romi isetta

Thanks to
07.05.2014
Powertrain Technologies
within a Rapidly Changing Global Environment
Maurilio Cassiani,
Mauro Giroldo,
Matthias Wellers
Welcome – Your Partner in Powertrain
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‫وش آ د د‬
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आपका
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Benvenuto
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Your Partner in Powertrain - AVL Powertrain UK
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Welcome
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2 Zealand
AVL
60+ YEARS CUSTOMER SATISFACTION
1948
A
Design
Development
2014
A
Project Management
D
Design
UK
Simulation
F
Mech. Develop.
Thermodynamics
Calibration
H
SW & Functions
TR
Electronics
SLO
Transmission
Testing
S
Hybrid & EV
Fuel Cell
Acoustics
Prototyping
RUS
USA
BRA
Racing
JPN
Driveability
KOR
Testing
Supply Chain Mgmt
CN
IND
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3
POWERTRAIN ENGINEERING
CORNERSTONES OF EXPERTISE
IC Engine
More than 1500
development
projects
Battery
Transmission
Research and
Realisation of
latest
Technologies
Realised Design
& Optimization
Electric Drive
Your Partner in Powertrain - AVL Powertrain UK
Control
Strategy
Expertise from Function
Development, Calibration to
Test
4
AVL
ONE SHOP POWERTRAIN COMPANY
We develop
new ideas and designs
We simulate and evaluate
new ideas and designs
We measure and test
new ideas and designs
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5
An R&D driven company
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6
The unique AVL
Powertrain Engineering Network
USA
CTC
Lake Forrest
CHINA
AVL-Beijing
TC
INDIA
KOREA
CHINA
AUSTRALIA
AVL India TC
AVL-Korea CC
AVL-Shanghai
NTC
Delhi
Incheon
TC
Sydney
/ Gurgaon
/ Seoul
FRANCE
LMM
Paris
/ Palaiseau
USA
AVL-PEI
Plymouth
U.K.
AVL-UK Ltd.
Millbrook
1994
1996 Tongji
1998
2000
University
(1926–1932)
USA
SWEDEN
AVL-PEI STPE AB
Ann Arbor Södertälje
2002
GERMANY
CROATIA
GERMANY
AVL-Trimerics
AVL-AST Croatia
AVL-D
Neuenstadt
Zagreb
Ingostadt
GERMANY
AVL-D
Munich
Your Partner in Powertrain - AVL Powertrain UK
AVL China
Tianjin
2004
...
2006
BRASILGERMANY JAPAN
Sao Paulo
Dr. SCHRICK
AVL-Japan
Remscheid Tokyo
HUNGARY
GERMANY
AVL-Autokut
AVL S&F
Budapest
Regensburg
GERMANY
AVL-Tippelmann
Filderstadt
SLOVENIA
AVL-ASTSlovenia
Maribor
AVL
Tech Centre
South
America
TURKEY
AVL R&D Turkey
Gebze
U.K.
AVL Powertrain
Dunton
!
SWEDEN
AVL-MTC
Stockholm
7
Global Facts and Trends
Man made 4%
Public 2%
Domestic 16%
Business 20%
cuts
($/bbl)
25
Energy 40%
new 65 Million / more 35 Million
reg.cars in 2010 / 10 x car prod.in 2013
Your Partner in Powertrain - AVL Powertrain UK
Water 10%
Air 12%
105
1950 2.5 billion – 30% in cities
2050 10 billion – 70%
2 in cities
2000
Transport 22%
CO
Trucks
23%
Buses 6%
Cars 45%
Rail 2%
Romi-Isetta
- 1955
2013
8
Powertrain Yesterday and Tomorrow
Society
Legislation
CO2
Emission
…
Costs
Romi-Isetta - 1955
Differentiation
Your Partner in Powertrain - AVL Powertrain UK
9
PC Emission Legislation –
Expected Changes
2014
Limits
2013
2015
2016
2017
2019
2020
EU 6c
EU 6b
NEDC (CO2)
2021
2022
2023
EU 7
NEDC (Emissions)
RDE
Test
procedure for
pollutants
2018
WLTP (Emissions)
WLTP (CO2)
RDE (monitoring)
RDE (compl. factors open)
RDE (stringent compl. factors)
PN Limit
PFI: no limit
DI: 6*1011 /km (6*1012 on dem.)
