Hybrid electric vehicles: principles and applications with practical perspectives
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2011
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIX, 448 S. Ill., graph. Darst. |
| ISBN: | 9780470747735 9781119998914 |
Internformat
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| 100 | 1 | |a Mi, Chris |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Hybrid electric vehicles |b principles and applications with practical perspectives |c Chris Mi ; M. Abul Masrur ; David Wenzhong Gao |
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| 300 | |a XIX, 448 S. |b Ill., graph. Darst. | ||
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| DE-BY-FWS_katkey | 408738 |
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| adam_text | Titel: Hybrid electric vehicles
Autor: Mi, Chris
Jahr: 2011
Contents
About the Authors xiii
Preface xvii
1 Introduction 1
1.1 Sustainable Transportation 3
1.1.1 Population, Energy, and Transportation 4
1.1.2 Environment 5
1.1.3 Economic Growth 6
1.1.4 New Fuel Economy Requirement 7
1.2 A Brief History of HEVs 8
1.3 Why EVs Emerged and Failed in the 1990s, and What We Can Learn
from It 10
1.4 Architectures of HEVs 11
1.4.1 Series HEVs 12
1.4.2 Parallel HEVs 13
1.4.3 Series-Parallel HEVs 14
1.4.4 Complex HEVs 15
1.4.5 Diesel Hybrids 15
1.4.6 Other Approaches to Vehicle Hybridization 16
1.4.7 Hybridization Ratio 16
1.5 Interdisciplinary Nature of HEVs 17
1.6 State of the Art of HEVs 18
7.6.7 The Toyota Prius 19
7.6.2 The Honda Civic 21
1.6.3 The Ford Escape 21
1.6.4 The Two-Mode Hybrid 21
1.7 Challenges and Key Technology of HEVs 22
1.8 The Invisible Hand-Government Support 23
References 25
2 Concept of Hybridization of the Automobile 27
2.1 Vehicle Basics 27
2.7.7 Constituents of a Conventional Vehicle 27
Contents
2.7.2 Vehicle and Propulsion Load 27
2.1.3 Drive Cycles and Drive Terrain 30
2.2 Basics of the EV 31
2.2.7 WhyEV? 31
2.2.2 Constituents of an EV 32
2.2.3 Vehicle and Propulsion Loads 34
2.3 Basics of the HEV 35
2.3.1 Why HEV? 35
2.3.2 Constituents of a HEV 35
2.4 Basics of Plug-In Hybrid Electric Vehicle (PHEV) 36
2.4.1 Why PHEV? 36
2.4.2 Constituents of a PHEV 37
2.4.3 Comparison between the HEV and PHEV 38
2.5 Basics of Fuel Cell Vehicles (FCVs) 38
2.5.7 Why FCV? 38
2.5.2 Constituents of a FCV 39
2.5.3 Some Issues Related to Fuel Cells 39
Reference 39
3 HEV Fundamentals 41
3.1 Introduction 41
3.2 Vehicle Model 42
3.3 Vehicle Performance 44
3.4 EV Powertrain Component Sizing 47
3.5 Series Hybrid Vehicle 51
3.6 Parallel Hybrid Vehicle 56
3.6.1 Electrically Peaking Hybrid Concept 57
3.6.2 ICE Characteristics 63
3.6.3 Gradability Requirement 63
3.6.4 Selection of Gear Ratio from ICE to Wheel 64
3.7 Wheel Slip Dynamics 65
References 67
4 Advanced HEV Architectures and Dynamics of HEV Powertrain 69
4.1 Principle of Planetary Gears 69
4.2 Toyota Prius and Ford Escape Hybrid Powertrain 72
4.3 GM Two-Mode Hybrid Transmission 76
4.3.1 Operating Principle of the Two-Mode Powertrain 76
4.3.2 Mode 0: Vehicle Launch and Backup 77
4.3.3 Mode 1: Low Range 78
4.3.4 Mode 2: High Range 79
4.3.5 Mode 3: Regenerative Braking 80
4.3.6 Transition from Mode 0 to Mode 3 80
4.4 Dual-Clutch Hybrid Transmissions 83
4.4.1 Conventional DCT Technology 84
4.4.2 Gear Shift Schedule 84
Contents
4.4.3 DCT-Based Hybrid Powertrain 85
4.4.4 Operation of DCT-Based Hybrid Powertrain 87
4.5 Hybrid Transmission Proposed by Zhang et al. 89
4.5.1 Motor-Alone Mode 90
4.5.2 Combined Power Mode 91
4.5.3 Engine-Alone Mode 91
4.5.4 Electric CVT Mode 91
4.5.5 Energy Recovery Mode 92
4.5.6 Standstill Mode 92
4.6 Renault IVT Hybrid Transmission 92
4.7 Timken Two-Mode Hybrid Transmission 93
4.7.1 Mode 0: Launch and Reverse 94
4.7.2 Mode 1: Low-Speed Operation 94
4.7.3 Mode 2: High-Speed Operation 94
