AE 451 Aeronautical Engineering Design Iae451/special_considerations.pdf · AE 451 Aeronautical...
Transcript of AE 451 Aeronautical Engineering Design Iae451/special_considerations.pdf · AE 451 Aeronautical...
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AE 451 Aeronautical Engineering Design ISpecial Considerations
Prof. Dr. Serkan Özgen
Dept. Aerospace Engineering
November 2015
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Aerodynamic considerations
• Design arrangement:
Overall arrangement and smoothness of the fuselage has a major effect on aerodynamic efficiency.
Minimization of wetted area is a powerful approach since it is related to friction drag.
tight internal packaging and low fineness ratio.
disadvantages: poor maintainability and high wave drag.
To prevent separation, aft fuselage deviation from freestream< 10o-12o.
For pusher propeller configurations ≈30o can be maintainedwithout flow separation.
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Aerodynamic considerations
Lower surface upsweep ≈ 25o for rear-loaded transport airplanes provided that fuselage lower corners are sharp.
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Aerodynamic considerations
• Base Area: any unfaired, rearward facing blunt surface.
– Causes extremely high drag due to low pressure.
– A base area near jet exhausts may be filled in by the pressurefield of the jet exhausts.
• If there are sharp corners in an airplane forebody, vortices will be produced at high α. These can be ingested by the engine and/or wing or tail surfaces willbe effected.
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Aerodynamic considerations
• Supersonic area rule:
Supersonic wave drag is related to the longitudinal change in aircraft’s total cross sectional area.
Wave drag can be calculated using the second derivative of thevolume distribution plot.
Sears-Haack body has the lowest wave drag.
It is impossible to match this shape in a real airplane.
A compromise is area-ruling that can reduce the wave dragby 50 %.
Even subsonic airplanes can benefit from area-ruling.
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Aerodynamic considerations
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Crew station, passengers and payload
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• The crew station effects the conceptual design in thevisibility requirements.
The pilot must be able to see the runway during landing, sothe nose of the airplane must slope away from the pilot’s eyeat some specified angle. Increases drag but safety > drag!
Military airplanes consider 95 % percentile pilot, heightbetween 1.66-1.86m.
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Crew station, passengers and payload
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Crew station, passengers and payload
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Crew station, passengers and payload
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Most cockpits have 13o seatback angle, 30o in the F-16, 70o has been proposed.
𝛼𝑜𝑣𝑒𝑟𝑛𝑜𝑠𝑒 ≈ 𝛼𝑎𝑝𝑝𝑟𝑜𝑎𝑐ℎ + 0.07𝑉𝑎𝑝𝑝𝑟𝑜𝑎𝑐ℎ (𝑉 𝑖𝑛 𝑘𝑛𝑜𝑡𝑠)
Overall length of cockpit:• 150" for a four crewmember cockpit,
• 130" for 3 crewmembers,
• 100" for 2 crewmembers.
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Crew station, passengers and payload
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• Passenger compartment:
There should be no more than 3 seats accessed from oneaisle.
Assume passengers weight as 180 lb in average and bring in 40-60 lb of checked-in baggage.
The fuselage external dimensions are determined byestimating the required structural thickness:
≈ 1" for small airplanes,
≈ 2" for large airplanes.
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Crew station, passengers and payload
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• Passenger compartment:
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• Passenger compartment:
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• Cargo compartment:
Usually, standard containers are used, like the LD-3 containerfor civilian transports.
Cargo containers need doors of at least 70" in width.
Cargo volume/passenger: 8.6-15.6 ft3.
Military transports use pallets for Cargo measuring 88"x108".
Military transports must have their Cargo compartment floorsapproximately 4-5 ft above the ground to allow direct loadingand unloading of cargo from a truck.
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• Cargo compartement:
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Crew station, passengers and payload
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Crew station, passengers and payload
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Weapons carriage
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• There are four main weapon carriage options.
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• To ensure that the weapons never strike the ground, thereshould be at least 3" clearance to the ground at all attitudes.
• If weapons are placed near each other, there should be minimum distance of 3" between them.
• There should be at least 30 cm clearance between a weaponand propeller disk.
• A gun should be located at the centerline of an airplane as much as possible, otherwisethe recoil force of the gun willproduce a significant yawing moment.
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External stores
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External stores
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Weapons carriage
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• The carriage drag of the stores is often of the same order of magnitude as the total minimum drag of the aircraft itself.
• Store carriage on modern tactical aircraft is extremely important, particularly as one approaches the transonic regime, where the interference effects of the stores and pylons are highest and most detrimental to performance.
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External stores
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• Not only must external stores be carried efficiently by tactical aircraft, but they must release cleanly and follow a predictable trajectory through the vehicle’s flowfield.
• The store trajectory is governed by the highly unsteady forces and moments acting on the store produced by the nonuniform flowfield about the configuration and the aerodynamic characteristics and motions of the store itself.
• The problem is complicated by realistic combat requirements for jettison or launch at maneuver conditions and multiple release conditions where the weapons must not ‘fly’ into one another.
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External stores
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Multiple release of weapons
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Weapon carriage
Store carriage concepts Advantages Disadvantages
1. Wing pylon carriage Most flexible carriage
mode - large payloads,
inefficient store shapes
High drag
High radar cross section
2. Internal carriage Low drag
Low radar cross section
Limited weapon
flexibility
Increased fuselage
volume
3. Semisubmerged
carriage
Low drag
Low radar cross section
“Holes” must be covered
up after weapons drop
Severely restricted
payload flexibility
4. Conformal carriage Most flexible of low
drag carriage concepts
Size restrained
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Wing pylon carriage
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Internal carriage
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Semi-submerged carriage
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Conformal carriage