirementsTypical tow bar configuration 1
FIGURE-5-8-0-991-007-A01
5-8-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
MF
D2
OVERSIZED HOLEWRT RETENTION BOLT
M
L
F
F/2
F/2
D2
D2 = (2 x Mshear
) / F D2 = (2 x M x Lshear
) / (F x L)
F M D1 D2
28620 3130 98.4 210.0
[daN] [m.daN] [mm] [mm]
RESULTS FOR A TOWBAR LENGTH OF Lshear
/L = 0.90
Fshear
Fshear
Lshear
Mshear
M = Fshear
x L
Mshear
= Fshear
x Lshear
Mshear
= F/2 x D2 (Mshear
< M)
Fshear
= M / L
Mshear
= (M / L) x Lshear
A
AF_AC_050800_1_0080101_01_00
Ground Towing RequirementsTypical tow bar configuration 2
FIGURE-5-8-0-991-008-A01
5-8-0Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
H
MAKE SURE THAT THE DIMENSION "H" OF THE NLG IS NEVER GREATER THAN 310 mm (12.2047 in.) WHEN YOU TOW THE AIRCRAFT.
F_AC_050800_1_0090101_01_00
Ground Towing RequirementsMaximum Extension of the NLG Shock Absorber
FIGURE-5-8-0-991-009-A01
5-8-0Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
OPERATING CONDITIONS
6-1-0 Engine Exhaust Velocities and Temperatures
**ON A/C A340-200 A340-300
Engine Exhaust Velocities and Temperatures
1. GeneralThis section shows the estimated engine exhaust efflux velocities and temperatures contours forGround Idle, Breakaway, Maximum Takeoff conditions.
6-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-1-1 Engine Exhaust Velocities Contours - Ground Idle Power
**ON A/C A340-200 A340-300
Engine Exhaust Velocities Contours - Ground Idle Power
1. This section gives engine exhaust velocities contours at ground idle power.
6-1-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060101_1_0040101_01_00
FE
ET
ME
TE
RS
50
GR
OU
ND
PLA
NE
AIR
PLA
NE
ELE
VA
TIO
N
100
150
200
250
300
350
400
1530
4560
7590
105
120
C L
ftm
00
V =
40
m/s
V =
20
m/s
V =
12
m/s
V =
40
m/s
V =
20
m/s
V =
12
m/s
30 121824 6
100 406080 20
030 121824 6
GR
OU
ND
IDLE
INC
LUD
ES
: (W
OR
ST
CA
SE
) G
RO
UN
D P
LAN
E P
RO
XIM
ITY
HE
AD
WIN
D (
20 K
NT
S)
PLA
N
ftm
0
100 406080 20
00
Engine Exhaust VelocitiesGround Idle Power - CFM56-5C series engine
FIGURE-6-1-1-991-004-A01
6-1-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-1-2 Engine Exhaust Temperatures Contours - Ground Idle Power
**ON A/C A340-200 A340-300
Engine Exhaust Temperatures Contours - Ground Idle Power
1. This section gives engine exhaust temperatures contours at ground idle power.
6-1-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
FEET
METERS
50
GROUND PLANE
AIRPLANE
100
15 30
CL
ftm
0
12
18
6
60
ftm
0
30
12
18
24
6
100
45
150
60
200
GROUND IDLE
INCLUDES: (WORST CASE) GROUND PLANE PROXIMITY HEADWIND (20 KNTS)
306°F152°C
207°F97°C
108°F42°C
306°F 207°F 108°F152°C 97°C 42°C
PLAN0
40
60
80
20
ELEVATION0
40
20
0
0
F_AC_060102_1_0040101_01_00
Engine Exhaust TemperaturesGround Idle Power - CFM56-5C series engine
FIGURE-6-1-2-991-004-A01
6-1-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-1-3 Engine Exhaust Velocities Contours - Breakaway Power
**ON A/C A340-200 A340-300
Engine Exhaust Velocities Contours - Breakaway Power
1. This section gives engine exhaust velocities contours at breakaway power.
6-1-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060103_1_0040101_01_00
FE
ET
ME
TE
RS
50
GR
OU
ND
PLA
NE
AIR
PLA
NE
ELE
VA
TIO
N 100
150
200
250
300
350
400
1530
4560
7590
105
120
C L
135
150
165
180
195
ftm
450
500
550
650
600
00
V =
40
m/s
V =
20
m/s
V =
12
m/s
4−E
NG
INE
BR
EA
KA
WA
Y
INC
LUD
ES
: (W
OR
ST
CA
SE
) G
RO
UN
D P
LAN
E P
RO
XIM
ITY
HE
AD
WIN
D (
20 K
NT
S)
V =
40
m/s
V =
20
m/s
V =
12
m/s
30 121824 6
100 406080 20
ftm
030 121824 6
PLA
N0
100 406080 20
00
Engine Exhaust VelocitiesBreakaway Power - CFM56-5C series engine
FIGURE-6-1-3-991-004-A01
6-1-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-1-4 Engine Exhaust Temperatures Contours - Breakaway Power
**ON A/C A340-200 A340-300
Engine Exhaust Temperatures Contours - Breakaway Power
1. This section gives engine exhaust temperatures contours at breakaway power.
6-1-4Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060104_1_0040101_01_00
GROUND PLANE
AIRPLANE
ELEVATION
PLAN CL
ftm
0 0
12
18
6
40
60
20
ftm
0 0
30
12
18
24
6
100
40
60
80
20
240°F116°C
140°F60°C
100°F38°C
240°F116°C
140°F60°C
100°F38°C
FEET
METERS
50 100
15 30 45
150
60
2000
0
Engine Exhaust TemperaturesBreakaway Power - CFM56-5C series engine
FIGURE-6-1-4-991-004-A01
6-1-4Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-1-5 Engine Exhaust Velocities Contours - Takeoff Power
**ON A/C A340-200 A340-300
Engine Exhaust Velocities Contours - Takeoff Power
1. This section gives engine exhaust velocities contours at takeoff power.
6-1-5Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060105_1_0040101_01_00
FE
ET
ME
TE
RS
GR
OU
ND
PLA
NE
AIR
PLA
NE
ELE
VA
TIO
N
PLA
N
100
200
300
C L
ftm 0
0
30 121824 6
100
406080 20
3060
9012
015
018
021
024
027
030
033
036
039
0
400
500
700
800
600
900
1000
1100
1200
1300
ftm 0
0
30 121824 6
100
406080 20
V =
40
m/s
V =
20
m/s
V =
12
m/s
V =
40
m/s
V =
20
m/s
V =
12
m/s
TA
KE
OF
F P
OW
ER
INC
LUD
ES
: (W
OR
ST
CA
SE
) G
RO
UN
D P
LAN
E P
RO
XIM
ITY
HE
AD
WIN
D (
20 K
NT
S)
00
Engine Exhaust VelocitiesTakeoff Power - CFM56-5C series engine
FIGURE-6-1-5-991-004-A01
6-1-5Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-1-6 Engine Exhaust Temperatures Contours - Takeoff Power
**ON A/C A340-200 A340-300
Engine Exhaust Temperatures Contours - Takeoff Power
1. This section gives engine exhaust temperatures contours at takeoff power.
6-1-6Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060106_1_0040101_01_00
FEET
METERS
50
GROUND PLANE
AIRPLANE
ELEVATION
PLAN
100
15 30
CL
ftm
0 0
30
12
18
24
6
100
40
60
80
20
45
150
306°F152°C
207°F97°C
108°F42°C
60
200 250
75 90
300
0 0
30
12
18
24
6
100
40
60
80
108°F42°C
306°F152°C
207°F97°C
TAKEOFF POWER
INCLUDES: (WORST CASE) GROUND PLANE PROXIMITY HEADWIND (20KNTS)
ftm
20
0
0
Engine Exhaust TemperaturesTakeoff Power - CFM56-5C series engine
FIGURE-6-1-6-991-004-A01
6-1-6Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-2-0 Airport and Community Noise
**ON A/C A340-200 A340-300
Airport and Community Noise Data
1. Airport and Community Noise Data
This section gives data concerning engine maintenance run-up noise to permit evaluation of possibleattenuation requirements.
6-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-2-1 Noise Data
**ON A/C A340-200 A340-300
Noise Data
1. Noise Data for CFM56-5C series engine
A. Description of test conditions:
The arc of circle (radius = 60 m (196.85 ft)), with microphones 1.2 m (3.94 ft) high, iscentered on the position of the noise reference point.A.P.U.: off; E.C.S.: Packs off.
B. Engine parameters: 2 engines running
C. Meteorological data:
The meteorological parameters measured 1.6 m (5.25 ft) from the ground on the day of testwere as follows:- Temperature: 19˚C (66˚F)- Relative humidity: 68%- Atmospheric pressure: 1004 hPa- Wind speed: Negligible- No rain
6-2-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
8082
8486
8890
9294
96
0°10°20°
30°
40°
50°
60°
70°
80°
90°
100°
110°
120°
130°
140°
150°
98100
102104
106108
110112
350°340°
330°
320°
310°
300°
290°
280°
270°
250°
240°
230°
220°
210°
NOISE REFERENCEPOINT
GROUND IDLE
N1
CURVE
MAX THRUST POSSIBLEON BRAKES
21%
260°78
F_AC_060201_1_0040101_01_00
92.7%
Airport and Community NoiseCFM56-5C series engine
FIGURE-6-2-1-991-004-A01
6-2-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-3-0 Danger Areas of Engines
**ON A/C A340-200 A340-300
Danger Areas of Engines
1. Danger Areas of the Engines.
6-3-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-3-1 Ground Idle Power
**ON A/C A340-200 A340-300
Ground Idle Power
1. This section gives danger areas of the engines at ground idle power conditions.
6-3-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060301_1_0040101_01_00F_AC_060301_1_0040101_01_00
NOT TO SCALE
RADIUS = 9.7 ft
4.7 ft45°
CLOSE ENTRYCORRIDOR FOR
WIND DIRECTION>90 DEGREES
AB
CNO ENTRY 105 ft (32 m)AFT OF NOZZLE EXIT
GMM−1137912−00−B
AREA
A 210−145(338−233)
B 145−105(233−169)
C
D 65−20(105−32)
105−65(169−105)
E < 20 (32) BEYOND DANGER AREA.
INLET SUCTIONDANGER AREA
ENTRYCORRIDOR
EXHAUST WAKE DANGERAREA, 65 mph (105 km/h)OR LESS
APPROX. WINDVELOCITYmph (km/h)
LIGHT TO MODERATE DAMAGE TO TRANSPORT − TYPE AIRCRAFT.
POSSIBLE EFFECTS WITHIN DANGER ZONE BASED ON"RADIOLOGICAL DEFENSE", VOL. II, ARMED FORCES SPECIALWEAPONS PROJECT, NOV 1951.
D
EXHAUST WAKE DANGERAREA, 65 mph (105 km/h)OR GREATER
A MAN STANDING WILL BE PICKED UP AND THROWN; AIRCRAFT WILL BECOMPLETELY DESTROYED OR DAMAGED BEYOND ECONOMICAL REPAIR;COMPLETE DESTRUCTION OF FRAME OR BRICK HOMES.
A MAN STANDING FACE − ON WILL BE PICKED UP AND THROWN; DAMAGENEARING TOTAL DESTRUCTION TO LIGHT INDUSTRIAL BUILDINGS OR RIGIDSTEEL FRAMING; CORRUGATED STEEL STRUCTURES LESS SEVERELY.
MODERATE DAMAGE TO LIGHT INDUSTRIAL BUILDINGS AIR TRANSPORT− TYPE AIRCRAFT.
171 ft (52 m)WIDTH
TO 417 ft (127 m)E
(3.0 m)
(1.4 m)
INLET DANGER AREASINCLUDE:(WORST CASE)
GROUND PLANE PROXIMITYHEADWIND/CROSSWIND (20 kts)
EXHAUST DANGER AREASINCLUDE (WORST CASE):
GROUND PLANE PROXIMITYHEADWIND (20 kts)
INLET HAZARD DIMENSIONSBASED ON 40 ft/SEC
CRITICAL VELOCITY WITH A3 ft CONTINGENCY ADDED
Danger Areas of EnginesCFM56-5C series engine
FIGURE-6-3-1-991-004-A01
6-3-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-3-2 Breakaway Power
**ON A/C A340-200 A340-300
Breakaway Power
1. This section gives danger areas of the engines at breakaway conditions.
6-3-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
AREA
A 210−145(338−233)
B 145−105(233−169)
C
D 65−20(105−32)
105−65(169−105)
E < 20 (32) BEYOND DANGER AREA.
APPROX. WINDVELOCITYmph (km/h)
LIGHT TO MODERATE DAMAGE TO TRANSPORT − TYPE AIRCRAFT.
POSSIBLE EFFECTS WITHIN DANGER ZONE BASED ON"RADIOLOGICAL DEFENSE", VOL. II, ARMED FORCES SPECIALWEAPONS PROJECT, NOV 1951.
A MAN STANDING WILL BE PICKED UP AND THROWN; AIRCRAFT WILL BECOMPLETELY DESTROYED OR DAMAGED BEYOND ECONOMICAL REPAIR;COMPLETE DESTRUCTION OF FRAME OR BRICK HOMES.
A MAN STANDING FACE − ON WILL BE PICKED UP AND THROWN; DAMAGENEARING TOTAL DESTRUCTION TO LIGHT INDUSTRIAL BUILDINGS OR RIGIDSTEEL FRAMING; CORRUGATED STEEL STRUCTURES LESS SEVERELY.
MODERATE DAMAGE TO LIGHT INDUSTRIAL BUILDINGS AIR TRANSPORT− TYPE AIRCRAFT.
