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Introduction to hybrid and electric vehicles assignment help

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  2. Introduction To Hybrid And Electric Vehicles
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.