1MG11 SYSTEMES DE PROPULSION HYBRIES ET ELECTRIQUES

Organization

• AVIS Lieux et horaires des cours
  • en visio conférence LIFESIZE
• CALENDRIER:
  • Calendrier des séances 2021-2022

Examen

• AGENDA AND ROOMS FOR EXAMS (january 2019): Horaires, locaux et modalité des examens
• QUESTIONS: Liste des questions de théorie pour l'examen oral de janvier 2021 (Nouvelle version du 21/12/2021)

Lecture Notes

1. INTRODUCTION & ORGANIZATION
2. ENVIRONMENTAL CHALLENGES
3. MOTOR SELECTION: A broad comparison of powertrains
4. CONVENTIONAL, EV AND HEV ARCHITECTURE: Powertrain architecture and transmission technologies.
5. MOTOR CHARACTERISTICS: Internal combustion engines and electric traction motors. Technologies. Characteristic curves of internal combustion engines and electric traction motors.
6. PERFORMANCE 1: Longitudinal equilibrium. Tractive force and power. Road loads.
7. PERFORMANCE 2: Performance criteria.
8. PERFORMANCE 3: Energy Consumptions and emissions.
9. PERFORMANCE AND DESIGN OF EV: Performance and sizing of electric vehicles.
10. ENERGY AND POWER STORAGE SYSTEMS : batteries, supercaps, flywheels.
11. HYBRID ELECTRIC VEHICLES: An introduction to hybrid concepts, definition, categories, working principles and major components. Case studies.
12. FUEL CELL POWERED VEHICLES - Part I: Introduction to fuel cell technologies. Characteristics. Hydrogen storages.
13. FUEL CELL POWERED VEHICLES - Part II: Fuel cell powered vehicles. Design. Case studies.
    

Vision Conference Records

• INTRODUCTION & ORGANIZATION
• ENVIRONMENTAL CHALLENGES
• MOTOR SELECTION: A broad comparison of powertrains
• CONVENTIONAL, EV AND HEV ARCHITECTURE: Powertrain architecture and transmission technologies.
• MOTOR CHARACTERISTICS:
  
  • Internal combustion engines
  • Electric traction motors.
• PERFORMANCE 1: Longitudinal equilibrium. Tractive force and power. Road loads.
  • Tractive forces
  • Road Loads
  • Podcast exercices
• PERFORMANCE 2: Performance criteria
  • Max speed and max slope
  • Acceleration
  • Podcast exercices
• PERFORMANCE 3: Energy Consumptions and emissions
  • BSFC et rendement des moteurs
  • Consommation du véhicule et cycles de conduite normalisés
• PERFORMANCE AND DESIGN OF EV: 
  
  • Performance of BEV
  • Sizing of electric vehicles
• ENERGY AND POWER STORAGE SYSTEMS :
  
  • Characteristics of energy and power storage systems
  • Batteries types,
  • Supercaps, flywheel, and hybridization of energy storage systems
• HYBRID ELECTRIC VEHICLES:
  
  • An introduction to hybrid concepts, definition, categories,
  • Architectures of HEV
  • Working principles and major components. Case studies
• FUEL CELL POWERED VEHICLES - Part I:
  
  • Introduction to fuel cell technologies.
  • Conversion efficiency. Fuel Cell types.
  • Hydrogen as a fuel.
• FUEL CELL POWERED VEHICLES - Part II: Fuel cell powered vehicles. Design. Case studies

Syllabus

• SYLLABUS Performance et Comportement Dynamique des Véhicules (2020-2021)

Répétitions

• REPET 1: Approximation des courbes moteurs
• REPET 2: Calcul de force résistance à l'vancement et des forces de traction aux roues
  • PODCAST de la séance d'exercices 1
  • LIFESIZE de la séance d'exercices 1
• REPET 3: Vitesse maximum et Accélération
  • PODCAST de la séance d'exercices 2
  • LIFESIZE de la séance d'exercices 2
• REPET 4: CONSOMMATION D'ENERGIE
• REPET 5: DIMENSIONNEMENT DES VEHICULES ELECTRIQUES
  
  

Projet

• Enoncé du travail 2021-2022 (mise à jour 8/11/2021): Calcul des performances et estimation de la consommation
• Description du NEDC (voir pages 37 à 41)
• Défense lors de l'examen oral

Lab

• Banc à rouleaux

Additional Material

• Aide Matlab : Document de présentation et d'initiation à MATLAB
• Rédactions de rapports : Aide à la rédaction de rapports