electrified buses in brussels: design considerations and ... buses in brussels: design...
TRANSCRIPT
![Page 1: Electrified Buses in Brussels: Design Considerations and ... Buses in Brussels: Design Considerations and Charging Strategy Omar Hegazy & Thierry Coosemans VUB-MOBI](https://reader031.vdocuments.us/reader031/viewer/2022030414/5a9feaba7f8b9a84178d7405/html5/thumbnails/1.jpg)
Electrified Buses in Brussels: Design Considerations and
Charging Strategy
Omar Hegazy & Thierry Coosemans
VUB-MOBI
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Electrification of Diesel Buses: WHY?
Standard Bus:12m
Articulated Bus:18m
To improve Air Quality byreducing emissions
To reduce the noise of buses incities
To get more energy efficienttechnology
BACKGROUND
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Outline
Use-Case Definition & Specifications
Modeling Method & Bus Architecture
Charging Scenarios & Battery Sizing
Summary
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Outline
Use-Case Definition & Specifications
Modeling Method & Bus Architecture
Charging Scenarios & Battery Sizing
Summary
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Electric Bus: Design Considerations
• Road Characteristics
• Battery Chemistry
• Battery Aging
• Charging scenarios: Overnight or Opportunity
• Charging power
• Charging time
• Auxiliaries loads; incl. Air condition, etc.
• Bus schedule
• Bus autonomy and capacity
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Bus Lines and Use-case Definition
Bus Line 17: Neighborhood bus 12m standard Bus
Bus Line 86: Feeder bus 12m Standard Bus
Bus Line 48: Trunk Line18m Articulated Bus
Overnight Charging
Overnight Charging
Opportunity Charging
12hr Autonomy
12hr Autonomy
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Bus Lines and Use-case Definition
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Outline
Use-Case Definition & Specifications
Modeling Method & Bus Architectures
Charging Scenarios & Battery Sizing
Summary
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Outline
Use-Case Definition & Specifications
Modeling Method & Bus Architecture
Charging Scenarios & Battery Sizing
Summary
![Page 10: Electrified Buses in Brussels: Design Considerations and ... Buses in Brussels: Design Considerations and Charging Strategy Omar Hegazy & Thierry Coosemans VUB-MOBI](https://reader031.vdocuments.us/reader031/viewer/2022030414/5a9feaba7f8b9a84178d7405/html5/thumbnails/10.jpg)
E-Bus: Modeling Methodology
BatteryMotor
Drive M DDC/DC
Converter
Calculation Direction
Positive Power Flow
Backward approach
BatteryMotor
Drive M DDC/DC
Converter Forward approach
Calculation Direction
Positive Power Flow
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(1) High Voltage Battery
• High Voltage Battery 600-750V
Transmission
EM
Electric Flow
Mechanical Flow
DC/AC Inverter
Energy Management Strategy
Control Signal
EVSEUNIT
+-
HV Battery Pack
700 V
DC/DC Converter
AuxiliaryLoads
EVSE: Electric Vehicle Supply Equipment
E-Bus: Architectures
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(2) Low Voltage Battery+ DC/DC Converter
Transmission
EM
Electric Flow
Mechanical Flow
DC/AC Inverter
Energy Management Strategy
Control Signal
EVSEUNIT
+-
LV Battery Pack
700 V
DC/DC Converter
DC/DC Converter
AuxiliaryLoads
E-Bus: Architectures
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Bus Line Length (m) EMPTY (kg) Full Load (kg)
L 86 12.135 11.720 19000
L 48 18.125 17.205 27065
L 17 12.135 11.720 19000
STIB/MVIBInput
VUBInput
Different Battery Technologies for Electric Bus Lines
Battery Type Capacity (Ah) Wh/kg W/kg Weight (kg)
LTO 60 156 2700 1.45
LFP 45 146 2500 0.99
NMC 20 174 2300 0.428
All battery models are validated via real measurements (MOBI database) incl.battery aging @ different temperatures & current rates
Use-case Specifications
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Outline
Use-Case Definition & Specifications
