The objectives of energy efficiency and zero emissions in road transportation imply a paradigm shift in the concept of the automobile regarding design, materials, and propulsion technology. A redesign of the electric and electronic architecture provides in many aspects additional potential for reaching these goals. At the same time, standardization within a broad range of features, components and systems is a key enabling factor for a successful market entry of the electric vehicle (EV). It would lower production cost, increase interoperability and compatibilities, and sustain market penetration. ISIEINDIA |

Design & Optimization of Electric Vehicle - VIT

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  • Design optimization of electric vehicle vit

Description

Faced with environmental issues caused by fossil fuel burning in the industrial and transportation sectors, innovations towards cleaner solutions to replace the ever diminishing fossil fuels have been the focus of not only researchers but governments all around the world.

Program Overview:

The objectives of energy efficiency and zero emissions in road transportation imply a paradigm shift in the concept of the automobile regarding design, materials, and propulsion technology. A redesign of the electric and electronic architecture provides in many aspects additional potential for reaching these goals. At the same time, standardization within a broad range of features, components and systems is a key enabling factor for a successful market entry of the electric vehicle (EV). It would lower production cost, increase interoperability and compatibilities, and sustain market penetration.

Under this course you are going to learn about the Electric Vehicle Architecture & Drive Train, Mathematical Modelling Using Ricardo-Ignite, Performance &  Optimization.

Program outcomes
  • You will be having practical knowledge of Architecture of EV & Drive Train.You will be having practical knowledge of Architecture of EV & Drive Train.

  • Skills and knowledge to perform Mathematical Modelling Using Ricardo-Ignite.


Requirements
  • Mobile/Laptop/Tablet with good internet connectivity

Syllabus

  • 3 Lessons
  • 01:47:00 Hours
  • Complete Vehicle System Modelling & Drive Cycle Simulation- Using Ricardo Ignite00:50:00
  • Mathematical Modelling of Drive train00:29:00
  • Modelling of Drivetrain – Block setup Diagram (Ricardo-Ignite)00:28:00

Program outcomes

  • You will be having practical knowledge of Architecture of EV & Drive Train.You will be having practical knowledge of Architecture of EV & Drive Train.
  • Skills and knowledge to perform Mathematical Modelling Using Ricardo-Ignite.

About instructor

Instructor
Name : ISIEINDIA E-LEARNING
Reviews : 226 Reviews
Student : 4091 Students
Courses : 106 Courses

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