CO2
Limit
CI: 6*1011 /km
CI, DI: 6*1011 /km
130 g/km (or adapted to WLTP)
tbd (WLTP); mod. procedure?
95 g/km (or adapted to WLTP)
adopted
discussed, no proposal available
Source: 25. TCMV meeting 19.12.2011
adopted proposal
rumors
NEDC - New European Driving Cycle
RDE - Real Driving Emissions
WLTP - World wide Light Duty Test Cycle
Your Partner in Powertrain - AVL Powertrain UK
10
PC Emission Legislation –
Load Collective NEDC vs. RDE
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11
PC Emission Legislation –
Load Collective NEDC vs. RDE
Real Driving Emissions
NEDC
New European
Driving Cycle
Your Partner in Powertrain - AVL Powertrain UK
12
PC Emission Legislation –
Load Collective NEDC vs. RDE
Real Driving Emissions
NEDC
New European
Driving Cycle
Random Test cycle
Chassis Dyno
Simulation
Your Partner in Powertrain - AVL Powertrain UK
13
PC Emission Legislation –
Load Collective NEDC vs. RDE
Real Driving Emissions
NEDC
New European
Driving Cycle
Random Test cycle
Chassis Dyno
Simulation
PEMS
Portable Emission
Measurement
System
Decision open
Your Partner in Powertrain - AVL Powertrain UK
14
Fuel economy improvement by
Transmission Measures
24
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
Engine &
4 speed
22
270
8
20
Traction Force - N
2 70
260
Max. Power Curve
(Theoretical)
18
16
6
330
3
27 0 0
0
14
12
240
10
4
BMEP
Power
Drop
30 0
250
8
260
6
2
270
4
3 00
360
2
0
500
330
400
500
BSFC
[g/kWh]
700 1000
1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
N [1/min]
Engine Speed
Your Partner in Powertrain - AVL Powertrain UK
15
Fuel economy improvement by
Transmission Measures
BSFC < 240 g/kWh
24
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
Engine &
4 speed
22
270
8
20
BSFC < 240 g/kWh
260
2 70
Energy consumed
(WLTC)
16
330
6
30 0
3
27 0 0
0
BMEP
14
12
240
10
4
Traction Force - N
18
250
8
260
6
2
270
4
3 00
360
2
0
500
330
400
500
BSFC
[g/kWh]
700 1000
1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
N [1/min]
Engine Speed
Your Partner in Powertrain - AVL Powertrain UK
16
Fuel economy improvement by
Transmission Measures
Engine &
4 speed
Traction Force - N
BSFC < 240 g/kWh
Engine &
9 speed
BSFC < 240 g/kWh
Energy consumed
(WLTC)
Increased no. of gears
Your Partner in Powertrain - AVL Powertrain UK
17
17
Fuel economy improvement by
Transmission Measures
Engine &
4 speed
Traction Force - N
BSFC < 240 g/kWh
Engine &
9 speed
BSFC < 240 g/kWh
Energy consumed
(WLTC)
Increased no. of gears
Vienna Motor Symposium
26. 4. 2013:
“ VW will introduce
10--Speed Double Clutch
10
Transmission”
Your Partner in Powertrain - AVL Powertrain UK
18
18
Fuel economy improvement by
Engine Measures
BSFC < 240 g/kWh
24
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
Engine &
4 speed
22
270
8
20
BSFC < 240 g/kWh
260
2 70
Energy consumed
(WLTC)
16
330
6
30 0
3
27 0 0
0
Engine &
6 speed
BMEP
14
