2. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
3. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
4. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Quick method based on conļ¬guration sketch and aspect ratio
Crude estimation of Max. L/D.
Approx. SFC, weight change during cruise and loiter.
Weight fractions for takeoļ¬, climb and landing are used from
table.
We/W0 is estimated from statistical equation.
W0 is calculated iterating W0 =
Wcrew +Wpayload
1ā
ā
Wf
W0
ā
ā
ā
We
W0
ā
Initial Sizing
5. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
9. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
10. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Engine Start, Taxi and Takeoļ¬
A reasonable estimate is W1/W0= 0.97 to 0.99
Climbing and Accelerating to cruise alt. and Mach number M
Subsonic: Wi /Wiā1 = 1.0065 - 0.0325 M
Supersonic: Wi /Wiā1 = 0.991 - 0.007 M - 0.01 M2
Starting at Mach 0.1.
For an acceleration beginning at other than Mach 0.1, the weight
fraction calculated by the above equation for the given ending
Mach number should be divided by the weight fraction calculated
for the beginning Mach number.
Initial Sizing
11. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Cruise Breguet Range Equation
Jet :
Wi
Wiā1
= exp
āRC
V (L/D)
(3)
Prop :
Wi
Wiā1
= exp
āRCbhp
550Ī·p (L/D)
(4)
During cruise and loiter - lift = weight
L/D can be expressed as the inverse of the drag divided by the
weight:
L
D
=
1
qCd0
W /S + W
S
1
qĻAe
(5)
Wing loading value should be modiļ¬ed as per the situation.
Initial Sizing
12. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Loiter weight fraction
Jet :
Wi
Wiā1
= exp
āEC
L/D
(6)
Prop :
Wi
Wiā1
= exp
āEVCbhp
550Ī·p (L/D)
(7)
where E is the endurance or loiter time.
Descent for Landing ā Historical value
Wi /Wiā1 = 0.990 to 0.995
Landing and Taxi back ā Historical value
Wi /Wiā1 = 0.992 to 0.997
Initial Sizing
13. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
15. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
16. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
.
Either the mission range or the performance must be considered a
fallout parameter.
W0 =
NTper engine
T/W
(8)
Range capability can be determined from Eqn.2 by considering the
known takeoļ¬ weight as the guess W0 and varying the cruise legs
to match the evaluated W0.
Similar process may be taken for the other parameters.
Initial Sizing
17. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
18. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
19. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Fuselage
For certain types of aircraft, the fuselage size is determined
strictly by āreal-world constraintsā ā passenger aircraft.
Initial Sizing
20. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Fuselage ļ¬neness ratio
Ratio between the fuselage length and max. diameter.
Theoretically, for a ļ¬xed internal volume subsonic drag is
minimized by a ļ¬neness ratio of about 3 while supersonic drag is
minimized by a ļ¬neness ratio of about 14.
Wing
Wing reference area (including the area extended to aircraft center
line) is determined by
Takeoļ¬ gross weight
Takeoļ¬ wing loading
Initial Sizing
21. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
22. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Deļ¬nitions
Initial Sizing
24. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Typical values for cHT and cVT
Initial Sizing
25. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Moment arms LHT and LVT
Engine positions Approx % of fuselage length
Front mounted propeller engine
Initial Sizing
26. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Moment arms LHT and LVT
Engine positions Approx % of fuselage length
Front mounted propeller engine 60%
Initial Sizing
27. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Moment arms LHT and LVT
Engine positions Approx % of fuselage length
Front mounted propeller engine 60%
Engines on the wing
Initial Sizing
28. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Moment arms LHT and LVT
Engine positions Approx % of fuselage length
Front mounted propeller engine 60%
Engines on the wing 50 ā 55 %
Initial Sizing
29. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Moment arms LHT and LVT
Engine positions Approx % of fuselage length
Front mounted propeller engine 60%
Engines on the wing 50 ā 55 %
Aft-mounted engines
Initial Sizing
30. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Moment arms LHT and LVT
Engine positions Approx % of fuselage length
Front mounted propeller engine 60%
Engines on the wing 50 ā 55 %
Aft-mounted engines 45 ā 50 %
Initial Sizing
31. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Outline
1 Rubber Engine Sizing
Review of sizing
Reļ¬ned Sizing Equation
Empty-Weight Fraction
Fuel Weight
Summary of Reļ¬ned Sizing Method
2 Fixed Engine Sizing
3 Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Initial Sizing
32. Rubber Engine Sizing
Fixed Engine Sizing
Geometry Sizing
Fuselage and Wing
Tail area
Control Surface Sizing
Control Surface Area
Initial Sizing