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The exhaustive list of topics in Introduction To Hybrid And Electric Vehicles in which we provide Help with Homework Assignment and Help with Project is as follows:

  • Air pollution and global warming.
  • Impact of different transportation technologies on environment and energy supply
  • History of hybrid electric, electric and fuel cell vehicles.
  • Vehicle motion and the dynamic equations for the vehicle.
  • Vehicle power plant and transmission characteristics and vehicle performance including braking performance.
  • Fuel economy characteristics of internal combustion engine.
  • Basic architecture of hybrid drive train and analysis series drive train.
  • Analysis of parallel
  • Series parallel and complex drive trains and power flow in each case.
  • Drive cycle implications and fuel efficiency estimations.
  • Sizing of components for different hybrid drive train topologies.
  • Basic concept of electric traction and architecture.
  • Topologies for electric drive-train and their analysis.
  • Drive cycle implications and fuel efficiency estimations and well to wheel fuel efficiency analysis.
  • Sizing of components for different electric drive train topologies.
  • Electric drives used in HEV/EVs and their classifications and general characteristics.
  • DC Motor drives and their principle of operation and performance including multi-quadrant control.
  • Induction motors, their configurations and optimization for HEV/EVs
  • Induction motor drives, their control and applications in EV/HEVs.
  • Permanent magnet motors, their configurations and optimization.
  • Permanent magnet motor drives, their control and applications in EV/HEVs.
  • Switch reluctance motors, their configurations and optimization.
  • Switch reluctance motor drives, their control and applications in EV/HEVs.
  • Losses in traction motors, inverters and efficiency maps.
  • Energy storage, battery based energy storage and simplified models of battery.
  • Fuel cells, their characteristics and simplified models.
  • Super capacitor based energy storage, its analysis and simplified models.
  • Flywheels and their modeling for energy storage in HEV/BEV.
  • Hybridization of various energy storage devices, its advantages and challenges.
  • Matching the electric drive and ICE, Transmission selection and gear step selection.
  • Sizing the propulsion motor, its torque, constant power speed ratio and machine dimensions.
  • Sizing the power electronics based on Switch Technology, Switching Frequency and Ripple capacitor design.
  • Selecting the energy storage technology.
  • Electrical overlay harness and communications.
  • Supporting system including steering and braking system.
  • Energy management strategies and its general architecture.
  • Rule and optimization based energy management strategies (EMS).
  • EMS based on deterministic rules.
  • EMS based on Fuzzy rule base.
  • EMS based on Global Optimization.
  • EMS based on Real Time Optimization.