Computational Fluid Dynamics , Finite Element Analysis , Programming and Numeric computing ,

Designing Electric Vehicles using Computer-Aided Engineering (CAE)

The course covers the fundamentals of electric vehicle design using CAE tools. The course is designed for engineering students, researchers, and professionals who want to enhance their skills in EV design and simulation. You will learn about the key components of an EV, including electric motors, batteries, inverters, and cooling systems. You will also learn how to use CAE software to simulate and optimize different aspects of the EV design, such as structural analysis, thermal management, and electromagnetic compatibility.

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Shirsh Technosolutions .

Course Highlights

The shift towards sustainable transportation has led to a growing demand for electric vehicles (EVs). Designing an efficient and reliable EV requires a comprehensive understanding of various components and systems, as well as their interactions. Computer-aided engineering (CAE) tools play a crucial role in EV design, simulation, and analysis, enabling engineers to optimize the vehicle’s performance, safety, and sustainability.

  • A comprehensive introduction to Computer-Aided Engineering (CAE) tools and their application in vehicle design.
  • Detailed understanding of the design principles of both conventional vehicles and electric vehicles.
  • Hands-on approach with numerous practical exercises and real-world examples.
  • Includes case studies that provide insights into the application of CAE in real-world projects.
  • Exploration of future trends in vehicle and EV design, including the role of AI, IoT, and autonomous driving.
  • A final project that allows learners to apply what they have learned and design a component or an entire vehicle using CAE tools.
  • Interactive learning with quizzes, assignments, and discussion forums.

Course Objective

The objective of this course is to provide learners with a solid foundation in vehicle design using CAE, with a special focus on electric vehicles. By the end of the course, learners should be able to:

  • Understand the basic principles of vehicle design and dynamics.
  • Use CAE tools effectively for designing and testing vehicle components.
  • Understand the unique considerations for designing electric vehicles.
  • Perform simulations to validate and optimize their designs.
  • Stay updated with the latest trends in vehicle and EV design.
  • Apply the learned principles and tools in real-world scenarios through a final project.

Course Content

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About Instructor

Shirsh Technosolutions .

Shirsh's team is a collective of amazing people with domain expertise striving to help you build delightful products. We mold your product concept into practical reality through our comprehensive computer-aided engineering solutions which will lead to securing initial product quality, a decrease in product development time, and reduced costs. With the increase in the number of simulations, the need for producing physical prototypes will significantly decrease.

7 Courses

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Course Includes

  • 9 Modules
  • 35 Topics

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