james bearman aj brinker dean bryson brian gershkoff kuo guo joseph henrich aaron smith
TRANSCRIPT
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James BearmanAJ BrinkerDean BrysonBrian GershkoffKuo GuoJoseph HenrichAaron Smith
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OverviewBusiness Case
Customer Needs State of the Market: 2058
CompetitionPotential MissionsRequirement DevelopmentBenchmarking DataConclusion
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DC-3, Historical Perspective Range Capacity Reliability
Success of the DC-3 Business Model Captured a large Market Share Technology expanded borders of flight
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Provide a versatile aircraft with medium range and capacity to meet the needs of a commercial aircraft market still expanding in the year 2058
Incorporate the latest in technology to provide reliability, efficiency, while fulfilling the need for an environmentally friendly transportation system
Possess the ability to operate at nearly any airfield
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Airlines Short Runway Capability
▪ Hub and Spoke System▪ Evolution of Flight Routes
Moderate Passenger Capacity▪ Lower Cost than Jumbo Jets▪ Promotes Full Flights
Appropriate Range▪ Versatility in Flight Routes▪ Cross-Continental not Required
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Charters Small Airport Capability
▪ Demand to avoid hubs▪ Increase speed of travel
Generous amount of Passengers and Cargo▪ Enough space to carry an entire travel party
in one plane▪ Extra Space = Extra Cost
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Passenger Capacity Large enough for medium-medium high
demand travel routes Small enough for chartered flights
Range Long enough to fulfill most passenger needs Shorter range reduces overall aircraft cost
Short Runway Capability allows flexibility in flight routings for all customers
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Chart From Embraer 8
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Immediate (2008) demand for medium capacity aircraft
28,600 aircraft delivered in the next 20 years (Boeing)
56,000 aircraft delivered in the next 50 years
Majority of aircraft will be regional jet or single aisle
Our Aircraft Fills gap between Regional and Single-Aisle ESTOL capability Generous Range
Expect to capture ~15% of market (8,500 aircraft)
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Science Fiction
Digital Communication
Other Transportation
Other Aircraft
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The Obvious Transporters Warp Drive Jet Packs
Improbabilities Flying Cars Space Planes Mag-Lev Cars
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What it can do Communicate information over great distances Give the illusion of people worldwide being in
the same room Be scheduled easily and activated quickly Useful for meetings
What it can’t do Provide perfect interaction Compensate for time zones
Will not replace business travel, even on a global scale
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Automobiles Alternative Energy Sources Artificial Intelligence Vehicle Control Faster Driving Speeds Cannot achieve Aircraft Speeds, Safety, or
Range Rail
Higher Speeds Low Environmental Impact Excellent over Short Ranges Cannot cross larger bodies of water Speeds still too low over longer ranges Infrastructure expansion slow and costly
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Bombardier C-Series CRJ Family
Embraer Competition to C-Series ERJ Family E-Jet Family
Boeing 737 Family New Aircraft Family
Airbus A320 Family New Aircraft Family
Cessna, Learjet, Gulfstream
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Taxi
Take
off &
Clim
b
Step CruiseFor Best Range
Descend & Hold
Land & Taxi
Climb- M
iss
Approach
CruiseDescend & Hold
Land & Taxi
Schaumburg to North Las Vegas (1300 nmi) Scheduled Commercial Route Large City (Chicago) to Large City (Las Vegas) Utilize Small/Regional Airport
South Bend to Burbank (1580 nmi) Chartered Route (Notre Dame vs USC) Maximize Convenience
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Taxi
TO
&C
limb
Step CruiseFor Best Range
Descend & Hold
Land & Taxi
Clim
b- M
iss
Appr
oach
Cruise
Descend & Hold
Land & Taxi
CruiseT
O &
Clim
b
Purdue University to University of Illinois to Cancun Total Distance: 1200 nmi Spring Break Charter Small Cities to Major Tourist Destination
Descend Land & Taxi
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Minneapolis to Los Angeles Range: 1330 nmi Hub to Hub Connecting Flight in LAX Landing on half of the runway
Taxi
Take
off &
Clim
bStep CruiseFor Best Range
Land & Taxi
Clim
b- M
iss
App
roac
h
Cruise
Descend & Hold
Land & Taxi
Spiral Descent
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House of Quality “What’s”-Needs of
the Customer “How’s”-
Requirements to meet the needs
Benchmarking Historical Database
Created Used to develop
performance estimates
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Customer Needs Short Runway Medium Range Fast Cruise Small Airport Capable Comfortable to Passengers Medium Passenger Capacity
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Engineering Requirement
Condition Target Threshold
Takeoff Distance ≤ 2,500 ft 3,500 ft
Landing Distance ≤ 2,500 ft 3,500 ft
Takeoff Weight ≤ 80,000 lb 100,000 lb
Range ≥ 1800 nm 1500 nm
Maximum Cruise Speed ≥ 0.85 M 0.8 M
Maximum Passenger Capacity ≥ 110 90
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Current aircraft used in benchmarking: (circa 2008) Boeing 737-family Airbus A320-family Embraer
▪ ERJ-family▪ E-Series
Canadair ▪ CRJ-family▪ C-series
All data obtained from manufacturers’ websites and Jane’s All the World’s Aircraft
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Range vs. TO weight
0
500
1000
1500
2000
2500
3000
3500
4000
0 20,000 40,000 60,000 80,000 100,000 120,000 140,000 160,000 180,000 200,000
TO Weight (lbf)
Ran
ge (
nm
)
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before tech weight savings
after tech weight savings
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0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
0 20,000 40,000 60,000 80,000 100,000 120,000 140,000 160,000 180,000 200,000
TO
dis
t (f
t.)
Gross TO weight (lbf)
TO distance vs. weight
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after tech weight savings
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Gross TO weight vs. Pax.
0
20,000
40,000
60,000
80,000
100,000
120,000
140,000
160,000
180,000
200,000
0 20 40 60 80 100 120 140 160 180 200
Pax.
Gro
ss T
O W
eig
ht
(lb
f)
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after tech weight savings
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Composites Active Aeroelastic Wings Morphing Winglets Energy Harvesting Magnetic Bearings Continuous Mold Line Control Systems Thrust Vectoring Blown Flaps GPS Precision Approaches Unducted Fans Artificial Intelligence Navigation
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Medium Range, Medium Capacity Aircraft
Reasonable Targets for all Engineering Parameters
Versatile Mission Profile Realistic Estimation of Future Market
Potential to become extremely popular, very widely used aircraft
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Begin Cost EstimationsAdditional Sizing Analysis Initial Design Choices
Fuselage Layout Aerodynamic Variables Engine Choice
Continue Advanced Technology Research
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