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Electric Vehicle Technology Explained by James Larminie and John Lowry (2003, Hardcover)
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About this product
Product Identifiers
PublisherWiley & Sons, Incorporated, John
ISBN-100470851635
ISBN-139780470851630
eBay Product ID (ePID)6016303
Product Key Features
Number of Pages314 Pages
Publication NameElectric Vehicle Technology Explained
LanguageEnglish
SubjectGeneral, Power Resources / General
Publication Year2003
TypeTextbook
Subject AreaTransportation, Technology & Engineering
AuthorJames Larminie, John Lowry
FormatHardcover
Dimensions
Item Height0.9 in
Item Weight21 Oz
Item Length9.4 in
Item Width6.5 in
Additional Product Features
Intended AudienceScholarly & Professional
LCCN2003-062752
Dewey Edition22
IllustratedYes
Dewey Decimal629.22/93
Table Of ContentAcknowledgments.Abbreviations.Symbols.1. Introduction.A brief history.Developments towards the end of the 20th century.Types of Electric Vehicle in use Today.Electric Vehicles for the Future.2. Batteries.Introduction.Battery Parameters.Lead Acid Batteries.Nickel-Based Batteries.Sodium Based Batteries.Lithium Batteries.Metal Air Batteries.Battery Charging .The Designer's Choice of Battery.Use of Batteries in Hybrid Vehicles.Battery Modeling.In Conclusion3. Alternative and Novel Energy Sources and Stores.Introduction.Solar Photovoltaics.Wind Power.Flywheels.Super Capacitors.Supply Rails.4. Fuel Cells.Fuel Cells, a Real Option?Hydrogen Fuel Cells - Basic Principles.Fuel Cell Thermodynamics - An Introd.uction.Connecting Cells in Series - the Bipolar Plate.Water Management in the PEM Fuel Cell.Thermal Management of the PEM Fuel Cell.A Complete Fuel Cell System.5. Hydrogen Supply.Introduction.Fuel Reforming.Hydrogen Storage I: Storage as Hydrogen.Hydrogen Storage II: Chemical Methods.6. Electric Machines and their Controllers.The 'Brushed' DC Electric Motor.DC Regulation and Voltage Conversion.Brushless Electric Motors.Motor Cooling, Efficiency, Size and Mass.Electrical Machines for Hybrid Vehicles.7. Electric Vehicle Modeling.Introduction.Tractive Effort.Modeling Vehicle Acceleration.Modeling Electric Vehicle Range.Simulations - a Summary.8. Design Considerations.Introduction.Aerodynamic Considerations.Consideration of rolling resistance.Transmission efficiency.Consideration of vehicle mass.Electric Vehicle Chassis and Body Design.General Issues in Design.9. Design of Ancillary Systems.Introduction.Heating and Cooling Systems.Design of the Controls.Power Steering.Choice of Tyres.Wing Mirrors, Aerials and Luggage Racks.Electric Vehicles Recharging and Refuelling Systems.10. Electric Vehicles and the Environment.Introduction.Vehicle Pollution: the Effect.Vehicle Pollution: A Quantitative Analysis.Vehicle Pollution in Context.Alternative and Sustainable Energy via the Grid.Using Sustainable Energy with Fueled Vehicles.The Role of Regulations and Law Makers.11. Case Studies.Introduction.Recharging Battery Vehicles.Hybrid Vehicles.Fuel Cell Powered Bus.Conclusion.Appendix: MATLAB®Examples.Index.
SynopsisProvides an essential guide to the history, principles, design and application of electric vehicle technology. Outlines methods for performance and range modelling, detailing the design of appropriate computer prediction models. Analyses the environmental benefits of electric vehicles and their component devices., While the classic battery electric car continues to make only a small impact on the automobile market, other types of electric vehicle, especially hybrids, have made significant and promising improvements. Moreover, small battery electric vehicles such as bicycles and mobility aids are also developing well. Presenting more than 160 diagrams and pictures, this book explains the science and technology behind these important developments, and also introduces the issues that underpin the design and performance modelling of electric vehicles. Electric Vehicle Technology Explained : Encompasses a full range of electric vehicles: bicycles, mobility aids, delivery vehicles and buses - not just cars. Covers all the basic technology relating to electric road vehicles - batteries, super capacitors, flywheels, fuel cells, electric motors and their controllers, and system design. Considers the environmental benefits and disadvantages of electric vehicles and their component devices. Includes case studies of a range of batteries, hybrids and fuel cell powered vehicles, from bicycles to buses. Offers many MATLAB® examples explaining the design of appropriate computer prediction models. Professionals, researchers and engineers in the electric vehicle industry as well as advanced students in electrical and mechanical engineering will benefit from this comprehensive coverage of electric vehicle technology., Virtually all of the large automotive manufacturers have electric vehicle research and development programmes, including General Motors, Daimler-Chrysler and Toyota. This text examines electric vehicles, a topic of great interest within both the automotive and electrical engineering communities., While the classic battery electric car continues to make only a small impact on the automobile market, other types of electric vehicle, especially hybrids, have made significant and promising improvements. Moreover, small battery electric vehicles such as bicycles and mobility aids are also developing well. Presenting more than 160 diagrams and pictures, this book explains the science and technology behind these important developments, and also introduces the issues that underpin the design and performance modelling of electric vehicles. Electric Vehicle Technology Explained: Encompasses a full range of electric vehicles: bicycles, mobility aids, delivery vehicles and buses - not just cars. Covers all the basic technology relating to electric road vehicles - batteries, super capacitors, flywheels, fuel cells, electric motors and their controllers, and system design. Considers the environmental benefits and disadvantages of electric vehicles and their component devices. Includes case studies of a range of batteries, hybrids and fuel cell power ed vehicles, from bicycles to buses. Offers many MATLAB® examples explaining the design of appropriate computer prediction models. Professionals, researchers and engineers in the electric vehicle industry as well as advanced students in electrical and mechanical engineering will benefit from this comprehensive coverage of electric vehicle technology.
LC Classification NumberTL220
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