INLET SUCTIONDANGER AREA
ENTRYCORRIDOR
EXHAUST WAKE DANGERAREA 65 Mph (105 km/h)OR GREATER
EXHAUST WAKE DANGERAREA 65 Mph (105 km/h)OR LESS
RADIUS = 13.9 ft(4.2 m)
NOT TO SCALE
NO ENTRY 198 ft (60 m)AFT OF NOZZLE EXIT
TO 750 ft (229 m)
A
B
C
D
E
INLET DANGER AREASINCLUDE:(WORST CASE)
GROUND PLANE PROXIMITYHEADWIND/CROSSWIND (20 kts)
EXHAUST DANGER AREASINCLUDE (WORST CASE):
GROUND PLANE PROXIMITYHEADWIND (20 kts)
INLET HAZARD DIMENSIONSBASED ON 40 ft/SEC
CRITICAL VELOCITY WITH A3 ft CONTINGENCY ADDED
214 ft (65 m)
WIDTH
6.3 ft(1.9 m)
F_AC_060302_1_0040101_01_02
Danger Areas of EnginesCFM56-5C series engine
FIGURE-6-3-2-991-004-A01
6-3-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-3-3 Takeoff Power
**ON A/C A340-200 A340-300
Takeoff Power
1. This section gives danger areas of the engines at max takeoff conditions.
6-3-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
RADIUS = 34 ft
NOT TO SCALE
13.4 ft
AREA
A 210−145(338−233)
B 145−105(233−169)
C
D 65−20(105−32)
105−65(169−105)
E < 20 (32) BEYOND DANGER AREA.
INLET SUCTIONDANGER AREA
ENTRYCORRIDOR
EXHAUST WAKE DANGERAREA, 65 mph (105 km/h)OR LESS
APPROX. WINDVELOCITYmph (km/h)
LIGHT TO MODERATE DAMAGE TO TRANSPORT − TYPE AIRCRAFT.
POSSIBLE EFFECTS WITHIN DANGER ZONE BASED ON"RADIOLOGICAL DEFENSE", VOL. II, ARMED FORCES SPECIALWEAPONS PROJECT, NOV 1951.
EXHAUST WAKE DANGERAREA, 65 mph (105 km/h)OR GREATER
A MAN STANDING WILL BE PICKED UP AND THROWN; AIRCRAFT WILL BECOMPLETELY DESTROYED OR DAMAGED BEYOND ECONOMICAL REPAIR;COMPLETE DESTRUCTION OF FRAME OR BRICK HOMES.
A MAN STANDING FACE − ON WILL BE PICKED UP AND THROWN; DAMAGENEARING TOTAL DESTRUCTION TO LIGHT INDUSTRIAL BUILDINGS OR RIGIDSTEEL FRAMING; CORRUGATED STEEL STRUCTURES LESS SEVERELY.
MODERATE DAMAGE TO LIGHT INDUSTRIAL BUILDINGS AIR TRANSPORT − TYPE AIRCRAFT.
GMM−1137913−00−B
A
B
C
D
295 ft (90 m)
TO 1460 ft (445 m)
WIDTH
E
(10.4 m)
(4.1 m)
NO ENTRY 830 ft (253 m)AFT OF NOZZLE EXIT
INLET DANGER AREASINCLUDE:(WORST CASE)
GROUND PLANE PROXIMITYHEADWIND/CROSSWIND (20 kts)
EXHAUST DANGER AREASINCLUDE (WORST CASE):
GROUND PLANE PROXIMITYHEADWIND (20 kts)
INLET HAZARD DIMENSIONSBASED ON 40 ft/SEC
CRITICAL VELOCITY WITH A3 ft CONTINGENCY ADDED
F_AC_060303_1_0040101_01_01
Danger Areas of EnginesCFM56-5C series engine
FIGURE-6-3-3-991-004-A01
6-3-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-4-0 APU Exhaust Velocities and Temperatures
**ON A/C A340-200 A340-300
APU Exhaust Velocities and Temperatures
1. APU Exhaust Velocities and Temperatures.
6-4-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
6-4-1 APU
**ON A/C A340-200 A340-300
APU - GARRETT
1. This section gives APU exhaust velocities and temperatures.
6-4-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
F_AC_060401_1_0020101_01_00
20
METERS
0
5 10 15
FEET
0
10 20 30 40 50
0
60
0
10
5
10
20
30
40
METERS FEET
20
METERS
FD
0
5 10 15
FEET
0
10 20 30 40 50
0
60
0
10
5
10
20
30
40
METERS FEET
121°C
93°C
204°C260°C
315.5°C427°C
15 m/s
18 m/s
24 m/s
FD
149°C177°C
61 m/s46 m/s
30.5 m/s
Exhaust Velocities and TemperaturesGARRETT GTCP 331-350FIGURE-6-4-1-991-002-A01
6-4-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
PAVEMENT DATA
7-1-0 General Information
**ON A/C A340-200 A340-300
General Information
1. General Information
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 airplane configuration is shownwith a minimum range of five loads on the main landing gear.
All curves on the charts represent data at a constant specified tire pressure with:- the airplane loaded to the maximum ramp weight- the CG at its maximum permissible aft position.
Pavement requirements for commercial airplanes are derived from the static analysis of loads imposedon the main landing gear struts.
Section 7-2-0 presents basic data on the landing gear footprint configuration, maximum ramp weightsand tire sizes and pressures.
Section 7-3-0 shows the maximum vertical and horizontal pavement loads for certain criticalconditions at the tire-ground interfaces.
Section 7-4-1 contains charts to find these loads throughout the stability limits of the airplane at reston the pavement.
These main landing gear loads are used as the point of entry to the pavement design charts, whichfollow, interpolating load values where necessary.
How the main landing gear load is distributed to the wing and center gears is shown on Section7-4-3.All Load Classification Number (LCN) curves shown in Section 7-6-1 and Section 7-8-2 have beendeveloped from a computer program based on data provided in International Civil AviationOrganisation (ICAO) document 7920-AN/865/2, Aerodrome Manual, Part 2, ”Aerodrome PhysicalCharacteristics”, Second Edition, 1965, interpolating load values where necessary.
The flexible pavement charts in Section 7-6-1 show LCN against equivalent single wheel load, andequivalent single wheel load against pavement thickness.
7-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
The rigid pavement charts in Section 7-8-2 shown LCN against equivalent single wheel load, andequivalent single wheel load against radius of relative stiffness.
Section 7-9-0 provides ACN data prepared according to the ACN/PCN system as referenced in ICAOAnnex 14, ”Aerodromes”, Volume 1 Third Edition July 1999, incorporating Amendments 1 to 3.
The ACN/PCN system provides a standardized international airplane/pavement rating systemreplacing 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 ClassificationNumber.
An aircraft having an ACN equal to or less than the PCN can operate without restriction on thepavement.
Numerically the ACN is two times the derived single wheel load expressed in thousands of kilograms.
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 the system uses PCA program PDILB for rigid pavements and S-77-1for flexible pavements to calculate ACN values. The Airport Authority must decide on the method ofpavement analysis and the results of their evaluation shown as follows:
PCNPAVEMENT
TYPESUBGRADECATEGORY
TIRE PRESSURE CATEGORY EVALUATION METHOD
R -- Rigid A -- High W -- No Limit T -- Technical
F -- Flexible B -- Medium X -- To 1.5 Mpa (217 psi) U -- Using Aircraft
C -- Low Y -- To 1.0 Mpa (145 psi)
D -- Ultra Low Z -- To 0.5 Mpa (73 psi)
Section 7-9-1 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 7-9-2 shows the aircraft ACN for rigid pavements.
7-1-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
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)
A. Flexible Pavement
Section 7-5-1 uses procedures in Instruction Report No S-77-1 ”Procedures for Development ofCBR Design Curves”, dated June 1977 and as modified according to the methods described inICAO Aerodrome Design Manual, Part 3.
Pavements, 2nd Edition, 1983, Section 1.1 (The ACN-PCN Method), and utilizing the alphafactors 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).
The procedure that follows is used to develop flexible pavement design curves such as thoseshown in Section 7-5-1.- With the scale for pavement thickness at the bottom and the scale for CBR at the top, an
arbitrary line is drawn representing 10 000 coverages.- Incremental values of the weight on the main landing gear are then plotted.- Annual departure lines are drawn based on the load lines of the weight on the main landing
gear that is shown on the graph.
B. Rigid pavement
Section 7-7-1 gives the rigid pavement design curves that have been prepared with the use ofthe Westergaard Equation. This is in general accordance with the procedures outlined in thePortland Cement Association publications, ”Design of Concrete Airport Pavement”, 1973 and”Computer Program for Airport Pavement Design”, (Program PDILB), 1967 both by Robert G.Packard.
The procedure that follows is used to develop rigid pavement design curves such as those shownin Section 7-7-1.- With the scale for pavement thickness on the left and the scale for allowable working stress
on the right, an arbitrary line load line is drawn. This represents the main landing gearmaximum weight to be shown.
7-1-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
- All values of the subgrade modulus (k values) are then plotted.- Additional load lines for the incremental values of weight on the main landing gear are
drawn on the basis of the curve for k = 80 MN/m3 already shown on the graph.
7-1-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-2-0 Landing Gear Footprint
**ON A/C A340-200 A340-300
Landing Gear Footprint
1. This section gives Landing Gear Footprint and Aircraft Identification.
7-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 253 500 kg − A340−300
254 400 kg (560 850 lb)
1 050x395R16
11.4 bar (165 psi)
13.1 bar (190 psi)
10.4 bar (150 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
710 mm(27.95 in)
965 mm(38 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
F_AC_070200_1_0290101_01_01
Landing Gear FootprintMTOW 253 500 kg
FIGURE-7-2-0-991-029-A01
7-2-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 257 000 kg − A340−300
257 900 kg (568 575 lb)
1 050 x 395R16
11.6 bar (168 psi)
13.2 bar (191 psi)
10.9 bar (158 psi)
1 400 x 530R23 or 54 x 21−23 (bias)
1 400 x 530R23 or 54 x 21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
and MTOW 260 000 kg − A340−300
965 mm(38 in)
710 mm(27.95 in)
F_AC_070200_1_0300101_01_01
Landing Gear FootprintMTOW 257 000 kg
FIGURE-7-2-0-991-030-A01
7-2-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 260 000 kg − A340−300
260 900 kg (575 175 lb)
1 050 x 395R16
11.6 bar (168 psi)
13.2 bar (191 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
965 mm(38 in)
710 mm(27.95 in)
F_AC_070200_1_0310101_01_01
Landing Gear FootprintMTOW 260 000 kg (Sheet 1 of 2)
FIGURE-7-2-0-991-031-A01
7-2-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 260 000 kg − A340−300
260 900 kg (575 175 lb)
1 050x395R16
12.1 bar (175 psi)
14.2 bar (206 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0310102_01_00
Landing Gear FootprintMTOW 260 000 kg (Sheet 2 of 2)
FIGURE-7-2-0-991-031-A01
7-2-0Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 262 000 kg − A340−300
262 900 kg (575 175 lb)
1 050x395R16
12.1 bar (175 psi)
14.2 bar (206 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0340101_01_00
Landing Gear FootprintMTOW 262 000 kg
FIGURE-7-2-0-991-034-A01
7-2-0Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 271 000 kg − A340−300
271 900 kg (599 425 lb)
1 050x395R16
12.1 bar (175 psi)
14.2 bar (206 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0350101_01_00
Landing Gear FootprintMTOW 271 000 kg
FIGURE-7-2-0-991-035-A01
7-2-0Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 275 000 kg − A340−300
275 900 kg (608 250 lb)
1 050x395R16
12.1 bar (175 psi)
14.2 bar (206 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0360101_01_00
Landing Gear FootprintMTOW 275 000 kg
FIGURE-7-2-0-991-036-A01
7-2-0Page 8
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 276 500 kg − A340−300
277 400 kg (611 550 lb)
1 050x395R16
12.1 bar (175 psi)
14.2 bar (206 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
25 375 mm (83 ft 3 in)
26 372 mm (86 ft 6.2 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0370101_01_00
Landing Gear FootprintMTOW 276 500 kg
FIGURE-7-2-0-991-037-A01
7-2-0Page 9
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 253 500 kg − A340−200
254 400 kg (560 850 lb)
1 050x395R16
11.4 bar (165 psi)
13 bar (189 psi)
10.3 bar (149 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
23 241 mm (76 ft 3 in)
24 235 mm (79 ft 6.1 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0380101_01_00
Landing Gear FootprintMTOW 253 500 kg
FIGURE-7-2-0-991-038-A01
7-2-0Page 10
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 257 000 kg − A340−200
257 900 kg (568 575 lb)
1 050x395R16
11.6 bar (168 psi)
13.2 bar (191 psi)
10.9 bar (158 psi)
1 400x530R23 or 54x21−23 (bias)
1 400x530R23 or 54x21−23 (bias)
23 241 mm (76 ft 3 in)
24 235 mm (79 ft 6.1 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0390101_01_00
Landing Gear FootprintMTOW 257 000 kg
FIGURE-7-2-0-991-039-A01
7-2-0Page 11
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 260 000 kg − A340−200
260 900 kg (575 175 lb)
1 050 x 395R16
11.6 bar (168 psi)
13.2 bar (191 psi)
10.9 bar (158 psi)
1 400 x 530R23 or 54 x 21−23 (bias)
1 400 x 530R23 or 54 x 21−23 (bias)
23 241 mm (76 ft 3 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
24 235 mm (79 ft 6.1 in)
F_AC_070200_1_0400101_01_00
Landing Gear FootprintMTOW 260 000 kg
FIGURE-7-2-0-991-040-A01
7-2-0Page 12
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
(78 in)
MAXIMUM RAMP WEIGHT
NOSE GEAR TIRE SIZE
NOSE GEAR TIRE PRESSURE
WING GEAR TIRE SIZE
WING GEAR TIRE PRESSURE
CENTER GEAR TIRE SIZE
CENTER GEAR TIRE PRESSURE
DIMENSIONS IN MILLIMETERS(FEET AND INCHES IN BRACKETS).