12
240
10
4
Traction Force - N
18
250
8
260
6
2
270
4
3 00
360
2
0
500
330
400
500
BSFC
[g/kWh]
700 1000
1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
N [1/min]
Engine Speed
Your Partner in Powertrain - AVL Powertrain UK
19
19
Fuel economy improvement by
Engine Measures
BSFC < 240 g/kWh
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
24
Engine &
6 speed
22
270
8
20
BSFC < 240 g/kWh
260
2 70
Energy consumed
(WLTC)
16
330
6
30 0
3
27 0 0
0
Engine &
6 speed
BMEP
14
12
240
10
4
Traction Force - N
18
250
8
260
6
2
270
4
3 00
360
2
0
500
330
400
500
BSFC
[g/kWh]
700 1000
1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
N [1/min]
Engine Speed
Your Partner in Powertrain - AVL Powertrain UK
20
20
Fuel economy improvement by
Engine Measures
BSFC < 240 g/kWh
80
75
70
65
60
55
50
45
40
35
30
25
20
15
10
24
Engine &
6 speed
22
270
8
20
BSFC < 240 g/kWh
260
2 70
Energy consumed
(WLTC)
16
330
6
30 0
3
27 0 0
0
BMEP
14
12
240
10
4
Traction Force - N
18
250
8
260
6
2
270
4
3 00
360
2
0
500
330
400
500
BSFC
[g/kWh]
700 1000
1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500
N [1/min]
Engine Speed
Your Partner in Powertrain - AVL Powertrain UK
21
21
Fuel economy improvement by
Further Measures
Engine &
6 speed
BSFC < 240 g/kWh
+
Traction Force - N
Energy consumed
(WLTC)
Recharging
Your Partner in Powertrain - AVL Powertrain UK
Hybridization allows
electric driving at
low power requirerequirements where the ICE
would otherwise
operate inefficiently
22
22
Efficiency
Your Partner in Powertrain - AVL Powertrain UK
23
The Smart Concept
Handling the complexity
…
Alternative Combustion
Technology Elements
Further Hybridisation, Mild/Full Hybrid
Start / Stop
Lean NOX Trap, Selective Catalytic Reduction
Diesel Particulate Filter, Catalyst
Temperature & Energy management
Downsizing
Direct injection, Advanced FIE (Diesel - common rail)
Exhaust Gas Recirculation, High pressure, Low pressure
Turbocharging (two stage)
now
Your Partner in Powertrain - AVL Powertrain UK
time
24
The Smart Concept
Handling the complexity
Complexity
Timing
Cost…
Mechanics
Electronics
Model based
Transient ...
Guided calibration
DOE steady state ...
Transient (concepts)
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25
The Smart Concept
Handling the complexity
Your Partner in Powertrain - AVL Powertrain UK
26
Two topics
Smart Concept
-Turbochager speed-
The realisation of technologies
-The Range Extender-
Your Partner in Powertrain - AVL Powertrain UK
27
Example – Turbocharger Protection
Validation
Identification
p2
p2
p1
x
1 / p1
1/ x
p1
curve
Function development
n
pref
Compressor
map
& red
m
x
m& MAF
x
T1
1 / Tref
x
curve
Turbocharger Theory
Calibration steps
Your Partner in Powertrain - AVL Powertrain UK
28
Turbocharger Protection
Compressor
Electronic
actuator
Turbo charger speed < limit
Condition: Heat and Altitude
!