4.7.4 Mode 4: Series Operating Mode 94
4.7.5 Mode Transition 96
4.8 Tsai s Hybrid Transmission 96
4.9 Hybrid Transmission with Both Speed and Torque Coupling
Mechanism 98
4.10 Toyota Highlander and Lexus Hybrid, E-Four-Wheel Drive 99
4.11 CAMRY Hybrid 101
4.12 Chevy Volt Powertrain 102
4.13 Dynamics of Planetary-Based Transmissions 103
4.13.1 Non-ideal Gears in the Planetary System 103
4.13.2 Dynamics of the Transmission 104
4.14 Conclusions 105
References 106
5 Plug-in Hybrid Electric Vehicles 107
5.1 Introduction to PHEVs 107
5.7.7 PHEVs and EREVs 107
5.7.2 Blended PHEVs 108
5.7 J Why PHEV? 108
5.1.4 Electricity for PHEV Use 110
5.2 PHEV Architectures 110
5.3 Equivalent Electric Range of Blended PHEVs 112
5.4 Fuel Economy of PHEVs 112
5.4.1 Well-to- Wheel Efficiency 113
5.4.2 PHEV Fuel Economy 113
5.4.3 Utility Factor 114
5.5 Power Management of PHEVs 115
5.6 PHEV Design and Component Sizing 118
5.7 Component Sizing of EREVs 119
5.8 Component Sizing of Blended PHEVs 119
5.9 HEV to PHEV Conversions 120
5.9.7 Replacing the Existing Battery Pack 120
viii Contents
5.9.2 Adding an Extra Battery Pack 122
5.9.3 Converting Conventional Vehicles to PHEVs 123
5.10 Other Topics on PHEVs 123
5.10.1 End-of-Life Battery for Electric Power Grid Support 123
5.10.2 Cold Start Emissions Reduction in PHEVs 123
5.10.3 Cold Weather/Hot Weather Performance Enhancement in PHEVs 124
5.10.4 PHEV Maintenance 124
5.70.5 Safety of PHEVs 124
5.11 Vehicle-to-Grid Technology 125
5.7 7.7 PHEV Battery Charging 126
5.77.2 Impact of G2V 126
5.77 J The Concept of V2G 129
5.11.4 Advantages of V2G 134
5.77.5 Case Studies of V2G 134
5.12 Conclusion 136
References 138
6 Special Hybrid Vehicles 139
6.1 Hydraulic Hybrid Vehicles 139
6.7.7 Regenerative Braking in HHVs 142
6.2 Off-road HEVs 144
6.3 Diesel HEVs 149
6.4 Electric or Hybrid Ships, Aircraft, Locomotives 150
6.4.1 Ships 150
6.4.2 Aircraft 154
6.4.3 Locomotives 156
6.5 Other Industrial Utility Application Vehicles 159
References 160
Further Reading 160
7 HEV Applications for Military Vehicles 163
7.1 Why HEVs Can Be Beneficial to Military Applications 163
7.2 Ground Vehicle Applications 164
7.2.7 Architecture ? Series, Parallel, Complex 164
7.2.2 Vehicles Which Are of Most Benefit 166
7.3 Non-ground Vehicle Military Applications 168
7.3.1 Electromagnetic Launchers 169
7.3.2 Hybrid-Powered Ships 170
7.3.3 Aircraft Applications 171
7.3.4 Dismounted Soldier Applications 171
7.4 Ruggedness Issues 173
References 174
Further Reading 175
8 Diagnostics, Prognostics, Reliability, EMC, and Other Topics
Related to HEVs 177
8.1 Diagnostics and Prognostics in HEVs and EVs 177
Contents
8.1.1 Onboard Diagnostics 178
8.7.2 Prognostics Issues 180
8.2 Reliability of HEVs 182
8.2.7 Analyzing the Reliability of HEV Architectures 183
8.2.2 Reliability and Graceful Degradation 185
8.2.3 Software Reliability Issues 187
8.3 EMC Issues 190
8.4 Noise Vibration Harshness (NVH), Electromechanical, and Other Issues 192
8.5 End-of-Life Issues 194
References 195
Further Reading 195
9 Power Electronics in HEVs 197
9.1 Introduction 197
9.2 Principle of Power Electronics 198
9.3 Rectifiers Used in HEVs 200
9.3.1 Ideal Rectifier 200
9.3.2 Practical Rectifier 201
9.3.3 Single-Phase Rectifier 202
9.3.4 Voltage Ripple 204
9.4 Buck Converter Used in HEVs 207
9.4.7 Operating Principle 207
9.4.2 Nonlinear Model 208
9.5 Non-isolated Bidirectional DC-DC Converter 209
9.5.7 Operating Principle 209
9.5.2 Maintaining Constant Torque Range and Power Capability 211
9.5.3 Reducing Current Ripple in the Battery 212
9.5.4 Regenerative Braking 213
9.6 Voltage Source Inverter 213
9.7 Current Source Inverter 213
9.8 Isolated Bidirectional DC-DC Converter 217
9.8.1 Basic Principle and Steady State Operations 218
9.8.2 Voltage Ripple 222