NOTE:
PERCENTAGE OF WEIGHTON MAIN GEAR GROUP
See Section 7−4−1 Figure: Landing Gear Loading onPavement − MTOW 275 000 kg − A340−200
275 900 kg (608 250 lb)
1 050 x 395R16
13.1 bar (190 psi)
14.2 bar (206 psi)
10.9 bar (158 psi)
1 400 x 530R23 or 54 x 21−23 (bias)
1 400 x 530R23 or 54 x 21−23 (bias)
23 241 mm (76 ft 3 in)
24 235 mm (79 ft 6.1 in)
1 397 mm(55 in)
1 981 mm
10 684 mm(35 ft 0.6 in)
710 mm(27.95 in)
965 mm(38 in)
F_AC_070200_1_0410101_01_00
Landing Gear FootprintMTOW 275 000 kg
FIGURE-7-2-0-991-041-A01
7-2-0Page 13
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-3-0 Maximum Pavement Loads
**ON A/C A340-200 A340-300
Maximum Pavement Loads
1. This section gives Maximum Pavement Loads.
7-3-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
V (N
G)
V (M
G)
H
MA
XIM
UM
VE
RT
ICA
L N
OS
E G
EA
R G
RO
UN
D L
OA
D A
T M
OS
T F
OR
WA
RD
CG
MA
XIM
UM
HO
RIZ
ON
TA
L G
RO
UN
D L
OA
D F
RO
M B
RA
KIN
G
(1)
NO
TE
:ALL
LO
AD
S C
ALC
ULA
TE
D U
SIN
G A
IRP
LAN
E M
AX
IMU
M R
AM
P W
EIG
HT
V (N
G)
V
H
MA
XIM
UM
VE
RT
ICA
L M
AIN
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
GV (
MG
)M
AX
IMU
M V
ER
TIC
AL
CE
NT
ER
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
G
(2)
V (C
G)
MR
W =
271
900
kg
FW
D C
G =
21.
5 %
MA
CM
RW
= 2
62 9
00 k
g F
WD
CG
= 2
0.5
% M
AC
MR
W =
260
900
kg
FW
D C
G =
20.
3 %
MA
C
MR
W =
271
900
kg
AF
T C
G =
37.
63 %
MA
CM
RW
= 2
62 9
00 k
g A
FT
CG
= 3
7.9
% M
AC
MR
W =
260
900
kg
AF
T C
G =
38.
02 %
MA
C
(CG
)
F_AC_070300_1_0070101_01_01
1
lbkg
ST
AT
IC B
RA
KIN
G
DE
CE
LER
AT
ION
ST
AT
IC L
OA
D A
T
(2)
ST
AT
IC L
OA
D A
T
(1)
MO
DE
L
VN
GV
MG
(P
ER
ST
RU
T)
34
5H
(P
ER
ST
RU
T)
AT
INS
TA
NT
AN
EO
US
BR
AK
ING
CO
EF
FIC
IEN
T =
0.8
ST
EA
DY
BR
AK
ING
DE
CE
LER
AT
ION
MA
X A
FT
C.G
MO
ST
FW
D C
.G
lbkg
MA
XIM
UM
RA
MP
WE
IGH
T
2
lbkg
lbkg
lbkg
76
VC
G
lbkg
ST
AT
IC L
OA
D A
T
MA
X A
FT
C.G
lbkg
599
425
579
600
575
175
271
900
262
900
260
900
60 1
00
59 7
25
59 5
75
27 2
60
27 0
90
27 0
30
92 6
00
91 2
25
90 8
50
42 0
00
41 3
80
41 2
10
239
650
231
825
230
325
108
710
105
160
104
480
88 0
00
85 3
00
84 3
50
39 9
20
38 6
90
38 2
60
@ 1
0 F
.P.S
²@
10
F.P
.S ²
−30
0
−30
0
−30
0
93 1
50
90 0
75
89 3
75
42 2
50
40 8
60
40 5
50
191
725
185
475
184
275
86 9
70
84 1
30
83 5
80
Maximum Pavement LoadsFIGURE-7-3-0-991-007-A01
7-3-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
V (N
G)
V (M
G)
H
MA
XIM
UM
VE
RT
ICA
L N
OS
E G
EA
R G
RO
UN
D L
OA
D A
T M
OS
T F
OR
WA
RD
CG
MA
XIM
UM
HO
RIZ
ON
TA
L G
RO
UN
D L
OA
D F
RO
M B
RA
KIN
G
(1)
NO
TE
:A
LL L
OA
DS
CA
LCU
LAT
ED
US
ING
AIR
PLA
NE
MA
XIM
UM
RA
MP
WE
IGH
T
V (N
G)
V H
MA
XIM
UM
VE
RT
ICA
L M
AIN
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
GV (
MG
)M
AX
IMU
M V
ER
TIC
AL
CE
NT
ER
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
G
(2)
V (C
G)
(CG
)
MR
W =
277
400
kg
FW
D C
G =
24
% M
AC
RM
W =
277
400
kg
AF
T C
G =
35
% M
AC
MR
W =
275
900
kg
FW
D C
G =
21.
9 %
MA
C
MR
W =
275
900
kg
AF
T C
G =
37.
5 %
MA
C
F_AC_070300_1_0080101_01_00
1
lbkg
ST
AT
IC B
RA
KIN
G
DE
CE
LER
AT
ION
ST
AT
IC L
OA
D A
T
(2)
ST
AT
IC L
OA
D A
T
(1)
MO
DE
L
VN
GV
MG
(P
ER
ST
RU
T)
34
5H
(P
ER
ST
RU
T)
AT
INS
TA
NT
AN
EO
US
BR
AK
ING
CO
EF
FIC
IEN
T =
0.8
ST
EA
DY
BR
AK
ING
DE
CE
LER
AT
ION
MA
X A
FT
C.G
MO
ST
FW
D C
.G
lbkg
MA
XIM
UM
RA
MP
WE
IGH
T
2
lbkg
lbkg
lbkg
76
VC
G
lbkg
ST
AT
IC L
OA
D
AT
MA
X A
FT
C.G
lbkg
611
550
608
250
277
400
275
900
56 9
50
60 3
00
25 8
30
27 3
50
90 0
50
93 2
50
40 8
50
42 3
00
242
750
243
200
110
120
110
310
89 1
00
40 1
90
40 4
10
88 6
00
@ 1
0 F
.P.S
²@
10
F.P
.S ²
−30
0
−30
0
95 0
50
94 5
25
43 1
10
42 8
80
194
200
88 0
90
194
550
88 2
50
Maximum Pavement LoadsFIGURE-7-3-0-991-008-A01
7-3-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
V (N
G)
V (M
G)
H
MA
XIM
UM
VE
RT
ICA
L N
OS
E G
EA
R G
RO
UN
D L
OA
D A
T M
OS
T F
OR
WA
RD
CG
MA
XIM
UM
HO
RIZ
ON
TA
L G
RO
UN
D L
OA
D F
RO
M B
RA
KIN
G
(1)
NO
TE
:A
LL L
OA
DS
CA
LCU
LAT
ED
US
ING
AIR
PLA
NE
MA
XIM
UM
RA
MP
WE
IGH
T
V (N
G)
V H
MA
XIM
UM
VE
RT
ICA
L M
AIN
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
GV (
MG
)M
AX
IMU
M V
ER
TIC
AL
CE
NT
ER
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
G
(2)
V (C
G)
(CG
)
MR
W =
275
900
kg
FW
D C
G =
23.
7 %
MA
CM
RW
= 2
60 9
00 k
g F
WD
CG
= 2
5.15
% M
AC
MR
W =
254
400
kg
FW
D C
G =
24.
2 %
MA
C
MR
W =
275
900
kg
AF
T C
G =
37
% M
AC
MR
W =
260
900
kg
AF
T C
G =
37.
5 %
MA
CM
RW
= 2
54 4
00 k
g F
WD
CG
= 3
7.7
% M
AC
F_AC_070300_1_0090101_01_00
1
lbkg
DE
CE
LER
AT
ION
ST
AT
IC L
OA
D A
T
(2)
ST
AT
IC L
OA
D A
T
(1)
MO
DE
L
VN
GV
MG
(P
ER
ST
RU
T)
34
5H
(P
ER
ST
RU
T)
AT
INS
TA
NT
AN
EO
US
BR
AK
ING
CO
EF
FIC
IEN
T =
0.8
ST
EA
DY
BR
AK
ING
DE
CE
LER
AT
ION
MA
X A
FT
C.G
MO
ST
FW
D C
.G
lbkg
MA
XIM
UM
RA
MP
WE
IGH
T
2
lbkg
254
400
lbkg
lbkg
76
VC
G
lbkg
ST
AT
IC L
OA
D A
T
MA
X A
FT
C.G
lbkg
608
250
575
175
560
850
275
900
260
900
62 5
75
56 8
50
57 1
00
28 3
80
25 7
90
25 9
00
98 5
25
90 7
25
90 2
00
44 6
90
41 1
60
40 9
20
241
675
225
400
219
250
109
620
102
230
99 4
50
87 9
25
90 2
00
89 2
50
39 8
80
40 9
10
40 4
80
−20
0
−20
0
−20
0
ST
AT
IC B
RA
KIN
G@
10
F.P
.S ²
@ 1
0 F
.P.S
²
94 5
25
89 3
75
87 1
52
42 8
80
40 5
50
39 5
30
193
350
87 7
00
180
300
81 7
90
175
400
79 5
60
Maximum Pavement LoadsFIGURE-7-3-0-991-009-A01
7-3-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
V (N
G)
V (M
G)
H
MA
XIM
UM
VE
RT
ICA
L N
OS
E G
EA
R G
RO
UN
D L
OA
D A
T M
OS
T F
OR
WA
RD
CG
MA
XIM
UM
HO
RIZ
ON
TA
L G
RO
UN
D L
OA
D F
RO
M B
RA
KIN
G
(1)
NO
TE
:A
LL L
OA
DS
CA
LCU
LAT
ED
US
ING
AIR
PLA
NE
MA
XIM
UM
RA
MP
WE
IGH
T
V (N
G)
V H
MA
XIM
UM
VE
RT
ICA
L M
AIN
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
GV (
MG
)M
AX
IMU
M V
ER
TIC
AL
CE
NT
ER
GE
AR
GR
OU
ND
LO
AD
AT
MO
ST
AF
T C
G
(2)
V (C
G)
(CG
)
MR
W =
260
900
kg
FW
D C
G =
23
% M
AC
MR
W =
257
900
kg
FW
D C
G =
22.
5 %
MA
CM
RW
= 2
54 4
00 k
g F
WD
CG
= 2
2 %
MA
C
MR
W =
260
900
kg
AF
T C
G =
35
% M
AC
MR
W =
257
900
kg
AF
T C
G =
38.
05 %
MA
CM
RW
= 2
54 4
00 k
g F
WD
CG
= 3
8.18
% M
AC
F_AC_070300_1_0100101_01_00
1
lbkg
ST
AT
IC B
RA
KIN
G
DE
CE
LER
AT
ION
ST
AT
IC L
OA
D A
T
(2)
ST
AT
IC L
OA
D A
T
(1)
MO
DE
L
VN
GV
MG
(P
ER
ST
RU
T)
34
5H
(P
ER
ST
RU
T)
AT
INS
TA
NT
AN
EO
US
BR
AK
ING
CO
EF
FIC
IEN
T =
0.8
ST
EA
DY
BR
AK
ING
DE
CE
LER
AT
ION
MA
X A
FT
C.G
MO
ST
FW
D C
.G
lbkg
MA
XIM
UM
RA
MP
WE
IGH
T
2
lbkg
575
175
260
900
568
575
257
900
560
850
254
400
lbkg
55 4
5025
160
55 6
7525
250
55 7
0025
270
lbkg
228
800
103
780
224
200
101
700
220
875
100
190
lbkg
ST
AT
IC L
OA
D A
T
MA
X A
FT
C.G
lbkg
86 5
2539
250
86 4
0039
190
86 0
5039
040
82 3
5037
360
40 9
4590
275
89 7
7540
720
−20
0
89 3
7540
550
183
050
83 0
30
88 3
50
87 1
50
40 0
80
39 5
30
179
350
81 3
60
176
700
80 1
50
@ 1
0 F
.P.S
²@
10
F.P
.S ²
76
VC
G
−20
0
−20
0
Maximum Pavement LoadsFIGURE-7-3-0-991-010-A01
7-3-0Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-4-0 Landing Gear Loading on Pavement
**ON A/C A340-200 A340-300
Landing Gear Loading on Pavement
**ON A/C A340-300
1. General
In the example shown in Section 7-4-1, Figure: Landing Gear Loading on Pavement - MTOW 253500 kg - A340-300The Gross Aircraft Weight is 200 000 kg (440 925 lb) and the percentage weight on the MainLanding Gear is 94.8 %.For these conditions the total weight on the Main Landing Gear Group is 189 500 kg (417 775 lb).
**ON A/C A340-200
2. General
In the example shown in Section 7-4-1, Figure: Landing Gear Loading on Pavement - MTOW 253500 kg - A340-200The Gross Aircraft Weight is 200 000 kg (440 925 lb) and the percentage weight on the MainLanding Gear is 94.1 %.For these conditions the total weight on the Main Landing Gear Group is 188 300 kg (415 130 lb).
