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Thermal Management of Electric Vehicle Battery Systems.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Somerset :
John Wiley & Sons, Incorporated,
2015.
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| Colección: | Automotive Ser.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright; Contents; Preface; Acknowledgements; Chapter 1 Introductory Aspects of Electric Vehicles; 1.1 Introduction; 1.2 Technology Development and Commercialization; 1.3 Vehicle Configurations; 1.3.1 Internal Combustion Engine Vehicles (ICEV); 1.3.2 All Electric Vehicles (AEVs); 1.3.3 Hybrid Electric Vehicles (HEVs); 1.3.4 Fuel Cell Vehicles (FCVs); 1.4 Hybridization Rate; 1.4.1 Micro HEVs; 1.4.2 Mild HEVs; 1.4.3 Full or Power-Assist HEVs; 1.4.4 Plug-In HEVs (or Range-Extended Hybrids); 1.5 Vehicle Architecture; 1.5.1 Series HEVs; 1.5.2 Parallel HEVs.
- 1.5.3 Parallel/Series HEVs1.5.4 Complex HEVs; 1.6 Energy Storage System; 1.6.1 Batteries; 1.6.2 Ultracapacitors (UCs); 1.6.3 Flywheels; 1.6.4 Fuel Cells; 1.7 Grid Connection; 1.7.1 Charger Power Levels and Infrastructure; 1.7.2 Conductive Charging; 1.7.3 Inductive Charging; 1.7.4 Smart Grid and V2G/V2H/V2X Systems; 1.8 Sustainability, Environmental Impact and Cost Aspects; 1.9 Vehicle Thermal Management; 1.9.1 Radiator Circuit; 1.9.2 Power Electronics Circuit; 1.9.3 Drive Unit Circuit; 1.9.4 A/C Circuit; 1.10 Vehicle Drive Patterns and Cycles; 1.11 Case Study; 1.11.1 Introduction.
- 1.11.2 Research Programs1.11.3 Government Incentives; 1.12 Concluding Remarks; Nomenclature; Study Questions/Problems; References; Chapter 2 Electric Vehicle Battery Technologies; 2.1 Introduction; 2.2 Current Battery Technologies; 2.2.1 Lead Acid Batteries; 2.2.2 Nickel Cadmium Batteries; 2.2.3 Nickel Metal Hydride Batteries; 2.2.4 Lithium-Ion Batteries; 2.3 Battery Technologies under Development; 2.3.1 Zinc-Air Batteries; 2.3.2 Sodium-Air Batteries; 2.3.3 Lithium-Sulfur Batteries; 2.3.4 Aluminum-Air Batteries; 2.3.5 Lithium-Air Batteries; 2.4 Battery Characteristics; 2.4.1 Battery Cost.
- 2.4.2 Battery Environmental Impact2.4.3 Battery Material Resources; 2.4.4 Impact of Various Loads and Environmental Conditions; 2.5 Battery Management Systems; 2.5.1 Data Acquisition; 2.5.2 Battery States Estimation; 2.5.3 Charge Equalization; 2.5.4 Safety Management/Fault Diagnosis; 2.5.5 Thermal Management; 2.6 Battery Manufacturing and Testing Processes; 2.6.1 Manufacturing Processes; 2.6.2 Testing Processes; 2.7 Concluding Remarks; Nomenclature; Study Questions/Problems; References; Chapter 3 Phase Change Materials for Passive TMSs; 3.1 Introduction; 3.2 Basic Properties and Types of PCMs.
- 3.2.1 Organic PCMs3.2.2 Inorganic PCMs; 3.2.3 Eutectics; 3.3 Measurement of Thermal Properties of PCMs; 3.4 Heat Transfer Enhancements; 3.5 Cost and Environmental Impact of Phase Change Materials; 3.6 Applications of PCMs; 3.7 Case Study I: Heat Exchanger Design and Optimization Model for EV Batteries using PCMs; 3.7.1 System Description and Parameters; 3.7.2 Design and Optimization of the Latent Heat Thermal Energy Storage System; 3.8 Case Study 2: Melting and Solidification of Paraffin in a Spherical Shell from Forced External Convection.