Modeling Method & Bus Architecture
Charging Scenarios & Battery Sizing
Summary
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Charging Scenarios & Battery Sizing Bus Line 86
• Driving Cycle back-forth
• Diesel Fuel Consumption 8.02 Liter 59l/100km
• Back-Forth trips Average distance 13.6km
Measurements of L86 Diesel Bus
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Charging Scenarios & Battery Sizing Electrified Bus Line 86
• Back-Forth Driving Cycle • Wheel Power (kW) & Battery power (kW)• Auxiliaries power 3kW (Assumption)• LFP battery (45 Ah)/700V
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• Ebus Operation =12 hours
• Min. SoC ~ 10%
• Total Battery Energy= 175.25 kWh
• Estimated Distance ~ 103 km
LFP battery 45Ah /700V
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LFP battery (45Ah)
• High Voltage LFP Battery Pack: Energy (kWh)
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Overnight Charging: L86 Battery Sizing
204180 185
0
50
100
150
200
250
LTO 60Ah NMC 20Ah LFP 45Ah
Overnight Charging: Battery Sizing (kWh)
LTO 60Ah NMC 20Ah LFP 45Ah
Selection of Battery Energy 12hr Bus Operation Charging power 40kW @ Depot Charging time 4.25 hr (for LFP)
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Impact of Auxiliaries Energy Consumption 12hr Bus Operation
Incl. 96% Efficiency for 48V
DC/DC for Aux. loads
21.5
26.88
31.6
35.78
39.52
0
5
10
15
20
25
30
35
40
45
3 4 5 6 7
Co
nsu
mp
tio
n (%
)
Auxiliaries POWER (kW)
Aux. Energy cons.(%) of Total Energy
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Charging Scenarios & Battery Sizing Electrified Bus Line 48
• Back-Forth Driving Cycle (50.5 kWh) & 17km 2.97 kWh/km• Wheel Power (kW) & Battery power (kW)• Auxiliaries power 3kW (assumption)• LTO battery (60 Ah)/600V
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L48- LTO (60Ah/600V)
Energy: 28 kWh Charging at both terminals Charging power 200kW 7min
Opportunity Charging: L48 Battery Sizing
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Impact of Aux. Load consumption
0
5
10
15
20
25
3 4 5 6 7
Co
nsu
mp
tio
n (
%)
Average Auxiliaries power (kW)
18m Bus: Aux. Energy Cons. (%) of Total Energy
Charging Scenarios & Battery Sizing Electrified Bus Line 48
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Back-Forth Driving Cycle
Wheel Power (kW)
Battery Power (kW)
Auxiliaries power ( average) 3kW (assumption)
NMC (20Ah)/700V
Charging Scenarios & Battery Sizing Electrified Bus Line 17
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Total energy = 265 kWh & travelling distance 211 km
12hr Bus Operation
Overnight Charging 60kW
Charging time 4.5hr
Travelling distance (Back-forth)= 13.93 km ~1.3 kWh/km
Overnight Charging: L17 Battery Sizing
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Outline
Use-Case Definition & Specifications
Modeling Method & Bus Architecture
Charging Scenarios & Battery Sizing
Summary
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Summary and Conclusions
Bus Line Energy @12hr Charging Scenario Charging time
L 86 185 kWh (LFP) OverNCharg: 40kW 4.25hr
L 48 28kWh (LTO) OPPCharg.: 200 kW 7min
L 17 265 kWh OverNCharg:60 kW 4.5 hr
NMC battery is not recommended for Opportunity charging
due its limited charging rate
Auxiliaries loads have a significant impact on Bus energy
consumption.
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Energy Consumption Ebus is based on NMC 20Ah
Average kg CO2eq/kWh for Ebus
0.00
500.00
1000.00
1500.00
2000.00
2500.00
3000.00
Diesel Elec (BE mix)
WTW
en
ergy
co
nsu
mp
tio
n [
MJ/
10
0km
]
WTT
TTW
TTW WTTDiesel 2151.55 582.98Elec (BE mix) 629.10 1207.87
TTW= Tank-to-Wheel WTT= Well-to-Tank
Energy Consumption
Aver. kg CO2eq/kWh = 0.184 kg CO2eq/kWh
OvernightCharging (E)
Aver. kg CO2eq
180 kWh33.12/One-time
Charging
Well-to-Wheel (WTW): Evaluation
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Contacts
Omar Hegazy
+3226292992
Thierry Cooesmans
+3226293767