7-4-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-4-1 Landing Gear Loading on Pavement
**ON A/C A340-200 A340-300
Landing Gear Loading on Pavement
1. This section gives Landing Gear Loading on Pavement.
7-4-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kgCG FOR ACN
CALCULATION
TAKE OFF & LANDING
TAKE OFFLANDING
MTOW = 253 500 kg
MZFW = 174 000 kg
MLW = 186 000 kg
F_AC_070401_1_0160101_01_02
Landing Gear Loading on PavementMTOW 253 500 kg
FIGURE-7-4-1-991-016-A01
7-4-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
PERCENTAGE MAC
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kgCG FOR ACN
CALCULATION
MTOW = 257 000 kg
MLW = 186 000 kg
TAKE OFF & LANDING
TAKE OFFLANDING
MZFW = 174 000 kg
F_AC_070401_1_0170101_01_02
Landing Gear Loading on PavementMTOW 257 000 kg
FIGURE-7-4-1-991-017-A01
7-4-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
55504540353025201510
CG FOR ACNCALCULATION
MTOW = 260 000 kg
LANDING
MLW = 186 000 kg
TAKE OFF
MZFW = 174 000 kg
TAKE OFF & LANDING
F_AC_070401_1_0180101_01_02
Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-1-991-018-A01
7-4-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
LANDING
TAKE OFF & LANDING
TAKE OFF
MLW = 188 000 kg
CG FOR ACNCALCULATION
MTOW = 257 000 kg
MTOW = 260 000 kg
F_AC_070401_1_0190101_01_01
MZFW = 178 000 kg
Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-1-991-019-A01
7-4-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
TAKE OFF & LANDING
TAKE OFFLANDING
MZFW = 178 000 kg
CG FOR ACNCALCULATION
MTOW = 260 000 kg
MLW = 190 000 kg
MLW = 188 000 kg
F_AC_070401_1_0200101_01_01
Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-1-991-020-A01
7-4-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
LANDINGLANDING
TAKE OFF &
CG FOR ACNCALCULATION
TAKE OFF
MTOW = 271 000 kg
MLW = 192 000 kg
MLW = 190 000 kg
MZFW = 178 000 kg
F_AC_070401_1_0210101_01_01
Landing Gear Loading on PavementMTOW 271 000 kg
FIGURE-7-4-1-991-021-A01
7-4-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
86 88 90 92 94 96 98 100110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
TAKE OFF & LANDING
TAKE OFF
LANDING
CG FOR ACNCALCULATION
MTOW = 275 000 kg
MLW = 192 000 kg
MZFW = 181 000 kg
F_AC_070401_1_0220101_01_01
MZFW = 180 000 kg
Landing Gear Loading on PavementMTOW 275 000 kg
FIGURE-7-4-1-991-022-A01
7-4-1Page 8
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
MTOW = 275 000 kg
TAKE OFF & LANDING
TAKE OFF
LANDING
MZFW = 178 000 kg
CG FOR ACNCALCULATION
MTOW = 276 500 kg
MTOW = 262 000 kg
MLW = 190 000 kg
F_AC_070401_1_0230101_01_01
Landing Gear Loading on PavementMTOW 276 500 kg
FIGURE-7-4-1-991-023-A01
7-4-1Page 9
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
55504540353025201510
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
86 88 90 92 94 96 98 100110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
LANDINGTAKE OFF &
TAKE OFF
LANDING
CG FOR ACNCALCULATION
MTOW = 276 500 kg
MLW = 192 000 kg
F_AC_070401_1_0240101_01_01
MZFW = 181 000 kg
Landing Gear Loading on PavementMTOW 276 500 kg
FIGURE-7-4-1-991-024-A01
7-4-1Page 10
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
555045403530252015
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
TAKE OFF & LANDING
LANDING
MZFW = 169 000 kg
TAKE OFF
MLW = 181 000 kg
MTOW = 253 500 kg
F_AC_070401_1_0250101_01_01
CG FOR ACNCALCULATION
Landing Gear Loading on PavementMTOW 253 500 kg
FIGURE-7-4-1-991-025-A01
7-4-1Page 11
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
555045403530252015
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
TAKE OFF & LANDING
MZFW = 169 000 kg
MLW = 181 000 kg
CG FOR ACNCALCULATION
TAKE OFF LANDING
F_AC_070401_1_0260101_01_01
MTOW = 257 000 kg
Landing Gear Loading on PavementMTOW 257 000 kg
FIGURE-7-4-1-991-026-A01
7-4-1Page 12
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
555045403530252015
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
TAKE OFF &LANDING
LANDING
MZFW = 169 000 kg
MLW = 181 000 kg
TAKE OFF
CG FOR ACNCALCULATION
F_AC_070401_1_0270101_01_01
MTOW = 260 000 kg
Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-1-991-027-A01
7-4-1Page 13
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
555045403530252015
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
86 88 90 92 94 96 98 100
PERCENTAGE OF WEIGHT ON MAIN GEAR GROUP
WE
IGH
T O
N M
AIN
LA
ND
ING
GE
AR
GR
OU
P −
x 1
000
kg
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
PERCENTAGE MAC
AIR
CR
AF
T G
RO
SS
WE
IGH
T−
x 1
000
kg
TAKE OFF & LANDING
LANDING
MLW = 185 000 kg
MTOW = 275 000 kg
MZFW = 173 000 kg
CG FOR ACNCALCULATION
TAKE OFF
F_AC_070401_1_0280101_01_01
Landing Gear Loading on PavementMTOW 275 000 kg
FIGURE-7-4-1-991-028-A01
7-4-1Page 14
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-4-2 Main Gear and Center Gear Loading on Pavement
**ON A/C A340-200 A340-300
Wing Gear and Center Landing Gear Loading on Pavement
1. The Main Landing Gear Group consists of two Wing Gears plus one Center Gear.
**ON A/C A340-300
2. For an airplane with 253 500 kg (558 872 lb) MTOW.
In the example shown in Section 7-4-3, Figure: Wing Gear and Center Landing Gear Loading onPavement - MTOW 253 500 kg - A340-300The Gross Aircraft Weight is 220 000 kg (485 017 lb) at Aft CG for ACN Calculations.For these conditions the load on the two Wing Gears is 175 660 kg (387 264 lb) and the load on theCenter Gear is 32 870 kg (72 466 lb).The total weight on the Main Landing Gear Group is 208 530 kg (459 730 lb).
**ON A/C A340-200
3. For an airplane with 253 500 kg (558 872 lb) MTOW.
In the example shown in Section 7-4-3, Figure: Wing Gear and Center Landing Gear Loading onPavement - MTOW 253 500 kg - A340-200The Gross Aircraft Weight is 220 000 kg (485 017 lb) at Aft CG for ACN Calculations.For these conditions the load on the two Wing Gears is 174 920 kg (385 632 lb) and the load on theCenter Gear is 32 180 kg (70 945 lb).The total weight on the Main Landing Gear Group is 207 100 kg (456 577 lb).
7-4-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-4-3 Main Gear and Center Gear Loading on Pavement
**ON A/C A340-200 A340-300
Wing Gear and Center Landing Gear Loading on Pavement
1. This section gives Wing Gear and Center Landing Gear Loading on Pavement.
7-4-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
20406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.18
% M
AC
.
550
525
475
500
250
275
300
325
350
375
400
425
450
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.1
bar
(190
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.4
bar
(150
psi
) @
CLG
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
1 40
0x53
0R23
40P
R T
IRE
S
GE
AR
CE
NT
ER
TW
O W
ING
GE
AR
S
ON
PA
VE
ME
NT
− M
TO
W 2
53 5
00 k
g −
A34
0−30
0
F_AC_070403_1_0010101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 253 500 kg
FIGURE-7-4-3-991-001-A01
7-4-3Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.05
% M
AC
.
550
525
475
500
250
275
300
325
350
375
400
425
450
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(190
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
1 40
0x53
0R23
40P
R T
IRE
S
GE
AR
CE
NT
ER
TW
O W
ING
GE
AR
S
ON
PA
VE
ME
NT
− M
TO
W 2
57 0
00 k
g −
A34
0−30
0
F_AC_070403_1_0020101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 257 000 kg
FIGURE-7-4-3-991-002-A01
7-4-3Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
5% M
AC
.
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
GE
AR
CE
NT
ER
TW
O W
ING
GE
AR
S
20406080100
120
140
160
180
200
220
280
270
260
250
240
230
220
210
200
190
180
170
160
150
140
130
120
110
ON
PA
VE
ME
NT
− M
TO
W 2
60 0
00 k
g −
A34
0−30
0
F_AC_070403_1_0030101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-3-991-003-A01
7-4-3Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.02
% M
AC
.
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
GE
AR
CE
NT
ER
TW
O W
ING
GE
AR
S
ON
PA
VE
ME
NT
− M
TO
W 2
60 0
00 k
g −
A34
0−30
0
F_AC_070403_1_0040101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-3-991-004-A01
7-4-3Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0
20406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.9%
MA
C.
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TW
O W
ING
GE
AR
S
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
GE
AR
CE
NT
ER
ON
PA
VE
ME
NT
− M
TO
W 2
62 0
00 k
g −
A34
0−30
0
F_AC_070403_1_0050101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 262 000 kg
FIGURE-7-4-3-991-005-A01
7-4-3Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
) @
MLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.63
% M
AC
.S
EE
SE
CT
ION
7.4
.1, F
IGU
RE
: LA
ND
ING
GE
AR
LO
AD
ING
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
TW
O W
ING
GE
AR
S
GE
AR
CE
NT
ER
F_AC_070403_1_0060101_01_01
ON
PA
VE
ME
NT
− M
TO
W 2
71 0
00 k
g −
A34
0−30
0
Wing Gear and Center Landing Gear Loading on PavementMTOW 271 000 kg
FIGURE-7-4-3-991-006-A01
7-4-3Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.5%
MA
C.
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
SS
EE
SE
CT
ION
7.4
.1, F
IGU
RE
: LA
ND
ING
GE
AR
LO
AD
ING
ON
PA
VE
ME
NT
− M
TO
W 2
75 0
00 k
g −
A34
0−30
0
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
TW
O W
ING
GE
AR
S
GE
AR
CE
NT
ER
F_AC_070403_1_0070101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 275 000 kg
FIGURE-7-4-3-991-007-A01
7-4-3Page 8
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
5 %
MA
C.
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
TW
O W
ING
GE
AR
S
GE
AR
CE
NT
ER
F_AC_070403_1_0080101_01_01
ON
PA
VE
ME
NT
− M
TO
W 2
76 5
00 k
g −
A34
0−30
0
Wing Gear and Center Landing Gear Loading on PavementMTOW 276 500 kg
FIGURE-7-4-3-991-008-A01
7-4-3Page 9
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.7%
MA
C.
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
550
525
475
500
250
275
300
325
350
375
400
425
450
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3 ba
r
(189
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.3
bar
(149
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
(x 1
000
lb)
GE
AR
CE
NT
ER
TW
O W
ING
GE
AR
S
ON
PA
VE
ME
NT
− M
TO
W 2
53 5
00 k
g −
A34
0−20
0
F_AC_070403_1_0090101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 253 500 kg
FIGURE-7-4-3-991-009-A01
7-4-3Page 10
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.5%
MA
C.
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
(x 1
000
lb)
GE
AR
CE
NT
ER
TW
O W
ING
GE
AR
S
ON
PA
VE
ME
NT
− M
TO
W 2
60 0
00 k
g −
A34
0−20
0
F_AC_070403_1_0100101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 260 000 kg
FIGURE-7-4-3-991-010-A01
7-4-3Page 11
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
020406080100
120
140
160
180
200
220 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7% M
AC
.
575
550
525
600
500
250
275
300
325
350
375
400
425
450
475
(x 1
000
kg)
(x 1 000 kg)
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
) @
MLG
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
0.9
bar
(158
psi
) @
CLG
1 40
0x53
0R23
40P
R T
IRE
S
LOAD ON CENTER GEAR OR LOAD ON TWO WING GEARS
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
SE
E S
EC
TIO
N 7
.4.1
, FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G
CE
NT
ER
GE
AR
TW
O W
ING
GE
AR
S
ON
PA
VE
ME
NT
− M
TO
W 2
75 0
00 k
g −
A34
0−20
0
F_AC_070403_1_0110101_01_01
Wing Gear and Center Landing Gear Loading on PavementMTOW 275 000 kg
FIGURE-7-4-3-991-011-A01
7-4-3Page 12
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-5-0 Flexible Pavement Requirements - U.S. Army Corps of Engineers Design Method
**ON A/C A340-200 A340-300
Flexible Pavement Requirements - U.S. Army Corps of Engineers Design Method
**ON A/C A340-300
1. General
To find a Flexible Pavement Thickness, the Subgrade Strength (CBR), the Annual Departure Leveland the weight on one Main Landing must be known.
In the example shown in Section 7-5-1, Figure: Flexible Pavement Requirements - MTOW 253 500 kg- A340-300- A ”CBR” value of 10- An Annual Departure Level of 3 000- And the load on one Main Landing Gear of 80 000 kg (176 370 lb)- The required Flexible Thickness is 50 cm (20 inches).
The line showing 10 000 Coverages is used to calculate Aircraft Classification Number (ACN).
**ON A/C A340-200
2. General
To find a Flexible Pavement Thickness, the Subgrade Strength (CBR), the Annual Departure Leveland the weight on one Main Landing must be known.
In the example shown in Section 7-5-1, Figure: Flexible Pavement Requirements - MTOW 253 500 kg- A340-200- A ”CBR” value of 10- An Annual Departure Level of 3 000- And the load on one Main Landing Gear of 80 000 kg (176 370 lb)- The required Flexible Thickness is 50 cm (20 inches).
The line showing 10 000 Coverages is used to calculate Aircraft Classification Number (ACN).
