声明
Abstract
Content
Chapter 1 Introduction
1.1 Methodology
Chapter 2 Literature review
2.1 General overview
2.2 The history of regenerative braking system
2.2.1 Principles of regenerative braking system
2.2.2 The braking system model
2.2.3 Braking behavior
2.2.4 Principle of brake resistance
2.3 Hybrid vehicles
2.3.1 The use of a hybrid power unit is most suitable in applications
2.3.2 The advantages of the hybrid electric vehicle
2.3.3 The development of purely electric vehicles which incorporate regenerative braking system
2.3.4 The following manufacture has also produced electric vehicles featuring regenerative braking
2.3.5 The development of hybrid electric vehicles incorporating regenerative braking
2.4 Electric vehicle
2.5 Battery system
2.5.1 Limitations
2.6 Fuel cell electric vehicles
2.6.1 Fuel cell electric vehicles advantages
2.6.2 The need for bench of the fuel cell drives systems
Chapter 3 Hydraulic accumulators
3.1 The structure and operation principle of the hydraulic accumulator system
3.1.1 The heat transfer analysis of the hydraulic accumulator system
3.2 Flywheels
3.2.1 Flywheel thermodynamics
3.2.2 The major advantage of flywheel over batteries
3.3 Elastomeric
3.4 Elastomerie regenerative braking
3.5 Elastomer flywheel
3.5.1 The advantages of an elastomer flywheel are
3.6 Elastomer ejection system
3.6.1 The main properties goveming an elastomers performance
Chapter 4 The need for regenerative braking systems
4.1 The advantages of regenerative braking systems
4.1.1 The disadvantages of regenerative braking systems
4.1.2 Required vehicle performance
4.2 Development of vehicles incorporating regenerative braking systems
4.3 The benefits of regenerative braking of vehicles
4.4 Regenerative braking efficiency
4.5 Limitations of regenerative braking systems
Chapter 5 Conclusions
Reference
Appreciations
东北大学;
hybrid electric vehicles; Regenerative braking systems; hydraulic accumulators; flywheels;