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A project supported by AIRBUS and the CAAC
Date of the module
Mach
n
FL 350
given weight : 60t
Example : A320 200
Mmin= 0.65 Mmax> MMO (0.84)
1.3 g
6 - Buffet limit
1.3 g corresponds to
a bank angle of 39°
A project supported by AIRBUS and the CAAC
Date of the module
Mach
n
Zp1
Mmin Mmax
n1
given weight
At given altitude
and given weight,
there is a maximum
admissible load factor
6 - Buffet limit
nmax
M
This Mach allows the
higher load factor margin
with buffet limit
A project supported by AIRBUS and the CAAC
Date of the module
Mach
n
FL 350
Mmax> MMO
given weight : 60t
Example : A320 200
1.3 g
Mmin= 0.65 0.78
1.8 g
6 - Buffet limit
A project supported by AIRBUS and the CAAC
Date of the module
Mach
n
at Zp1
Zp1< Zp2< Zp3
1.3 g
Mmin Mmax
given weight
Effect of altitude : nmax decreases
lift range decreases
6 - Buffet limit
at Zp2
Zp3
At Zp3 nmax = 1.3g
A project supported by AIRBUS and the CAAC
Date of the module
1.3 g buffet limited altitude :
at this altitude, nmax = 1.3 g (or bank angle =
39°)
above this altitude, maneuvers of less
than 1.3 g will create buffeting
when the weight decreases (burn off),
1.3 g buffet limited altitude increases
6 - Buffet limit
A project supported by AIRBUS and the CAAC
Date of the module
Zp
weights
Optimum altitude
ISA or below
ISA + 20
Max cruise altitude
1.3 g buffet limit
The maximum operational
altitude is the lowest
of :
max cruise altitude
1.3 g buffet limited
altitude
6 - Buffet limit
A project supported by AIRBUS and the CAAC
Date of the module
7. ATC Requirment
Flight Level
Final chosen maximum flight altitude is a adjacent
flight level
A project supported by AIRBUS and the CAAC
Date of the module
1 - Direct operating cost
2 - Specific range
3 - All engines operating cruise speeds
4 - Altitude optimisation
5 - Maximum cruise altitude
6 - Buffet limit
7 – ATC requirment
8 - Cruise optimisation
Table of Contents
A project supported by AIRBUS and the CAAC
Date of the module
Step climb cruise :
Ideal cruise should follow
the optimum altitude
but ATC constraints
require level flight cruise
airlines have to comply
with
Zp
weight
Optimum altitude
several level flights close to
the optimum altitude
8 - Cruise optimisation
A project supported by AIRBUS and the CAAC
Date of the module
Zp
weight
4000 ft
Above FL290 :
FL separation = 2000 ft
step climb = 4000 ft
(except RVSM zones)
Optimum altitude
8 - Cruise optimisation
2000 ft from optimum altitude
:
Rs = 99% Rsmax
Long flight : 2 or 3 steps
Max cruise altitude can delay
the first climb...
A project supported by AIRBUS and the CAAC
Date of the module
Table of Contents
1 - Cruise
2 - Climb
3 - Descent
4 - Holding
A project supported by AIRBUS and the CAAC
Date of the module
1 - Climb angle and rate of climb
2 - Climb in operation
3 - Influencing parameters
4 - Cabin climb
Table of Contents
A project supported by AIRBUS and the CAAC
Date of the module
1 - Climb angle and rate of climb
2 - Climb in operation
3 – Influencing parameters
4 - Cabin climb
Table of Contents
A project supported by AIRBUS and the CAAC
Date of the module
TAS
rate of climb
TASmax TASRCmax
Maximum
rate of climb
Given
m, thrust, operationnal data
max = maximum air
climb gradient
1 - Climb angle and rate of climb
A project supported by AIRBUS and the CAAC
Date of the module
g
a <g
GS
a
TAS Rate of Climb
RC
1 - Climb angle and rate of climb
Headwind
A project supported by AIRBUS and the CAAC
Date of the module
1 - Climb angle and rate of climb
2 - Climb in operation
3 – Influencing parameters
4 - Cabin climb
Table of Contents
A project supported by AIRBUS and the CAAC
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flight operation 飞行运行概述(29)