9.9 PWM Rectifier in HEVs 226
9.9.7 Rectifier Operation of Inverter 226
9.10 EV and PHEV Battery Chargers 229
9.70.7 Forward/Flyback Converters 230
9.70.2 Half-Bridge DC-DC Converter 231
9.10.3 Full-Bridge DC-DC Converter 231
9.70.4 Power Factor Correction Stage 232
9.10.5 Bidirectional Battery Chargers 234
9.10.6 Other Charger Topologies 234
9.70.7 Inductive Charging 235
9.70.8 Wireless Charging 236
9.11 Modeling and Simulation of HEV Power Electronics 237
9.77.7 Device-Level Simulation 238
Contents
9.77.2 System-Level Model 239
9.12 Emerging Power Electronics Devices 239
9.13 Circuit Packaging 240
9.14 Thermal Management of HEV Power Electronics 240
9.15 Conclusions 243
References 243
10 Electric Machines and Drives in HEVs 245
10.1 Introduction 245
10.2 Induction Motor Drives 246
10.2.1 Principle of Induction Motors 246
10.2.2 Equivalent Circuit of Induction Motor 248
10.2.3 Speed Control of Induction Machine 250
10.2.4 Variable Frequency, Variable Voltage Control of Induction Motors 252
10.2.5 Efficiency and Losses of Induction Machine 253
10.2.6 Additional Loss in Induction Motors due to PWM Supply 254
10.2.7 Field-Oriented Control of Induction Machine 265
10.3 Permanent Magnet Motor Drives 271
70.3.7 Basic Configuration of PM Motors 272
10.3.2 Basic Principle and Operation ofPM Motors 273
10.3.3 Magnetic Circuit Analysis of IPM Motors 277
10.3.4 Sizing of Magnets in PM Motors 286
10.3.5 Eddy Current Losses in the Magnets of PM Machines 291
10.4 Switched Reluctance Motors 291
10.5 Doubly Salient Permanent Magnet Machines 293
10.6 Design and Sizing of Traction Motors 297
70.6.7 Selection of A and B 298
10.6.2 Speed Rating of the Traction Motor 298
10.6.3 Determination of the Inner Power 299
10.7 Thermal Analysis and Modeling of Traction Motors 299
10.8 Conclusions 306
References 306
11 Batteries, Ultracapacitors, Fuel Cells, and Controls 315
11.1 Introduction 315
11.2 Battery Characterization 317
11.3 Comparison of Different Energy Storage Technologies for HEVs 321
11.4 Modeling Based on Equivalent Electric Circuits 325
77.4.7 Battery Modeling 325
11.4.2 Battery Modeling Example 327
77.4.3 Modeling of Ultracapacitors 329
77.4.4 Battery Modeling Example for Hybrid Battery and Ultracapacitor 331
11.5 Battery Charging Control 334
11.6 Charge Management of Storage Devices 337
11.7 Flywheel Energy Storage System 341
11.8 Hydraulic Energy Storage System 344
Contents xi
11.9 Fuel Cells and Hybrid Fuel Cell Energy Storage System 345
11.9.1 Introduction to Fuel Cells 345
77.9.2 Fuel Cell Modeling 349
77.9.3 Hybrid Fuel Cell Energy Storage Systems 352
11.9.4 Control Strategy of Hybrid Fuel Cell Power System 355
11.10 Summary and Discussion 360
References 361
12 Modeling and Simulation of Electric and Hybrid Vehicles 363
12.1 Introduction 363
12.2 Fundamentals of Vehicle System Modeling 364
12.3 HEV Modeling Using ADVISOR 366
12.4 HEV Modeling Using PSAT 369
12.5 Physics-Based Modeling 370
12.6 Bond Graph and Other Modeling Techniques 378
12.7 Consideration of Numerical Integration Methods 381
12.8 Conclusion 382
References 382
13 HEV Component Sizing and Design Optimization 385
13.1 Introduction 385
13.2 Global Optimization Algorithms for HEV Design 386
73.2.7 DIRECT 386
73.2.2 Simulated Annealing 391
13.2.3 Genetic Algorithms 393
13.2.4 Particle Swarm Optimization 395
13.2.5 Advantages/Disadvantages of Different Optimization Algorithms 398
13.3 Model-in-the-Loop Design Optimization Process 399
13.4 Parallel HEV Design Optimization Example 400
13.5 Series HEV Design Optimization Example 405
13.5.1 Control Framework of a series HEV Powertrain 405
13.5.2 Series HEV Parameter Optimization 407
13.5.3 Optimization Results 408
13.6 Conclusion 410
References 412
14 Vehicular Power Control Strategy and Energy Management 413