7-5-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-5-1 Flexible Pavement Requirements - U.S. Army Corps of Engineers Design Method S-77-1
**ON A/C A340-200 A340-300
Flexible Pavement Requirements - U.S. Army Corps of Engineers Design Method
1. This section gives Flexible Pavement Requirements.
7-5-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
3 6 6040
4063
[INCHES]
SUBGRADE STRENGTH − CBR
10 15 20 30 40 60 80 100 120 150 180
[CENTIMETERS]
FLEXIBLE PAVEMENT THICKNESS
1 400x530R23 TIRES
80
60 8050
50
TIRE PRESSURE CONSTANT AT 13.1 bar (190 psi)
10 15 20 30
10 15 20 30
60 000 kg (132 280 lb)
100 190 kg (220 875 lb) 90 000 kg (198 420 lb) 80 000 kg (176 370 lb) 70 000 kg (154 325 lb)
WEIGHT ON ONE MAIN LANDING GEAR
FOR ACN CALCULATIONS10 000 COVERAGES USED
6 00015 000
*20 YEAR PAVEMENT LIFE25 000
ALPHA FACTOR = 0.8
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
3 000
ANNUAL DEPARTURES*1 200
F_AC_070501_1_0070101_01_01
Flexible Pavement RequirementsMTOW 253 500 kg
FIGURE-7-5-1-991-007-A01
7-5-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
3 6
63
[INCHES]
SUBGRADE STRENGTH − CBR
10 15 20 30 40 60 80 100 120 150 180
[CENTIMETERS]
FLEXIBLE PAVEMENT THICKNESS
60 80
60 80
40
40 50
50
TIRE PRESSURE CONSTANT AT 13.2 bar (192 psi)1 400x530R23 TIRES
10 15 20 30
10 15 20 30
90 000 kg (198 420 lb) 80 000 kg (176 370 lb) 70 000 kg (154 325 lb) 60 000 kg (132 280 lb)
103 780 kg (228 800 lb)WEIGHT ON ONE MAIN LANDING GEAR
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
ALPHA FACTOR = 0.8
10 000 COVERAGES USED FOR ACN CALCULATIONS
3 0006 000
15 00025 000
1 200ANNUAL DEPARTURES*
*20 YEAR PAVEMENT LIFE
F_AC_070501_1_0080101_01_01
Flexible Pavement RequirementsMTOW 260 000 kg
FIGURE-7-5-1-991-008-A01
7-5-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
3 6
63
[INCHES]
SUBGRADE STRENGTH − CBR
10 15 20 30 40 60 80 100 120 150 180
[CENTIMETERS]
FLEXIBLE PAVEMENT THICKNESS
1 400x530R23 TIRESTIRE PRESSURE CONSTANT AT 14.2 bar (206 psi)
60 80
60 80
40
40 50
5010 15 20 30
10 15 20 30
10 000 COVERAGES USED FOR ACN CALCULATIONS
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
3 0006 000
15 000
ALPHA FACTOR = 0.8
25 000
1 200ANNUAL DEPARTURES*
*20 YEAR PAVEMENT LIFE
F_AC_070501_1_0090101_01_01
70 000 kg (154 325 lb)
110 120 kg (242 750 lb)WEIGHT ON ONE MAIN LANDING GEAR
100 000 kg (220 460 lb) 90 000 kg (198 420 lb) 80 000 kg (176 370 lb)
Flexible Pavement RequirementsMTOW 276 500 kg
FIGURE-7-5-1-991-009-A01
7-5-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
4063 60 805010 15 20 30
[INCHES]
10 15 20 30 40 60 80 100 120 150 180
[CENTIMETERS]
FLEXIBLE PAVEMENT THICKNESS
1 400x530R23 TIRES
TIRE PRESSURE CONSTANT AT 13 bar (189 psi)
4063 60 805010 15 20 30
SUBGRADE STRENGTH − CBR
60 000 kg (132 280 lb)
99 450 kg (219 250 lb) 90 000 kg (198 420 lb) 80 000 kg (176 370 lb) 70 000 kg (154 325 lb)
WEIGHT ON ONE MAIN LANDING GEAR
FOR ACN CALCULATIONS10 000 COVERAGES USED
6 00015 000
*20 YEAR PAVEMENT LIFE25 000
ALPHA FACTOR = 0.8
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
3 000
ANNUAL DEPARTURES*1 200
F_AC_070501_1_0100101_01_01
Flexible Pavement RequirementsMTOW 253 500 kg
FIGURE-7-5-1-991-010-A01
7-5-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
3 6
63
[INCHES]
SUBGRADE STRENGTH − CBR
10 15 20 30 40 60 80 100 120 150 180
[CENTIMETERS]
FLEXIBLE PAVEMENT THICKNESS
1 400x530R23 TIRESTIRE PRESSURE CONSTANT AT 13.2 bar (192 psi)
60 80
60 80
40
40 50
5010 15 20 30
10 15 20 30
60 000 kg (132 280 lb)
WEIGHT ON ONE MAIN LANDING GEAR 102 230 kg (225 400 lb)
90 000 kg (198 420 lb) 80 000 kg (176 370 lb) 70 000 kg (154 325 lb)
10 000 COVERAGES USED FOR ACN CALCULATIONS
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
15 00025 000
ALPHA FACTOR = 0.8
6 000
1 2003 000
ANNUAL DEPARTURES*
*20 YEAR PAVEMENT LIFE
F_AC_070501_1_0110101_01_01
Flexible Pavement RequirementsMTOW 260 000 kg
FIGURE-7-5-1-991-011-A01
7-5-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
3 6 6040
4063
[INCHES]
SUBGRADE STRENGTH − CBR
10 15 20 30 40 60 80 100 120 150 180
[CENTIMETERS]
FLEXIBLE PAVEMENT THICKNESS
1 400x530R23 TIRES
80
60 8050
50
TIRE PRESSURE CONSTANT AT 14.2 bar (206 psi)
3 0006 000
15 000
ANNUAL DEPARTURES*1 200
*20 YEAR PAVEMENT LIFE25 000
70 000 kg (154 325 lb)
109 620 kg (241 675 lb)100 000 kg (220 460 lb) 90 000 kg (198 420 lb) 80 000 kg (176 370 lb)
WEIGHT ON ONE MAIN LANDING GEAR
ALPHA FACTOR = 0.8
10 15 20 30
10 15 20 30
MAXIMUM POSSIBLE MAIN GEAR LOAD AT MAXIMUM RAMP WEIGHT AND AFT CG
F_AC_070501_1_0120101_01_01
FOR ACN CALCULATIONS10 000 COVERAGES USED
Flexible Pavement RequirementsMTOW 275 000 kg
FIGURE-7-5-1-991-012-A01
7-5-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-6-0 Flexible Pavement Requirements - LCN Conversion
**ON A/C A340-200 A340-300
Flexible Pavement Requirements - LCN Conversion
**ON A/C A340-300
1. General
In order to determine the airplane weight that can be accommodated on a particular FlexiblePavement, both the LCN of the pavement and the thickness (h) must be known.
In the example shown in Section 7-6-1, Figure: Flexible Pavement Requirements LCN - MTOW 253500 kg - A340-300
The thickness ”h” is shown at 762 mm (30 in.) with an LCN of 94.
For these conditions the weight on one Main Landing Gear is 90 000 kg (198 416 lb).
**ON A/C A340-200
2. General
In order to determine the airplane weight that can be accommodated on a particular FlexiblePavement, both the LCN of the pavement and the thickness (h) must be known.
In the example shown in Section 7-6-1, Figure: Flexible Pavement Requirements LCN - MTOW 253500 kg - A340-200
The thickness ”h” is shown at 762 mm (30 in.) with an LCN of 94.
For these conditions the weight on one Main Landing Gear is 90 000 kg (198 416 lb).
7-6-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-6-1 Flexible Pavement Requirements - LCN Conversion
**ON A/C A340-200 A340-300
Flexible Pavement Requirements - LCN Conversion
1. This section gives Flexible Pavement Requirements - LCN Conversion.
7-6-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
6070
8050
4030
2010
102030405060708090100
110
120
130
140
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
INC
HE
S)
100
9080
7060
150
120
180
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
51015202530354045505560
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
INIC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1400
x530
R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.1
BA
R (
190
PS
I)
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R 1
01 1
90 k
g
(220
875
lb)
90 0
00 k
g
(198
420
lb)
80 0
00 k
g
(176
370
lb)
70
000
kg
(15
4 32
5 lb
) 6
0 00
0 kg
(
132
280
lb)
MA
XIM
UM
PO
SS
IBLE
MA
IN G
EA
R L
OA
D A
T M
AX
IMU
M R
AM
P W
EIG
HT
AN
D A
FT
CG
EQUIVALENT SINGLE WHEEL LOAD [x 1000 lbs]
EQUIVALENT SINGLE WHEEL LOAD [x 1000 kg]
NO
TE
:
254
508
762
1016
1524
2032
F_AC_070601_1_0070101_01_01
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
MIL
LIM
ET
ER
S)
Flexible Pavement RequirementsMTOW 253 500 kg
FIGURE-7-6-1-991-007-A01
7-6-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
6070
8050
4030
2010
102030405060708090100
110
120
130
140
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
INC
HE
S)
100
9080
7060
150
120
180
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
51015202530354045505560
NO
TE
:IC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1400
x530
R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
BA
R (
192
PS
I)
MA
XIM
UM
PO
SS
IBLE
MA
IN G
EA
R L
OA
D A
T M
AX
IMU
M R
AM
P W
EIG
HT
AN
D A
FT
CG
103
800
kg
(22
8 80
0 lb
)
80
000
kg
(176
370
lb)
90
000
kg
(198
420
lb)
70
000
kg
(154
325
lb)
60
000
kg
(132
280
lb)
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R
EQUIVALENT SINGLE WHEEL LOAD [x 1000 lbs]
EQUIVALENT SINGLE WHEEL LOAD [x 1000 kg]
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
IN
254
508
762
1016
1524
2032
F_AC_070601_1_0080101_01_01
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
MIL
LIM
ET
ER
S)
Flexible Pavement RequirementsMTOW 260 000 kg
FIGURE-7-6-1-991-008-A01
7-6-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
6070
8050
4030
2010
102030405060708090100
110
120
130
140
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
INC
HE
S)
100
9080
7060
150
120
180
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
51015202530354045505560
NO
TE
:IC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1400
x530
R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
BA
R (
206
PS
I)
100
000
kg
(2
20 4
60 lb
) 1
10 1
20 k
g
(242
750
lb)
90
000
kg
(19
8 42
0 lb
) 8
0 00
0 kg
(
176
370
lb)
70
000
kg
(15
4 32
5 lb
)
MA
XIM
UM
PO
SS
IBLE
MA
IN G
EA
R L
OA
D A
T M
AX
IMU
M R
AM
P W
EIG
HT
AN
D A
FT
CG
EQUIVALENT SINGLE WHEEL LOAD [x 1000 lbs]
EQUIVALENT SINGLE WHEEL LOAD [x 1000 kg]
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
IN
254
508
762
1016
1524
2032
F_AC_070601_1_0090101_01_01
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
MIL
LIM
ET
ER
S)
Flexible Pavement RequirementsMTOW 276 500 kg
FIGURE-7-6-1-991-009-A01
7-6-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
6070
8050
4030
2010
102030405060708090100
110
120
130
140
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1000 lbs]
100
9080
7060
150
120
180
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
51015202530354045505560
NO
TE
: IC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1400
x530
R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3 B
AR
(18
9 P
SI)
70
000
kg
(15
4 32
5 lb
)
90
000
kg
(19
8 42
0 lb
) 8
0 00
0 kg
(
176
370
lb)
60
000
kg
(13
2 28
0 lb
)
99
450
kg
(21
9 25
0 lb
)W
EIG
HT
ON
ON
E M
AIN
LA
ND
ING
GE
AR
EQUIVALENT SINGLE WHEEL LOAD [x 1000 kg]
GE
AR
LO
AD
AT
MA
XIM
UM
RA
MP
WE
IGH
T A
ND
AF
T C
G
MA
XIM
UM
PO
SS
IBLE
MA
IN
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
IN
254
508
762
1016
1524
2032
F_AC_070601_1_0100101_01_01
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
MIL
LIM
ET
ER
S)
Flexible Pavement RequirementsMTOW 253 500 kg
FIGURE-7-6-1-991-010-A01
7-6-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
6070
8050
4030
2010
102030405060708090100
110
120
130
140
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1000 lbs]
100
9080
7060
150
120
180
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
51015202530354045505560
NO
TE
: ICA
O A
ER
OD
RO
ME
MA
NU
AL
PA
RT
2 P
AR
4.1
.3
Sec
ond
Edi
tion
1965
1400
x530
R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
BA
R (
192
PS
I)
EQUIVALENT SINGLE WHEEL LOAD [x 1000 kg]
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
IN
GE
AR
LO
AD
AT
MA
XIM
UM
RA
MP
WE
IGH
T A
ND
AF
T C
G
MA
XIM
UM
PO
SS
IBLE
MA
IN90
000
kg
(198
420
lb)
80 0
00 k
g (1
76 3
70 lb
)70
000
kg
(154
325
lb)
60 0
00 k
g (1
32 2
80 lb
)
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R10
2 25
0 kg
(22
5 40
0 lb
)
254
508
762
1016
1524
2032
F_AC_070601_1_0110101_01_01
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
MIL
LIM
ET
ER
S)
Flexible Pavement RequirementsMTOW 260 000 kg
FIGURE-7-6-1-991-011-A01
7-6-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
6070
8050
4030
2010
102030405060708090100
110
120
130
140
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
INC
HE
S)
100
9080
7060
150
120
180
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
51015202530354045505560
NO
TE
: ICA
O A
ER
OD
RO
ME
MA
NU
AL
PA
RT
2 P
AR
4.1
.3
Sec
ond
Edi
tion
1965
1400
x530
R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
BA
R (
206
PS
I)
EQUIVALENT SINGLE WHEEL LOAD [x 1000 lbs]
GE
AR
LO
AD
AT
MA
XIM
UM
RA
MP
WE
IGH
T A
ND
AF
T C
G
MA
XIM
UM
PO
SS
IBLE
MA
INW
EIG
HT
ON
ON
E M
AIN
LA
ND
ING
GE
AR
70
000
kg (
154
325
lb)
100
000
kg
(220
460
lb)
90
000
kg (
198
420
lb)
80
000
kg (
176
370
lb)
109
625
kg
(241
675
lb)
EQUIVALENT SINGLE WHEEL LOAD [x 1000 kg]
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
IN
254
508
762
1016
1524
2032
F_AC_070601_1_0120101_01_02
FLE
XIB
LE P
AV
EM
EN
T T
HIC
KN
ES
S (
MIL
LIM
ET
ER
S)
Flexible Pavement RequirementsMTOW 275 000 kg
FIGURE-7-6-1-991-012-A01
7-6-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-7-0 Rigid Pavement Requirements - Portland Cement Association Design Method
**ON A/C A340-200 A340-300
Rigid Pavement Requirements - Portland Cement Association Design Method
**ON A/C A340-300
1. General
To determine a Rigid Pavement Thickness, the Subgrade Modulus (k), the allowable working stressand the weight on one Main Landing Gear must be known.
