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Electric vehicles are becoming increasingly important in the future of urban transport, particularly as a means of reducing atmospheric pollution. This book describes the operating principles and design of traction battery systems for electric vehicle propulsion, giving a comparison of the many candidate traction batteries available. Performance criteria for batteries in terms of energy and power density, efficiency and life cycle are presented. The text is broad ranging and covers information on the electric vehicles developed by major automobile manufacturers and the battery chemistries that are currently favoured. Future progress in the integration of electric vehicle design and battery technology is explored, together with the infrastructure considerations which must be addressed before fleets of electric vehicles can be successfully introduced into cities. This book will prove invaluable to industrial and university battery scientists and engineers, automotive engineers concerned with electric vehicles, financial sponsors of battery and electric programmes, government scientists and engineers concerned with energy and environmental planning and postgraduate students taking courses in energy, environment, transportation, electrochemistry and materials science.

Electric Vehicles --- Electric vehicles --- Véhicules électriques. --- Batteries. --- Batterie --- Véhicules électriques --- Batterie.

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"This hands-on textbook thoroughly explains the technologies and techniques involved in designing and operating electric vehicles. Written by a trio of experts and recognized educators, the book covers a broad range of technical topics and lays out the policy measures that have been used to regulate electric vehicles. Designed for one of the author's courses at Stanford University, Electric Vehicle Engineering discusses the basic physics upon which electric motors are designed, the chemistry of batteries, energy conversion, and the strategies used to build battery and motor controllers. You will explore well-to-wheel energy analysis and take a look toward the future of electric vehicle development. Presents a blueprint for electric automotive engineering courses ; Includes highly technical information as well as history and policy navigation ; Written by a team of highly credentialed authors." [Publisher]

Electric vehicles. --- Véhicules électriques. --- Véhicules électriques.

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La diffusion des véhicules électriques et hybrides rechargeables requiert le déploiement d’une infrastructure de recharge dense et pratique. Or, compte tenu des paramètres économiques actuels de rentabilité, ce déploiement ne peut se faire sans intervention très volontariste des autorités publiques apportant des financements et édictant des normes et des prescriptions. Cet ouvrage contribue à la discussion sur les politiques publiques qui permettraient de déployer rapidement les infrastructures de charge à un coût minimal pour la société. Il traite de questions très concrètes : comment dimensionner l’infrastructure ? Qui doit gérer les bornes : des entreprises privées, des opérateurs publics ? Faut-il faire payer à l’usager la recharge et si oui, à quel prix ? Quel rôle doit jouer la standardisation dans le déploiement de l’infrastructure ?

Environmental studies, Geography & Development --- Economics (General) --- véhicules électriques hybrides --- nouvelles technologies --- environnement

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"This book covers recent technological breakthroughs pertinent to the electrification of vehicles, aircraft, rolling stock, and watercraft. Unlike existing publications that either focus on one of the modes of transportation or focus on multiple modes with minimal emphasis on their potential synergies, the editors adopt a hybrid bottom-up, top-down approach. The book includes chapters that dive into the deepest details of recent breakthroughs and advances in each mode of transportation. It also maintains a holistic vision of how/whether those advances can be applicable to other modes. Later chapters look at all modes of transportation panoramically, comparatively determine their current status of development, identify distinctive and common barriers, challenges, gaps of technology and knowledge, opportunities, and possible solutions."

Electric vehicles. --- Electric airplanes. --- Electric boats. --- Véhicules électriques. --- Avions --- Bateaux --- Propulsion électrique. --- Propulsion électrique.

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Les impératifs écologiques imposent des changements de pratiques et la mobilité électrique remplit les critères de réduction des émissions de gaz à effet de serre. Ces véhicules doivent être rechargés et ce de manière intelligente afin de satisfaire aux exigences environnementales et aux préférences de chaque acteur, les gestionnaires des réseaux de distribution et de transmission, le conducteur du véhicule ou le gestionnaire de flotte. Ce travail analyse de manière globale les composantes d’une recharge de véhicule et aborde une technique de contrôle des recharges : la commande prédictive.

Commande prédictive, véhicules électriques, station de recharge, Matlab-Simulink --- Ingénierie, informatique & technologie > Energie