Target:
1. Estimation of the turbo charger speed
2. Guarantee of the limitation of the charger speed
Your Partner in Powertrain - AVL Powertrain UK
Turbine with
variable
nozzle
29
Turbocharger Theory
ECU - calculation
n
T1
p2
ECU - Curves
&
m
Max. pressure ratio
p1
&
m
T2
n=max
pmax
norm. mass flow
ECU - Formulas
p:
pressure
mbar
T:
&:
m
temperature
K
mass flow
kg/sec
charger speed
U/sec
pressure ratio
-
n:
p2
p1
:
& norm : norm. mass flow
m
m& MAFS
p1
T1
& norm = m
&⋅
m
T1 pref
⋅
Tref p1
p
pmax = max ⋅ p1
p1
kg/sec
Your Partner in Powertrain - AVL Powertrain UK
30
Turbocharger Theory & Experiment
ECU - calculation
n
&
m
1
- CalibrationT
/ all projects
1
- Procedures necessary
- Process / Identification
p2
ECU - Curves
&
m
T2
Experimental knowledge
Theoretical knowledge
p:
pressure in
T:
temperatur
- Experts
/ few
people e in
& : documentation
m
mass flow in
- Good
n:
charger
speed in
- Explanation
necessary
p2
:
pressure ratio in
p1
& norm : norm. mass flow in
m
Max. pressure ratio
Experimental
p knowledge
n=max
pmax
norm. mass flow
ECU - Formulas
m& MAFS
mbar
K
p1
Theoretical
knowledge
kg/sec
U/sec
T
1
& norm = m
&⋅
m
T1 pref
⋅
Tref
p1
p
pmax = max ⋅ p1
p1
kg/sec
Your Partner in Powertrain - AVL Powertrain UK
31
Turbocharger Function Development
&
m
p1
T1
ECU - calculation
n
p2
ECU - Curves
&
m
Max. pressure ratio
y
T2
n=max
pmax
norm. mass flow
ECU - Formulas
m& MAFS
T1
⋅ pref
Tref
Your Partner in Powertrain - AVL Powertrain UK
p1
1/ x
T1
& norm = m
&⋅
m
T1 pref
⋅
Tref
p1
p
pmax = max ⋅ p1
p1
32
Turbocharger Function Calibration
Measured Data
Automatic Mapping
Turbocharger Map
Turbochager Speed
x 10
5
2
1.8
1.6
1.4
1.2
1
0.8
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Pressure Ratio
2 .6
2 .4
2 .2
2
1 .8
1 .6
1 .4
1 .2
1
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Norm. Mass Flow
0 .1 4
0 .1 3
0 .1 2
0 .1 1
0.1
0 .0 9
0 .0 8
0 .0 7
0 .0 6
0 .0 5
0 .0 4
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
Your Partner in Powertrain - AVL Powertrain UK
33
Turbocharger Function Development
n
p1
p2
T1
T2
&
m
&
m
T1 pref
& norm = m
&⋅
m
⋅
Tref
p1
m& MAFS
T1
T1
⋅ pref
Tref
Max. pressure ratio
y
n=max
p
pmax = max ⋅ p1
p1
pmax
norm. mass flow
1/ x
p1
Your Partner in Powertrain - AVL Powertrain UK
34
Two topics
Smart Concept
-Turbochager speed-
The realisation of technologies
-The Range Extender-
Your Partner in Powertrain - AVL Powertrain UK
35
Electrification versus costs
Battery Costs - based on energy consumption of 20 kWh / 100km
€ 25.000
AER = All Electric Range
€ 22.500
AER pure EV
RE = Range Extender
EV = Electric Vehicle
€ 20.000
12.200 € Saving
€ 17.500
€ 15.000
AER with RE
€ 12.500
€ 10.000
€ 7.500
RE Cost
5.400 € Saving
€ 5.000
Total Range
with RE
RE Cost
€ 2.500
€0
10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200
> 300
Range [km]
Your Partner in Powertrain - AVL Powertrain UK
36
Range Extender – Rotary Engine Concept
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37
Range Extender – Rotary Engine Concept
Highly Integrated
Range Extender
Rotary Engine
Your Partner in Powertrain - AVL Powertrain UK
Range Extender
from
existing engine
38
Range Extender – Rotary Engine Concept
the system
Your Partner in Powertrain - AVL Powertrain UK
39
Range Extender – Rotary Engine Concept
vehicle integration
75kW traction motor:
- 0 – 60km/h in 6sec
- top speed 130km/h
integrated
behind rear axle
Li-Ion Battery system
in front of rear axle
and in middle tunnel
Your Partner in Powertrain - AVL Powertrain UK
40
Thank you
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41
POWERTRAIN
IS
GREAT
BRITAIN
Your Partner in Powertrain - AVL Powertrain UK
WITH SOME HELP
42
AVL LIST GmbH
YOUR INDEPENDENT ENGINEERING PARTNER
Thank you
Matthias Wellers
Mauro Giroldo
Maurilio Cassiani
Obrigado
Your Partner in Powertrain - AVL Powertrain UK
43