Modern electric, hybrid electric, and fuel cell vehicles : fundamentals, theory, and design

摘要: Environmental Impact and History of Modern Transportation Air Pollution Global Warming Petroleum Resources Induced Costs Importance Different Development Strategies to Future Oil Supply EVs HEVs Fuel Cell Vehicles Fundamentals Vehicle Propulsion Brake General Description Movement Resistance Dynamic Equation Tire-Ground Adhesion Maximum Tractive Effort Power Train Speed Plant Transmission Characteristics Performance Operating Economy Internal Combustion Engines 4S, Spark-Ignited IC Compression-Ignition 2S Wankel Rotary Stirling Gas Turbine Quasi-Isothermal Brayton Cycle Electric Configurations in Normal Driving Energy Consumption Hybrid Concept Drive Trains Architectures Systems DC Motor Drives Induction Permanent Magnetic BLDC SRM Design Principle Series (Electrical Coupling) Operation Patterns Control Principles a Example Parallel (Mechanically Coupled) Configuration Objectives Parametric Simulations Methodology Series-Parallel (Torque Parameters Simulation an Plug-In Statistics Daily Distance Management Strategy Storage Mild Consumed Braking Peaking Sources Storages Electrochemical Batteries Ultracapacitors Ultra-High-Speed Flywheels Hybridization Regenerative Breaking Urban versus Deceleration Rate on Front Rear Axles System EV, HEV, FCV Cells Electrode Potential Current-Voltage Curve Oxidant Technologies Non-Hydrogen for Off-Road Motion Tracked Architecture the Engine/Generator Appendices Index