In the example shown in Section 7-7-1, Figure: Rigid Pavement Requirements - MTOW 253 500 kg -A340-300- a ”k” value of 150 MN/m3 (550 lb/in3)- an allowable working stress of 39 kg/cm2 (550 lb/in2)- the load on one Main Landing Gear of 80 000 kg (176 370 lb) the required Rigid Pavement
Thickness is 22 cm (8.6 inches).
**ON A/C A340-200
2. General
To determine a Rigid Pavement Thickness, the Subgrade Modulus (k), the allowable working stressand the weight on one Main Landing Gear must be known.
In the example shown in Section 7-7-1, Figure: Rigid Pavement Requirements - MTOW 253 500 kg -A340-200- a ”k” value of 150 MN/m3 (550 lb/in3)- an allowable working stress of 39 kg/cm2 (550 lb/in2)- the load on one Main Landing Gear of 80 000 kg (176 370 lb) the required Rigid Pavement
Thickness is 22 cm (8.6 inches).
7-7-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-7-1 Rigid Pavement Requirements - Portland Cement Association Design Method
**ON A/C A340-200 A340-300
Rigid Pavement Requirements - Portland Cement Association Design Method
1. This section gives Rigid Pavement Requirements.
7-7-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
1400 x 530R23 TIRESTIRE PRESSURE CONSTANT = 13.1 BAR (190 PSI)
7
8
9
10
11
12
13
14
15
[INC
HE
S]
200
300
400
500
600
700
800
900
1000
36
34
32
30
28
26
24
22
20
RIG
ID P
AV
EM
EN
T T
HIC
KN
ES
S[C
EN
TIM
ET
ER
S]
15
20
25
30
35
40
45
50
55
60
65
70
ALL
OW
AB
LE W
OR
KIN
G S
TR
ES
SNOTES: REFERENCE:
[kg/
cm²]
[lb/c
m²]
"DESIGN OF CONCRETEAIRPORT PAVEMENTS" AND"COMPUTER PROGRAM FORAIRPORT PAVEMENT DESIGN−PROGRAM PDILB" PORTLANDCEMENT ASSOCIATION
THE VALUES OBTAINED BY USINGTHE MAXIMUM LOAD REFERENCELINE AND ANY VALUES FOR K AREEXACT.FOR LOADS LESS THAN MAXIMUM,THE CURVES ARE EXACT FOR K = 80 MN/mBUT DEVIATE SLIGHTLY FOR ANY OTHERVALUES OF K
F_AC_070701_1_0070101_01_00
K = 20 MN/mK = 40 MN/mK = 80 MN/mK = 150 MN/m
MAXIMUM POSSIBLE MAIN GEAR LOAD ATMAXIMUM RAMP WEIGHT AND AFT CG
90 000 kg (198 420 lb)80 000 kg (176 370 lb)70 000 kg (154 325 lb)60 000 kg (132 280 lb)
100 190 kg (220 875 lb)WEIGHT ON ONE MAIN LANDING GEAR
Rigid Pavement RequirementsMTOW 253 500 kg
FIGURE-7-7-1-991-007-A01
7-7-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
7
8
9
10
11
12
13
14
15
[INC
HE
S]
200
300
400
500
600
700
800
900
1000
36
34
32
30
28
26
24
22
20
RIG
ID P
AV
EM
EN
T T
HIC
KN
ES
S[C
EN
TIM
ET
ER
S]
15
20
25
30
35
40
45
50
55
60
65
70
ALL
OW
AB
LE W
OR
KIN
G S
TR
ES
SNOTES: REFERENCE:
[kg/
cm²]
[lb/c
m²]
"DESIGN OF CONCRETEAIRPORT PAVEMENTS" AND"COMPUTER PROGRAM FORAIRPORT PAVEMENT DESIGN−PROGRAM PDILB" PORTLANDCEMENT ASSOCIATION
1400 x 530R23 TIRESTIRE PRESSURE CONSTANT = 13.2 BAR (192 PSI)
THE VALUES OBTAINED BY USINGTHE MAXIMUM LOAD REFERENCELINE AND ANY VALUES FOR K AREEXACT.FOR LOADS LESS THAN MAXIMUM,THE CURVES ARE EXACT FOR K = 80 MN/mBUT DEVIATE SLIGHTLY FOR ANY OTHERVALUES OF K
MAXIMUM POSSIBLE MAIN GEAR LOAD ATMAXIMUM RAMP WEIGHT AND AFT CG
K = 20 MN/mK = 40 MN/mK = 80 MN/mK = 150 MN/m
90 000 kg (198 420 lb)80 000 kg (176 370 lb)70 000 kg (154 325 lb)60 000 kg (132 280 lb)
103 780 kg (228 800 lb)WEIGHT ON ONE MAIN LANDING GEAR
F_AC_070701_1_0080101_01_00
Rigid Pavement RequirementsMTOW 260 000 kg
FIGURE-7-7-1-991-008-A01
7-7-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
7
8
9
10
11
12
13
14
15
[INC
HE
S]
200
300
400
500
600
700
800
900
1000
36
34
32
30
28
26
24
22
20
RIG
ID P
AV
EM
EN
T T
HIC
KN
ES
S[C
EN
TIM
ET
ER
S]
15
20
25
30
35
40
45
50
55
60
65
70
ALL
OW
AB
LE W
OR
KIN
G S
TR
ES
SNOTES: REFERENCE:
[kg/
cm²]
[lb/c
m²]
"DESIGN OF CONCRETEAIRPORT PAVEMENTS" AND"COMPUTER PROGRAM FORAIRPORT PAVEMENT DESIGN−PROGRAM PDILB" PORTLANDCEMENT ASSOCIATION
1400 x 530R23 TIRESTIRE PRESSURE CONSTANT = 14.2 BAR (206 PSI)
THE VALUES OBTAINED BY USINGTHE MAXIMUM LOAD REFERENCELINE AND ANY VALUES FOR K AREEXACT.FOR LOADS LESS THAN MAXIMUM,THE CURVES ARE EXACT FOR K = 80 MN/mBUT DEVIATE SLIGHTLY FOR ANY OTHERVALUES OF K
F_AC_070701_1_0090101_01_00
K = 20 MN/mK = 40 MN/mK = 80 MN/mK = 150 MN/m
70 000 kg (154 325 lb)
110 120 kg (242 750 lb)
90 000 kg (198 420 lb)80 000 kg (176 370 lb)
100 000 kg (220 460 lb)
WEIGHT ON ONE MAIN LANDING GEAR
MAXIMUM POSSIBLE MAIN GEAR LOAD ATMAXIMUM RAMP WEIGHT AND AFT CG
Rigid Pavement RequirementsMTOW 276 500 kg
FIGURE-7-7-1-991-009-A01
7-7-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
7
8
9
10
11
12
13
14
15
[INC
HE
S]
200
300
400
500
600
700
800
900
1000
36
34
32
30
28
26
24
22
20
RIG
ID P
AV
EM
EN
T T
HIC
KN
ES
S[C
EN
TIM
ET
ER
S]
15
20
25
30
35
40
45
50
55
60
65
70
ALL
OW
AB
LE W
OR
KIN
G S
TR
ES
S
1400 x 530R23 TIRESTIRE PRESSURE CONSTANT = 13 BAR (189 PSI)
NOTES: REFERENCE:
[kg/
cm²]
[lb/c
m²]
"DESIGN OF CONCRETEAIRPORT PAVEMENTS" AND"COMPUTER PROGRAM FORAIRPORT PAVEMENT DESIGN−PROGRAM PDILB" PORTLANDCEMENT ASSOCIATION
THE VALUES OBTAINED BY USINGTHE MAXIMUM LOAD REFERENCELINE AND ANY VALUES FOR K AREEXACT.FOR LOADS LESS THAN MAXIMUM,THE CURVES ARE EXACT FOR K = 80 MN/mBUT DEVIATE SLIGHTLY FOR ANY OTHERVALUES OF K
K = 20 MN/mK = 40 MN/mK = 80 MN/mK = 150 MN/m
90 000 kg (198 420 lb) 80 000 kg (176 370 lb) 70 000 kg (154 325 lb) 60 000 kg (132 280 lb)
MAXIMUM POSSIBLE MAIN GEAR LOAD ATMAXIMUM RAMP WEIGHT AND AFT CG
WEIGHT ON ONE MAIN LANDING GEAR 99 450 kg (219 250 lb)
F_AC_070701_1_0100101_01_00
Rigid Pavement RequirementsMTOW 253 500 kg
FIGURE-7-7-1-991-010-A01
7-7-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
900
7
8
9
10
11
12
13
14
15
[INC
HE
S]
200
300
400
500
600
700
800
1000
36
34
32
30
28
26
24
22
20
RIG
ID P
AV
EM
EN
T T
HIC
KN
ES
S[C
EN
TIM
ET
ER
S]
15
20
25
30
35
40
45
50
55
60
65
70
ALL
OW
AB
LE W
OR
KIN
G S
TR
ES
SNOTES: REFERENCE:
[kg/
cm²]
[lb/c
m²]
"DESIGN OF CONCRETEAIRPORT PAVEMENTS" AND"COMPUTER PROGRAM FORAIRPORT PAVEMENT DESIGN−PROGRAM PDILB" PORTLANDCEMENT ASSOCIATION
1400 x 530R23 TIRESTIRE PRESSURE CONSTANT = 13.2 BAR (192 PSI)
THE VALUES OBTAINED BY USINGTHE MAXIMUM LOAD REFERENCELINE AND ANY VALUES FOR K AREEXACT.FOR LOADS LESS THAN MAXIMUM,THE CURVES ARE EXACT FOR K = 80 MN/mBUT DEVIATE SLIGHTLY FOR ANY OTHERVALUES OF K
K = 20 MN/mK = 40 MN/mK = 80 MN/mK = 150 MN/m
MAXIMUM POSSIBLE MAIN GEAR LOAD ATMAXIMUM RAMP WEIGHT AND AFT CG
90 000 kg (198 420 lb)80 000 kg (176 370 lb)70 000 kg (154 325 lb)60 000 kg (132 280 lb)
WEIGHT ON ONE MAIN LANDING GEAR102 230 kg (225 400 lb)
F_AC_070701_1_0110101_01_00
Rigid Pavement RequirementsMTOW 260 000 kg
FIGURE-7-7-1-991-011-A01
7-7-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
1400 x 530R23 TIRESTIRE PRESSURE CONSTANT = 14.2 BAR (206 PSI)
7
8
9
10
11
12
13
14
15
[INC
HE
S]
200
300
400
500
600
700
800
900
1000
36
34
32
30
28
26
24
22
20
RIG
ID P
AV
EM
EN
T T
HIC
KN
ES
S[C
EN
TIM
ET
ER
S]
15
20
25
30
35
40
45
50
55
60
65
70
ALL
OW
AB
LE W
OR
KIN
G S
TR
ES
SNOTES: REFERENCE:
[kg/
cm²]
[lb/c
m²]
"DESIGN OF CONCRETEAIRPORT PAVEMENTS" AND"COMPUTER PROGRAM FORAIRPORT PAVEMENT DESIGN−PROGRAM PDILB" PORTLANDCEMENT ASSOCIATION
THE VALUES OBTAINED BY USINGTHE MAXIMUM LOAD REFERENCELINE AND ANY VALUES FOR K AREEXACT.FOR LOADS LESS THAN MAXIMUM,THE CURVES ARE EXACT FOR K = 80 MN/mBUT DEVIATE SLIGHTLY FOR ANY OTHERVALUES OF K
F_AC_070701_1_0120101_01_00
K = 20 MN/mK = 40 MN/mK = 80 MN/mK = 150 MN/m
100 000 kg (220 460 lb)90 000 kg (198 420 lb)80 000 kg (176 370 lb)70 000 kg (154 325 lb)
MAXIMUM RAMP WEIGHT AND AFT CGMAXIMUM POSSIBLE MAIN GEAR LOAD AT
WEIGHT ON ONE MAIN LANDING GEAR109 620 kg (241 675 lb)
Rigid Pavement RequirementsMTOW 275 000 kg
FIGURE-7-7-1-991-012-A01
7-7-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-8-0 Rigid Pavement Requirements - LCN Conversion
**ON A/C A340-200 A340-300
Rigid Pavement Requirements - LCN Conversion
**ON A/C A340-300
1. General
In order to determine the airplane weight that can be accommodated on a particular Rigid Pavement,both the LCN of the pavement and the Radius of Relative Stiffness (L) must be known.
In the example shown in Section 7-8-2, Figure: Rigid Pavement Requirements LCN - MTOW 253 500kg - A340-300
The Radius of Relative Stiffness is shown at 1016 mm (40 in.) with an LCN of 83.
For these conditions the weight on one Main Landing Gear is 90 000 kg (198 416 lb).
**ON A/C A340-200
2. General
In order to determine the airplane weight that can be accommodated on a particular Rigid Pavement,both the LCN of the pavement and the Radius of Relative Stiffness (L) must be known.
In the example shown in Section 7-8-2, Figure: Rigid Pavement Requirements LCN - MTOW 253 500kg - A340-200
The Radius of Relative Stiffness is shown at 1016 mm (40 in.) with an LCN of 83.
For these conditions the weight on one Main Landing Gear is 90 000 kg (198 416 lb).
