challenges for new regional turboprop...
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Challenges for new Regional Turboprop Configuration
Pierluigi Della Vecchia, PhD.
University of Naples Federico II Department of Industrial Engineering Via Claudio, 21, 80125 Naples [email protected] http://wpage.unina.it/pierluigi.dellavecchia/ http://wpage.unina.it/fabrnico/DAF/
Pierluigi Della Vecchia 1 Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
TCAD Technical Committee
Aircraft Design
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Pierluigi Della Vecchia 2
Table of Contents
✈ Introduction ✈ Aircraft Components Design and Optimization
Nose Wing-Fuselage junction Nose Wing Laminar flow Winglet Design Vertical Empennage Design
✈ Effects on Aircraft Performance ✈ Conclusions
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 3
Introduction
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Typical regional turboprop aircraft configuration
- High wing - T-tail - Twin Engine on wing - Aluminum alloy - Easy access on cabin - Low maintenance and operability costs
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TCAD Technical Committee
Aircraft Design
Introduction Drag polar and typical mission profile
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015 4
CD0 = 0.0300 e = 0.83 AR = 12
TOTAL MISSION = 200 nm climb = 50 nm descent = 50 nm Vcruise = 270 kt
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Pierluigi Della Vecchia 5
Introduction
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Effects of CDo Effect of Oswald e
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Typical regional turboprop aircraft – 70 seats WTO b S Lf DMAX,f
23000 kg 27 m 61 m2 27 m 2.5 m
AR e CD0 12 0.83 0.0306
SBP N° of engines ηp Cruise
altitude
2750 hp 2 0.85 20000 ft
Geometrical characteristics
Characteristics to estimate drag polar
Engine Performance characteristics
Aircraft Components Optimization
Condition α β M Re Cruise 0° 0° 0.43 11.5 ∙106 Climb 6° 0° 0.3 8.0 ∙106
Reference aerodynamic analysis conditions
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 7
Condition α β M Re Cruise 0° 0° 0.43 11.5 ∙106
Pressure coefficient in cruise condition
Fuselage upper, mid and lower streamlines
Rapid variation in Cp on the Nose, wf intersection and Fairing components
Aircraft Components Optimization
On body streamlines, isometric view
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 8
CHOSEN COMPONENTS TO BE OPTIMIZED ON THE BASELINE WING-BODY NOSE
WF JUNCTION
FAIRING
Aircraft Components Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 9
Symmetry plane y = 0 m
Baseline Optimized
“x” cut planes
Wing-Fuselage junction Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 10
Wing-Fuselage junction Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Baseline
Optimized
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Pierluigi Della Vecchia 11
Optimized
No more separation
Reduced Cp gradients
Wing-Fuselage junction Optimization
CruiseincountsCD 7.6=∆ Climb2.8 incountsCD =∆ ktsVMAX 3.3=∆
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Baseline
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Pierluigi Della Vecchia 12
Wing-Fuselage junction Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Δvmax (h=20kft) +4kts
Δfuelsaved (200nmi, typical mission profile)
-10kg
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Pierluigi Della Vecchia 13
Baseline Optimized
Nose Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 14
Transition imposed at 0.5m from the aircraft nose
CruiseincountsCD 3.3=∆
bCincountsCD lim5.3=∆
ktsVMAX 6.1=∆
%5+=αMC
Reduced Compression and
more gradual expansion
WB Config.
CD pressure (counts)
CD skin frition (counts)
CD Total (counts)
Baseline 62.8 117.8 180.7
Optimized 59.3 118.1 177.4
Nose Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Conventional 90-seats
Pierluigi Della Vecchia 16
Wing Laminar Flow – Engine Integration
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Innovative rear-propelled 90-seats
Data Conventional Innovative CDo wing 0.0070 0.0051 (through 40% laminar
flow) CDo aircraft 0.0270 0.0251 e (Oswald efficiency factor)
0.78 0.85 (winglet installed)
Engine SFC [lb/(hp hr)] 0.40 0.36 or 0.32 -10% or -20%
Turboprop innovative configuration benefits Specific range
up to about 8% fuel saving can be achieved only through laminar flow on the wing
Data Conventional Innovative 1 (Laminar flow)
Innovative 2 (Laminar flow + SFC red -10%
Innovative 3 (Laminar flow + SFC red -20%
Specific Range @ M=0.56 (nm/lb_fuel) 0.23 0.25 (+9%) 0.275(+19%) 0.318(+38%) Fuel @ 300 nm mission (lb) 1304 lb 1200 lb (-8%) 1091 lb (-16%) 943 lb(-28%)
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Pierluigi Della Vecchia 17
Vertical Empennage Design – Control Surface
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Conventional Turboprop Vertical Empennage Innovative Turboprop Vertical Empennage
8drag counts (cruise)DC∆ =
max 4V kts∆ =
13 (200nmi mission profile)savedfuel kg∆ =
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Pierluigi Della Vecchia 18
A turboprop aircraft spends 50% of its life time during climb and descent phases. About 50% of fuel during climb
Winglet Design and Optimization
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
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Pierluigi Della Vecchia 19
Wing Tip Design for a Regional Turboprop
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
Possible New Turboprop wing-tip assessment
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Pierluigi Della Vecchia 20
Conclusions
TCAD Technical Committee
Aircraft Design
Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
A novel turboprop can achieved the following improvements: - 3% drag reduction (11 counts) nose, wf-junction and fairing - 4% drag reduction (20 counts) wing laminar flow (rear engine)
- 3% drag reduction (15 counts) not balanced control surfaces
- +10% on Oswald factor with winglet TOTAL OF 40 DRAG COUNTS REDUCTION MAXIMUM SPEED IMPROVEMENT 0F V_TAS > 15 kt
FUEL CONSUMPTION REDUCTION OF 60 kg (i.e 11% during typical 200 nm mission )
+30% RATE OF CLIMB IN ONE ENGINE INOPERATIVE OEI
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Challenges for new Regional Turboprop Configuration
Pierluigi Della Vecchia, PhD.
Pierluigi Della Vecchia 21 Challenges for new Regional Turboprop Configuration, 5th SCAD (Symposium on Collaboration in Aircraft Design 12th-14th October 2015
TCAD Technical Committee
Aircraft Design
University of Naples Federico II Department of Industrial Engineering Via Claudio, 21, 80125 Naples [email protected] http://wpage.unina.it/pierluigi.dellavecchia/ http://wpage.unina.it/fabrnico/DAF/