Electric and Hybrid Vehicles. Contributors. Preface. Economic and Environmental Comparison of Conventional and Alternative Vehicle Options 1. Results and discussion 4. Conclusions Acknowledgement Nomenclature References. Lifetime Cost of Battery, Fuel- Cell, and Plug- in Hybrid Electric Vehicles 1. Lifetime cost of battery- electric vehicles 3. Lifetime cost of plug- in hybrid electric vehicles 4. Lifetime cost of fuel- cell electric vehicles 5. Discussion Acknowledgments References. Relative Fuel Economy Potential of Intelligent, Hybrid and Intelligent–Hybrid Passenger Vehicles 1. Vehicle models for simulation studies 3. Velocity scheduling using traffic preview 4. Hybrid vehicles with telematics 5. Optimal management of hybrid vehicles with telematics 6. Conclusions and future opportunities Acknowledgements Nomenclature References. Cost- Effective Vehicle and Fuel Technology Choices in a Carbon- Constrained World: Insights from Global Energy Systems Modeling 1. Discussion and conclusions Acknowledgments References. Expected Greenhouse Gas Emission Reductions by Battery, Fuel Cell, and Plug- In Hybrid Electric Vehicles 1. Background and previous research 3. Formation of GHG emissions from EV fuel cycles 4. Estimates of GHG emissions from EV fuel cycles 5. Magnitude of possible GHG reductions—scaling up the EV industry 6. Electric and Hybrid Vehicles: Design Fundamentals. 33 Lightweight Electric Hybrid Vehicle Design.pdf 34. ELECTRIC AND HYBRID VEHICLES DESIGN FUNDAMENTALS. Fundamentals of Hybrid and Electric Vehicles. Existing electric and hybrid vehicle models such as. Key uncertainties and areas for further research 7. Conclusions Acknowledgments References Appendix. Analysis of Design Tradeoffs for Plug- in Hybrid Vehicles 1. Methods for studying PHEV design 3. PHEV subsystem description and tradeoff analysis 4. Concluding remarks References. Evaluation of Energy Consumption, Emissions, and Costs of Plug- in Hybrid Vehicles 1. Factors affecting plug- in hybrid fuel consumption and emissions 3. SAE J1. 71. 1 recommended practice 4. United States, Europe, and Japan analysis 6. Conclusions Acknowledgments Nomenclature References. Improving Petroleum Displacement Potential of PHEVs Using Enhanced Charging Scenarios 1. Conclusions Acknowledgments References. Fuel Cell Electric Vehicles, Battery Electric Vehicles, and their Impact on Energy Storage Technologies: An Overview 1. The boundary conditions for automotive technology development 3. Fuel cell electric and battery electric vehicles — two competing concepts? Download 'Electric And Hybrid Vehicles: Design Fundamentals.pdf. Design Fundamentals' electric hybrid vehicles ppt; electric hybrid vehicles pdf; electric hybrid. Electric and Hybrid Vehicles: Design Fundamentals. System for a Series/Parallel 2 2 Hybrid Electric Vehicle,” IEEE. 220613 - Drive Control and Electric Drive Train. Electric and hybrid vehicles: design fundamentals. Electric & hybrid vehicles: design fundamentals Electric & Hybrid Vehicles. Fuel cell electric vehicles 5. Extended- range electric vehicles 6. Infrastructure issues 7. Conclusions Acknowledgements List of abbreviations References. On the Road Performance Simulation of Battery, Hydrogen, and Hybrid Cars 1. Simulation of efficient internal combustion vehicle 3. Simulation of fuel cell vehicle 4. Simulation of battery vehicle 5. Simulation of hybrid vehicles 6. Electric and Hybrid Vehicles: Design Fundamentals. Electric and Hybrid Vehicles: Design Fundamentals, Second Edition. Fundamentals, Theory, and Design Modern Electric, Hybrid Electric, and. Optimization of hybrid configuration 7. Conclusions References Appendix: Performance Measures. Life Cycle Assessment of Hydrogen Fuel Cell and Gasoline Vehicles 1. Results and discussion 6. Concluding remarks References. DOE’s National Fuel Cell Vehicle Learning Demonstration Project — NREL’s Data Analysis Results 1. Approach and industry partners 3. Demonstration logistics 4. Concluding remarks Acknowledgments Definitions, Acronyms, Abbreviations References. Battery Requirements for HEVs, PHEVs, and EVs: An Overview 1. General requirements 3. 1.3.2 The IC engine/electric hybrid vehicle. 8.7.2 Software in the use of electric vehicle design. Electric Vehicle Technology Explained < The, =. 7 pieces found for Electric and Hybrid Vehicles Design Fundamentals < < < PREV . Electric and Hybrid Vehicles: Design Fundamentals CRC. Specific requirements and examples 4. Fuel cell hybrid vehicles 5. Summary of the different Li ion chemistries existing at present, and to be used in HEVs, PHEVs, or EVs 6. The future References. Battery Environmental Analysis 1. Quantitative analyses: LCA 3. Impact of the different battery technologies 5. Electric vehicles traction batteries 6. Qualitative analysis References. A Roadmap to Understand Battery Performance in Electric and Hybrid Vehicle Operation 1. Field test data collection and analysis 3. Laboratory battery tests 4. Single cell and battery pack modeling 5. Vehicle drivetrain platform modeling 6. Concluding remarks Acknowledgement References. Batteries for PHEVs: Comparing Goals and the State of Technology 1. Basic PHEV design concepts 3. PHEV battery goals 4. Battery technologies 5. Li- ion battery prospects 6. What PHEV could be made with near- term battery technologies? Discussion and conclusion Acknowledgements References. Battery Size and Capacity Use in Hybrid and Plug- In Hybrid Electric Vehicles 1. Defining the maximum pulse- power capability 3. A simple model for battery size and capacity use 4. A combined model for battery size and capacity use 5. Conclusions Acknowledgements Terminology References. Safety of Lithium- Ion Batteries for Hybrid Electric Vehicles 1. Li- ion cell failures 4. Why do Li- ion cells go into thermal runaway? Typical safety circuits 6. HEV battery safety standards 7. System specific safety evaluation 8. Voltage introduced safety considerations 9. Summary Acknowledgments References. Management of Batteries for Electric Traction Vehicles 1. Application introduction 3. Battery management systems 4. Battery management system examples 5. Conclusion Acknowledgments Glossary References. Electric Vehicle Charging Infrastructure 1. Charging power levels 3. Charging modes for conductive charging 4. Communication issues 5. Accessories for charging 6. Inductive charging 8. Conclusions References. Market Prospects of Electric Passenger Vehicles 1. Technical aspects 3. Relevant stakeholders and outline of calculation model 4. Scenario calculations 5. Conclusions and future opportunities Nomenclature References. Automakers’ Powertrain Options for Hybrid and Electric Vehicles 1. Hybrid electric vehicles 3. Battery electric vehicles 4. Fuel cell hydrogen electric vehicles 5. Multi- purpose electrified traction platforms and architectures, and auto innovation design 6. Conclusions. Appendix 1. Selected references for topics not specifically treated in this book (to January 2. Further reading on recharging networks and market issues (to January 2.
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