7-8-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-8-1 Radius of Relative Stiffness
**ON A/C A340-200 A340-300
Radius of Relative Stiffness
1. This section gives Radius of Relative Stiffness.
7-8-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
d6.06.57.07.5
K=75 K=100 K=150 K=200 K=250 K=300 K=350 K=400 K=550
8.08.59.09.5
10.010.511.011.512.012.513.013.514.014.515.015.516.016.517.017.518.019.020.021.022.023.024.025.0
31.4833.4335.3437.2239.0640.8842.6744.4346.1847.9049.6051.2852.9454.5956.2257.8359.4361.0262.5964.1565.6967.2368.7570.2671.7674.7377.6680.5583.4186.2489.0491.81
29.3031.1132.8934.6336.3538.0439.7141.3542.9744.5746.1647.7249.2750.8052.3253.8255.3156.7858.2559.7061.1362.5663.9865.3866.7869.5472.2774.9677.6380.2682.8685.44
26.4728.1129.7231.2932.8534.3735.8837.3638.8340.2841.7143.1244.5245.9047.2748.6349.9851.3152.6353.9455.2456.5357.8159.0860.3462.8465.3067.7470.1472.5274.8777.20
24.6326.1627.6529.1230.5731.9933.3934.7736.1437.4838.8140.1341.4342.7243.9945.2646.5147.7548.9850.2051.4152.6153.8054.9856.1558.4860.7763.0465.2867.4969.6871.84
23.3024.7426.1527.5428.9130.2531.5832.8934.1735.4536.7137.9539.1840.4041.6142.8043.9845.1646.3247.4748.6249.7550.8852.0053.1155.3157.4759.6261.7363.8365.9067.95
22.2623.6424.9926.3227.6228.9130.1731.4232.6533.8735.0736.2637.4438.6039.7540.8942.0243.1544.2645.3646.4547.5448.6149.6850.7452.8454.9156.9658.9860.9862.9664.92
21.4222.7424.0425.3226.5827.8129.0330.2331.4232.5933.7534.8936.0237.1438.2539.3540.4441.5142.5843.6444.7045.7446.7747.8048.8250.8452.8454.8156.7558.6860.5862.46
20.7222.0023.2524.4925.7026.9028.0829.2430.3931.5232.6433.7434.8435.9236.9938.0639.1140.1541.1942.2143.2344.2445.2446.2347.2249.1751.1053.0154.8956.7558.5960.41
19.1320.3121.4722.6123.7424.8425.9327.0028.0629.1130.1431.1632.1733.1734.1635.1436.1237.0838.0338.9839.9240.8541.7842.7043.6145.4147.1948.9550.6952.4154.1155.79
RADIUS OF RELATIVE STIFFNESS (L)VALUES IN INCHES
L =
E = Young’s Modulus = 4 x 10 psi
k = Subgrade Modulus, Lbf/in
d = Rigid Pavement Thickness, inches
= Poisson’s Ratio = 0.15
Ed12 (1 − ² ) k = 24.1652
dk
WHERE
3
6
3
4 43
F_AC_070801_1_0020101_01_00
Radius of relative stiffness(Reference : Portland Cement Association)
FIGURE-7-8-1-991-002-A01
7-8-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-8-2 Rigid Pavement Requirements - LCN Conversion
**ON A/C A340-200 A340-300
Rigid Pavement Requirements - LCN Conversion
1. This section gives Rigid Pavement Requirements - LCN Conversion.
7-8-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
6070
8090
100
5040
3020
102030405060708090100
110
120
120
150
6070
8090
100
50
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
5101520253035404550
NO
TE
: IC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1 40
0x53
0R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.1
bar
(190
psi
)
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
INC
HE
S)
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
IN
60 0
00 k
g (1
32 2
80 lb
)70
000
kg
(154
325
lb)
80 0
00 k
g (1
76 3
70 lb
)90
000
kg
(198
420
lb)
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R10
1 19
0 kg
(22
0 87
5 lb
)G
EA
R L
OA
D A
T M
AX
IMU
MR
AM
P W
EIG
HT
AN
D A
FT
CG
MA
XIM
UM
PO
SS
IBLE
MA
IN
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 lb]
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 kg]
508
762
1 01
61
524
2 03
22
540
F_AC_070802_1_0070101_01_01
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
MIL
LIM
ET
ER
S)
Rigid Pavement Requirements LCNMTOW 253 500 kg
FIGURE-7-8-2-991-007-A01
7-8-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
6070
8090
100
5040
3020
102030405060708090100
110
120
120
150
6070
8090
100
50
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
5101520253035404550
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
INIC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1 40
0x53
0R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 lb]
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 kg]
103
800
kg (
228
800
lb)
90 0
00 k
g (1
98 4
20 lb
)80
000
kg
(176
370
lb)
70 0
00 k
g (1
54 3
25 lb
)60
000
kg
(132
280
lb)
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
RM
AX
IMU
M P
OS
SIB
LE M
AIN
GE
AR
LO
AD
AT
MA
XIM
UM
RA
MP
WE
IGH
T A
ND
AF
T C
G
NO
TE
:
508
762
1 01
61
524
2 03
22
540
F_AC_070802_1_0080101_01_01
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
MIL
LIM
ET
ER
S)
Rigid Pavement Requirements LCNMTOW 260 000 kg
FIGURE-7-8-2-991-008-A01
7-8-2Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
6070
8090
100
5040
3020
102030405060708090100
110
120
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 lb]
120
150
6070
8090
100
50
LOA
D C
LAS
SIF
ICA
TIO
N N
UM
BE
R (
LCN
)
5101520253035404550
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
INIC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1 40
0x53
0R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 kg]
MA
XIM
UM
PO
SS
IBLE
MA
IN G
EA
R L
OA
D A
TM
AX
IMU
M R
AM
P W
EIG
HT
AN
D A
FT
CG
NO
TE
:
110
120
kg (
242
750
lb)
90 0
00 k
g (1
98 4
20 lb
)80
000
kg
(176
370
lb)
70 0
00 k
g (1
54 3
25 lb
)
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R
100
000
kg (
220
460
lb)
508
762
1 01
61
524
2 03
22
540
F_AC_070802_1_0090101_01_01
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
MIL
LIM
ET
ER
S)
Rigid Pavement Requirements LCNMTOW 276 500 kg
FIGURE-7-8-2-991-009-A01
7-8-2Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
6070
8090
100
5040
3020
2030405060708090100
110
120
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 lb]
120
150
6070
8090
100
50LO
AD
CLA
SS
IFIC
AT
ION
NU
MB
ER
(LC
N)
5101520253035404550
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
INIC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1 40
0x53
0R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3 ba
r (1
89 p
si)
10
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 kg]
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R
90 0
00 k
g (1
98 4
20 lb
)99
450
kg
(219
250
lb)
70 0
00 k
g (1
54 3
25 lb
)80
000
kg
(176
370
lb)
60 0
00 k
g (1
32 2
80 lb
)
MA
XIM
UM
PO
SS
IBLE
MA
IN G
EA
R L
OA
D A
TM
AX
IMU
M R
AM
P W
EIG
HT
AN
D A
FT
CG
NO
TE
:
508
762
1 01
61
524
2 03
22
540
F_AC_070802_1_0100101_01_01
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
MIL
LIM
ET
ER
S)
Rigid Pavement Requirements LCNMTOW 253 500 kg
FIGURE-7-8-2-991-010-A01
7-8-2Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
6070
8090
100
5040
3020
102030405060708090100
110
120
120
150
6070
8090
100
50LO
AD
CLA
SS
IFIC
AT
ION
NU
MB
ER
(LC
N)
5101520253035404550
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
INIC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1 40
0x53
0R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 lb]
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 kg]
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R
90 0
00 k
g (1
98 4
20 lb
)10
2 25
0 kg
(22
5 40
0 lb
)
80 0
00 k
g (1
76 3
70 lb
)70
000
kg
(154
325
lb)
60 0
00 k
g (1
32 2
75 lb
)
MA
XIM
UM
RA
MP
WE
IGH
T A
ND
AF
T C
GM
AX
IMU
M P
OS
SIB
LE M
AIN
GE
AR
LO
AD
AT
NO
TE
:
508
762
1 01
61
524
2 03
22
540
F_AC_070802_1_0110101_01_01
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
MIL
LIM
ET
ER
S)
Rigid Pavement Requirements LCNMTOW 260 000 kg
FIGURE-7-8-2-991-011-A01
7-8-2Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
6070
8090
100
5040
3020
102030405060708090
100
110
120
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 lb]
120
150
6070
8090
100
50LO
AD
CLA
SS
IFIC
AT
ION
NU
MB
ER
(LC
N)
5101520253035404550
EQ
UIV
ALE
NT
SIN
GLE
WH
EE
L LO
AD
S A
RE
DE
RIV
ED
BY
ME
TH
OD
S S
HO
WN
INIC
AO
AE
RO
DR
OM
E M
AN
UA
L P
AR
T 2
PA
R 4
.1.3
S
econ
d E
ditio
n 19
65
1 40
0x53
0R23
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
INC
HE
S)
EQUIVALENT SINGLE WHEEL LOAD [x 1 000 kg]
109
625
kg (
241
675
lb)
100
000
kg (
220
460
lb)
90 0
00 k
g (1
98 4
20 lb
)80
000
kg
(176
370
lb)
70 0
00 k
g (1
54 3
25 lb
)
NO
TE
:
WE
IGH
T O
N O
NE
MA
IN L
AN
DIN
G G
EA
R
MA
XIM
UM
RA
MP
WE
IGH
T A
ND
AF
T C
GM
AX
IMU
M P
OS
SIB
LE M
AIN
GE
AR
LO
AD
AT
508
762
1 01
61
524
2 03
22
540
F_AC_070802_1_0120101_01_01
RA
DIU
S O
F R
ELA
TIV
E S
TIF
FN
ES
S (
MIL
LIM
ET
ER
S)
Rigid Pavement Requirements LCNMTOW 275 000 kg
FIGURE-7-8-2-991-012-A01
7-8-2Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-8-3 Radius of Relative Stiffness (Other values of E and L)
**ON A/C A340-200 A340-300
Radius of Relative Stiffness (Other values of ”E” and ”L”)
1. General
The table of Chapter 7-8-1, Figure: Radius of Relative Stiffness, presents ”L” values based onYoung’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 Section 7-8-4, Figure: Radius of Relative Stiffness (Other values of ”E” and ”µ”).
For example, to find an ”L” value based on an ”E” of 3 000 000 psi, the ”E” factor of 0.931 ismultiplied by the ”L” value found in table of Section 7-8-1, Figure: Radius of Relative Stiffness.
The effect of variations of ”µ” on the ”L” value is treated in a similar manner.
7-8-3Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-8-4 Radius of Relative Stiffness
**ON A/C A340-200 A340-300
Radius of Relative Stiffness
1. This section gives Radius of Relative Stiffness.
7-8-4Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200 A340-300
0.80
0.85
0.90
0.95
1.00
1.05
1.10
0 1 2 3 4 5
"E"
Fac
tor
0.995
1.000
1.005
1.010
1.015
0.00 0.05 0.10 0.15 0.20 0.25
VALUES
VALUES OF TABLE 7−8−1
Fac
tor
, Poisson’s Ratio
BOTH CURVES ON THIS PAGE ARE USED TO ADJUST THE
"E", Young’s Modulus (10 , psi)
EFFECT OF
EFFECT OF "E" ON
F_AC_070804_1_0020101_01_00
NOTE:
" "
" "" " ON VALUES
" "
" "
""
Radius of Relative Stiffness(Effect of ”E” and ”µ” on ”L” values)
FIGURE-7-8-4-991-002-A01
7-8-4Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-9-0 ACN/PCN Reporting System - Flexible and Rigid Pavements
**ON A/C A340-200 A340-300
ACN/PCN Reporting System - Flexible and Rigid Pavements
**ON A/C A340-300
1. General
To find the ACN of an aircraft on flexible or rigid pavement, the aircraft gross weight and thepavement strength must be known.
In the example shown in Section 7-9-1, Figure: Aircraft Classification Number - Flexible Pavement -MTOW 253 500 kg - A340-300- For an Aircraft Gross Weight of 200 000 kg (440 925 lb) and low subgrade strength (code C),
the ACN for the flexible pavement is 47.
In the example shown in Section 7-9-2, Figure: Aircraft Classification Number - Rigid Pavement -MTOW 253 500 kg - A340-300- For an Aircraft Gross Weight of 200 000 kg (440 925 lb) and low subgrade strength (code C),
the ACN for the rigid pavement is 47.
NOTE : An aircraft with an ACN equal to or less than the reported PCN can operate on thatpavement, subject to any limitation on the tire pressure.(Ref: ICAO Aerodrome Design Manual, Part 3, Chapter 1, Second Edition 1983).
**ON A/C A340-200
2. General
To find the ACN of an aircraft on flexible or rigid pavement, the aircraft gross weight and thepavement strength must be known.
In the example shown in Section 7-9-1, Figure: Aircraft Classification Number - Flexible Pavement -MTOW 253 500 kg - A340-200- For an Aircraft Gross Weight of 200 000 kg (440 925 lb) and low subgrade strength (code C),
the ACN for the flexible pavement is 47.
In the example shown in Section 7-9-2, Figure: Aircraft Classification Number - Rigid Pavement -MTOW 253 500 kg - A340-200- For an Aircraft Gross Weight of 200 000 kg (440 925 lb) and low subgrade strength (code C),
the ACN for the rigid pavement is 47.
7-9-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
NOTE : An aircraft with an ACN equal to or less than the reported PCN can operate on thatpavement, subject to any limitation on the tire pressure.(Ref: ICAO Aerodrome Design Manual, Part 3, Chapter 1, Second Edition 1983).
7-9-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-9-1 Aircraft Classification Number - Flexible Pavement
**ON A/C A340-200 A340-300
Aircraft Classification Number - Flexible Pavement
1. This section gives the Aircraft Classification Number - Flexible Pavement.
7-9-1Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.1
bar
(190
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.18
% M
AC
.S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G O
NP
AV
EM
EN
T −
MT
OW
253
500
kg
− A
340−
300
(x 1
000
lb)
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0(x
1 0
00 k
g)
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0170101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 253 500 kg
FIGURE-7-9-1-991-017-A01
7-9-1Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.05
% M
AC
.S
ee S
ectio
n 7−
4−1
Fig
ure:
Lan
ding
Gea
r Lo
adin
gon
Pav
emen
t − M
TO
W 2
57 0
00 k
g −
A34
0−30
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
2030405060708090100
110
AIRCRAFT CLASSIFICATION NUMBER (ACN)
AIR
CR
AF
T G
RO
SS
WE
IGH
T
(x 1
000
lb)
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
(x 1
000
kg)
575
550
525
500
250
275
300
325
350
375
400
425
450
475
F_AC_070901_1_0180101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 257 000 kg
FIGURE-7-9-1-991-018-A01
7-9-1Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
5 %
MA
C.