14.1 A Generic Framework, Definition, and Needs 413
14.2 Methodology to Implement 415
74.2.7 Methodologies for Optimization 420
74.2.2 Cost Function Optimization 423
14.3 Benefits of Energy Management 428
References 429
Further Reading 429
Contents
15 Commercialization and Standardization of HEV Technology
and Future Transportation 431
15.1 What Is Commercialization and Why Is It Important for HEVs? 431
15.2 Advantages, Disadvantages, and Enablers of Commercialization 431
15.3 Standardization and Commercialization 432
15.4 Commercialization Issues and Effects on Various Types of Vehicles 433
15.5 Commercialization and Future of HEVs and Transportation 434
Further Reading 434
Index 435
|
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| id | DE-604.BV039133704 |
| illustrated | Illustrated |
| indexdate | 2024-08-01T11:13:32Z |
| institution | BVB |
| isbn | 9780470747735 9781119998914 |
| language | English |
| lccn | 2011002521 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024151943 |
| oclc_num | 745503515 |
| open_access_boolean | |
| owner | DE-1050 DE-573 DE-1043 DE-703 DE-29T DE-83 DE-862 DE-BY-FWS DE-858 DE-859 |
| owner_facet | DE-1050 DE-573 DE-1043 DE-703 DE-29T DE-83 DE-862 DE-BY-FWS DE-858 DE-859 |
| physical | XIX, 448 S. Ill., graph. Darst. |
| publishDate | 2011 |
| publishDateSearch | 2011 |
| publishDateSort | 2011 |
| publisher | Wiley |
| record_format | marc |
| spellingShingle | Mi, Chris Masrur, M. Abul Gao, David Wenzhong Hybrid electric vehicles principles and applications with practical perspectives Hybrid electric vehicles Hybridantrieb (DE-588)4160835-5 gnd Elektrofahrzeug (DE-588)4151795-7 gnd Hybridfahrzeug (DE-588)7524499-8 gnd Antrieb Technik (DE-588)4002360-6 gnd Kraftfahrzeug (DE-588)4073757-3 gnd Fahrzeugantrieb (DE-588)4123177-6 gnd |
| subject_GND | (DE-588)4160835-5 (DE-588)4151795-7 (DE-588)7524499-8 (DE-588)4002360-6 (DE-588)4073757-3 (DE-588)4123177-6 |
| title | Hybrid electric vehicles principles and applications with practical perspectives |
| title_auth | Hybrid electric vehicles principles and applications with practical perspectives |
| title_exact_search | Hybrid electric vehicles principles and applications with practical perspectives |
| title_full | Hybrid electric vehicles principles and applications with practical perspectives Chris Mi ; M. Abul Masrur ; David Wenzhong Gao |
| title_fullStr | Hybrid electric vehicles principles and applications with practical perspectives Chris Mi ; M. Abul Masrur ; David Wenzhong Gao |
| title_full_unstemmed | Hybrid electric vehicles principles and applications with practical perspectives Chris Mi ; M. Abul Masrur ; David Wenzhong Gao |
| title_short | Hybrid electric vehicles |
| title_sort | hybrid electric vehicles principles and applications with practical perspectives |
| title_sub | principles and applications with practical perspectives |
| topic | Hybrid electric vehicles Hybridantrieb (DE-588)4160835-5 gnd Elektrofahrzeug (DE-588)4151795-7 gnd Hybridfahrzeug (DE-588)7524499-8 gnd Antrieb Technik (DE-588)4002360-6 gnd Kraftfahrzeug (DE-588)4073757-3 gnd Fahrzeugantrieb (DE-588)4123177-6 gnd |
| topic_facet | Hybrid electric vehicles Hybridantrieb Elektrofahrzeug Hybridfahrzeug Antrieb Technik Kraftfahrzeug Fahrzeugantrieb |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024151943&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT michris hybridelectricvehiclesprinciplesandapplicationswithpracticalperspectives AT masrurmabul hybridelectricvehiclesprinciplesandapplicationswithpracticalperspectives AT gaodavidwenzhong hybridelectricvehiclesprinciplesandapplicationswithpracticalperspectives |
Inhaltsverzeichnis
Schweinfurt Zentralbibliothek Lesesaal
| Signatur: |
2000 ZO 4490 M618 |
|---|---|
| Exemplar 1 | ausleihbar Verfügbar Bestellen |