Description
Book SynopsisThis text presents a holistic, systems approach to vehicle powertrain systems design. It provides students with the basic knowledge and understanding required to undertake an optimal design process, while at the same time identifying the real-world constraints involved in this process such as emissions, noise, and fuel economy.
Table of ContentsChapter 1 Vehicle powertrain concepts
1.1 Powertrain systems 3
1.2 Powertrain components 11
1.3 Vehicle performance 13
1.4 Driver behaviour 18
1.5 Role of modelling 20
1.6 Aim of book 23
1.7 Further reading 24
1.8 References 24
Chapter 2 Power generation characteristics of Internal Combustion Engines
2.1 Introduction 4
2.2 Engine power generation principles 5
2.3 Engine modelling 46
2.4 Multi cylinder engines 91
2.5 Engine torque maps 107
2.6 Magic Torque (MT) formula for engine torque 117
2.7 Engine Management System 117
2.8 Net output power 117
2.9 Concluding remarks 117
2.10 Further reading 117
2.11 References 117
2.12 Review questions 117
2.13 Problems 117
Chapter 3 Vehicle Longitudinal Dynamics
3.1. Introduction 4
3.2. Torque generators 5
3.3. Tractive force 9
3.4. Resistive forces 26
3.5. Vehicle Constant Power Performance (CPP) 43
3.6. Constant Torque performance (CTP) 71
3.7. Fixed Throttle Performance (FTP) 82
3.8. Throttle Pedal Cycle performance (PCP) 103
3.9. Effect of rotating masses 108
3.10. Tyre slip 118
3.12. Vehicle coast down 129
3.13. Driveline losses 140
3.14. Concluding remarks 149
3.15. Further reading 149
3.16. References 150
3.17. Review questions 151
3.18. Problems 152
Chapter 4 Transmissions
4.1. Introduction 4
4.2. Need for gearbox 4
4.3. Design of gearbox ratios 7
4.4. Gearbox kinematics and tooth numbers 41
4.5. Manual transmissions 54
4.6. Automatic transmissions 127
4.7. CVTs 140
4.8. Concluding remarks 151
4.9. Further reading 152
4.10. References 153
4.11. Review questions 154
4.12. Problems 156
Chapter 5 Fuel Consumption
5.1 Introduction 4
5.2 Engine energy consumption 5
5.3 Driving cycles 11
5.4 Vehicle fuel consumption 19
5.5 Shifting effects 33
5.6 Software 46
5.7 Automated gearshifts 51
5.8 Other solutions for fuel efficiency 57
5.9 Concluding remarks 65
5.10 Further reading 66
5.11 References 68
5.12 Review questions 69
5.13 Problems 71
Chapter 6 Driveline dynamics
6.1 Introduction 3
6.2 Modelling driveline dynamics 4
6.3 Bond graph models of driveline components 11
6.4 Driveline models 21
6.5 Analysis 28
6.6 Concluding remarks 51
6.7 Further reading 52
6.8 References 52
6.9 Review questions 53
6.10 Problems 54
Chapter 7 Hybrid electric vehicles
7.1. Introduction 4
7.2. Types of hybrid electric vehicles 5
7.3. Power split devices 20
7.4. HEV component characteristics 49
7.5. HEV performance analysis 70
7.6. HEV component sizing 82
7.7. Power management 122
7.8. Concluding remarks 135
7.9. Further reading 136
7.10. References 137
7.11. Review questions 138
7.12. Problems 139