(x 1
000
lb)S
ee S
ectio
n 7−
4−1
Fig
ure:
Lan
ding
Gea
r Lo
adin
g on
Pav
emen
t
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0(x
1 0
00 k
g)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)
− M
TO
W 2
60 0
00 k
g −
A34
0−30
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0190101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 260 000 kg
FIGURE-7-9-1-991-019-A01
7-9-1Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.02
% M
AC
.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
on
2030405060708090
100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
(x 1
000
kg)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)P
avem
ent −
MT
OW
260
000
kg
− A
340−
300
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0200101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 260 000 kg
FIGURE-7-9-1-991-020-A01
7-9-1Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.5
% M
AC
.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
on
2030405060708090100 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0(x
1 0
00 k
g)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)P
avem
ent −
MT
OW
275
000
kg
− A
340−
300
3 3 3
3
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
20
MN
/mC
− K
= 4
0 M
N/m
B −
K =
80
MN
/mA
− K
= 1
50 M
N/m
(ULT
RA
LO
W)
(ME
DIU
M)
(HIG
H)
(LO
W)
F_AC_070901_1_0210101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 262 000 kg
FIGURE-7-9-1-991-021-A01
7-9-1Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.9
% M
AC
.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
on
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0(x
1 0
00 k
g)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)
Pav
emen
t − M
TO
W 2
76 5
00 k
g −
A34
0−30
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0220101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 271 000 kg
FIGURE-7-9-1-991-022-A01
7-9-1Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.63
% M
AC
.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
on
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0(x
1 0
00 k
g)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)
Pav
emen
t − M
TO
W 2
71 0
00 k
g −
A34
0−30
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0230101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 275 000 kg
FIGURE-7-9-1-991-023-A01
7-9-1Page 8
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
5 %
MA
C.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
on P
avem
ent
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
(x 1
000
kg)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
− M
TO
W 2
76 5
00 k
g −
A34
0−30
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0240101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 276 500 kg
FIGURE-7-9-1-991-024-A01
7-9-1Page 9
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3 ba
r (1
89 p
si)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.7
% M
AC
.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0(x
1 0
00 k
g)
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)on
Pav
emen
t − M
TO
W 2
53 5
00 k
g −
A34
0−20
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0250101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 253 500 kg
FIGURE-7-9-1-991-025-A01
7-9-1Page 10
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.5
% M
AC
.
(x 1
000
lb)
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
(x 1
000
kg)
600
575
550
525
500
250
275
300
325
350
400
425
475
450
375
AIRCRAFT CLASSIFICATION NUMBER (ACN)on
Pav
emen
t − M
TO
W 2
60 0
00 k
g −
A34
0−20
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0260101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 260 000 kg
FIGURE-7-9-1-991-026-A01
7-9-1Page 11
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
AIR
CR
AF
T G
RO
SS
WE
IGH
T
1 40
0 x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7 %
MA
C.
See
Sec
tion
7−4−
1 F
igur
e: L
andi
ng G
ear
Load
ing
(x 1
000
lb)
2030405060708090100
110 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0(x
1 0
00 k
g)
600
575
550
525
500
250
275
300
325
350
375
400
425
450
475
AIRCRAFT CLASSIFICATION NUMBER (ACN)on
Pav
emen
t − M
TO
W 2
75 0
00 k
g −
A34
0−20
0
SU
BG
RA
DE
ST
RE
NG
TH
D −
CB
RC
− C
BR
B −
CB
RA
− C
BR
3 (
ULT
RA
LO
W)
6 (
LOW
)10
(M
ED
IUM
)15
(H
IGH
)
ALP
HA
FA
CT
OR
= 0
.8
F_AC_070901_1_0270101_01_02
Aircraft Classification Number -- Flexible PavementMTOW 275 000 kg
FIGURE-7-9-1-991-027-A01
7-9-1Page 12
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
7-9-2 Aircraft Classification Number - Rigid Pavement
**ON A/C A340-200 A340-300
Aircraft Classification Number - Rigid Pavement
1. This section gives the Aircraft Classification Number - Rigid Pavement.
7-9-2Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
2030405060708090100 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.1
bar
(190
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.18
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
GO
N P
AV
EM
EN
T −
MT
OW
253
500
kg
− A
340−
300
(x 1
000
kg)
(x 1
000
lb)
550
525
500
475
250
275
300
325
350
375
400
425
450
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m
(LO
W)
80 M
N/m
(M
ED
IUM
)15
0 M
N/m
(H
IGH
)
F_AC_070902_1_0170101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 253 500 kg
FIGURE-7-9-2-991-017-A01
7-9-2Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
2030405060708090100 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.05
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
GO
N P
AV
EM
EN
T −
MT
OW
257
000
kg
− A
340−
300
(x 1
000
kg)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
550
525
500
475
250
275
300
325
350
375
400
425
450
(x 1
000
lb)
F_AC_070902_1_0180101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 257 000 kg
FIGURE-7-9-2-991-018-A01
7-9-2Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
2030405060708090100 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
5 %
MA
C.
SE
E S
EC
TIO
N 7
−4−
1 F
IGU
RE
LA
ND
ING
GE
AR
LO
AD
ING
ON
PA
VE
ME
NT
− M
TO
W 2
60 0
00 k
g −
A34
0−30
0
(x 1
000
kg)
(x 1
000
lb)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
F_AC_070902_1_0190101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 260 000 kg
FIGURE-7-9-2-991-019-A01
7-9-2Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
100 2030405060708090
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
8.02
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G O
NP
AV
EM
EN
T −
MT
OW
260
000
kg
− A
340−
300
(x 1
000
kg)
(x 1
000
lb)
F_AC_070902_1_0200101_01_01
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0200101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 260 000 kg
FIGURE-7-9-2-991-020-A01
7-9-2Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
100 2030405060708090
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.9
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G O
NP
AV
EM
EN
T −
MT
OW
276
500
kg
− A
340−
300
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0210101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 262 000 kg
FIGURE-7-9-2-991-021-A01
7-9-2Page 6
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
100 2030405060708090
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.63
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G O
NP
AV
EM
EN
T −
MT
OW
271
000
kg
− A
340−
300
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0220101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 271 000 kg
FIGURE-7-9-2-991-022-A01
7-9-2Page 7
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
100 2030405060708090
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.5
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
G O
NP
AV
EM
EN
T −
MT
OW
275
000
kg
− A
340−
300
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0230101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 275 000 kg
FIGURE-7-9-2-991-023-A01
7-9-2Page 8
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
100 2030405060708090
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
4.2
bar
(206
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
5 %
MA
C.
SE
E S
EC
TIO
N 7
−4−
1 F
IGU
RE
: LA
ND
ING
GE
AR
LO
AD
ING
ON
PA
VE
ME
NT
− M
TO
W 2
76 5
00 k
g −
A34
0−30
0
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0240101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 276 500 kg
FIGURE-7-9-2-991-024-A01
7-9-2Page 9
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
2030405060708090100 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3 ba
r (1
89 p
si)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.7
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
GO
N P
AV
EM
EN
T −
MT
OW
253
500
kg
− A
340−
200
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0250101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 253 500 kg
FIGURE-7-9-2-991-025-A01
7-9-2Page 10
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
2030405060708090100 11
012
013
014
015
016
017
018
019
020
021
022
023
024
025
026
027
028
0
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)1
400x
530R
23 4
0PR
TIR
ES
TIR
E P
RE
SS
UR
E C
ON
ST
AN
T A
T 1
3.2
bar
(192
psi
)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7.5
% M
AC
. S
EE
SE
CT
ION
7−
4−1
FIG
UR
E: L
AN
DIN
G G
EA
R L
OA
DIN
GO
N P
AV
EM
EN
T −
MT
OW
260
000
kg
− A
340−
200
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0260101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 260 000 kg
FIGURE-7-9-2-991-026-A01
7-9-2Page 11
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
100 2030405060708090
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
AIR
CR
AF
T G
RO
SS
WE
IGH
T
AIRCRAFT CLASSIFICATION NUMBER (ACN)
1 40
0x53
0R23
40P
R T
IRE
ST
IRE
PR
ES
SU
RE
CO
NS
TA
NT
AT
14.
2 ba
r (2
06 p
si)
AC
N W
AS
DE
TE
RM
INE
D A
S R
EF
ER
EN
CE
D IN
IC
AO
AE
RO
DR
OM
E D
ES
IGN
MA
NU
AL
PA
RT
3C
HA
PT
ER
1.
SE
CO
ND
ED
ITIO
N 1
983.
CG
US
ED
FO
R A
CN
CA
LCU
LAT
ION
S: 3
7 %
MA
C.
SE
E S
EC
TIO
N 7
−4−
1 F
IGU
RE
: LA
ND
ING
GE
AR
LO
AD
ING
ON
PA
VE
ME
NT
− M
TO
W 2
75 0
00 k
g −
A34
0−20
0
(x 1
000
kg)
(x 1
000
lb)
SU
BG
RA
DE
ST
RE
NG
TH
D −
K =
C −
K =
B −
K =
A −
K =
20 M
N/m
(U
LTR
A L
OW
)40
MN
/m (
LOW
)80
MN
/m (
ME
DIU
M)
150
MN
/m (
HIG
H)
600
575
550
525
500
475
250
275
300
325
350
375
400
425
450
F_AC_070902_1_0270101_01_01
Aircraft Classification Number -- Rigid PavementMTOW 275 00 kg
FIGURE-7-9-2-991-027-A01
7-9-2Page 12
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
DERIVATIVE AIRPLANES
8-1-0 Possible Future Derivative Airplane
**ON A/C A340-200 A340-300
Possible Future Derivative Airplane
1. General
Other versions of the A340 airplane are being studied to satisfy customer requests.
In the future, this program could have new versions:- Additional passenger capacity,- Additional cargo modularity,- New design version,- Different range or payload.
If these new aircraft definitions are developed, the design and weight will be considered in accordancewith airport facilities.
8-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
SCALED DRAWINGS
9-1-0 Scaled Drawing 1 in. = 500 ft.
**ON A/C A340-200 A340-300
Scaled Drawing 1 in. = 50 ft.
1. This section provides the Scaled Drawing - 1 in. = 50 ft.
9-1-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
AIR CONDITIONINGA
BULK CARGO COMPT DOORB
CARGO COMPT DOORC
ELECTRICAL
LAVATORY
MAIN LANDING GEARMLG
NOSE GEARNG
CENTER LINE GEARCLG
PASSENGER/CREW DOORX
E
L
FUEL
POTABLE WATER
F
H²O
LEGEND:
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
C
A
XX
H²O
F_AC_090100_1_0070101_01_01
MLGMLG
C
BL
NG
E
X X
XX
PFF
CLG
PNEUMATICP
Scaled Drawing1 in. = 50 ft.
FIGURE-9-1-0-991-007-A01
9-1-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
AIR CONDITIONINGA
BULK CARGO COMPT DOORB
CARGO COMPT DOORC
ELECTRICAL
LAVATORY
MAIN LANDING GEARMLG
NOSE GEARNG
CENTER LINE GEARCLG
PASSENGER/CREW DOORX
E
L
FUEL
POTABLE WATER
F
H²O
LEGEND:
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
PNEUMATICP
H²O
E
XX
C
L
C
B
X X
MLGCLG
MLG
FF
NG XX
A P
F_AC_090100_1_0190101_01_00
Scaled Drawing1 in. = 50 ft.
FIGURE-9-1-0-991-019-A01
9-1-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
F_AC_090100_1_0080101_01_01
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
Scaled Drawing1 in. = 50 ft.
FIGURE-9-1-0-991-008-A01
9-1-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
F_AC_090100_1_0200101_01_00
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
Scaled Drawing1 in. = 50 ft.
FIGURE-9-1-0-991-020-A01
9-1-0Page 5
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
9-2-0 Scaled Drawing 1 cm. = 500 cm.
**ON A/C A340-200 A340-300
Scaled Drawing 1 cm. = 500 cm.
1. This section provides the Scaled Drawing - 1 cm. = 500 cm.
9-2-0Page 1
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
F_AC_090200_1_0070101_01_01
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
AIR CONDITIONINGA
BULK CARGO COMPT DOORB
CARGO COMPT DOORC
ELECTRICAL
LAVATORY
MAIN LANDING GEARMLG
NOSE GEARNG
CENTER LINE GEARCLG
PASSENGER/CREW DOORX
E
L
FUEL
POTABLE WATER
F
H²O
LEGEND:
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
C
A
XX
H²O
MLGMLG
C
BL
NG
E
X X
XX
PFF
CLG
PNEUMATICP
Scaled Drawing1 cm. = 500 cm.
FIGURE-9-2-0-991-007-A01
9-2-0Page 2
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
F_AC_090200_1_0140101_01_00
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
AIR CONDITIONINGA
BULK CARGO COMPT DOORB
CARGO COMPT DOORC
ELECTRICAL
LAVATORY
MAIN LANDING GEARMLG
NOSE GEARNG
CENTER LINE GEARCLG
PASSENGER/CREW DOORX
E
L
FUEL
POTABLE WATER
F
H²O
LEGEND:
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
PNEUMATICP
H²O
E
XX
C
L
C
B
X X
MLGCLG
MLG
FF
NG XX
A P
Scaled Drawing1 cm. = 500 cm.
FIGURE-9-2-0-991-014-A01
9-2-0Page 3
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-300
F_AC_090200_1_0080101_01_01
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
Scaled Drawing1 cm. = 500 cm.
FIGURE-9-2-0-991-008-A01
9-2-0Page 4
Jan 01/12
@A340-200/-300AIRPLANE CHARACTERISTICS FOR AIRPORT PLANNING
**ON A/C A340-200
F_AC_090200_1_0150101_01_00
010
2030
4050
60F
EE
T
04
812
1620
ME
TE
RS
0 10 20 30 40 50 60FEET
0 4 8 12 16 20METERS
NOTE: WHEN PRINTING THIS DRAWING, MAKE SURE TO ADJUST FOR PROPER SCALING
Scaled Drawing1 cm. = 500 cm.
FIGURE-9-2-0-991-015-A01
9-2-0Page 5
Jan 01/12