Course level:Expert

Certification Course in Advanced ANSYS for EV Engineering

The Certification Course in Advanced ANSYS for EV Engineering is designed to help you master essential simulation techniques for electric vehicle applications.

Learners will explore comprehensive heat transfer analyses—including conduction, convection, and radiation—and apply these skills to battery thermal management. Additionally, the course covers modal analysis and CFD to analyze vibrations, fluid flow, and cooling systems.

Through practical case studies such as structural analysis, battery vibration and drop tests, and EV motor thermal simulations, the participants will develop the expertise to solve complex engineering challenges. By the end of the course, you will have deepened your knowledge in EV simulation and design.

⚠️ Recommended Prerequisite
To get the most out of this advanced course, we recommend first completing our foundational course: “Certification Course in ANSYS: From Fundamentals to Structural Analysis.”That course covers key concepts like FEA/FEM theory, geometry cleanup, meshing, material selection, boundary conditions, and basic structural analysis—all of which provide a solid base for the topics covered here.

At a glance

  • 4 Modules.
  • 39 Lectures.
  • 14.24 hours of Video Content.
  • 1 Project Assignment.
  • Certification of Completion.
$7,000.00
  • Level
    Expert
  • Duration
    14 hours 14 minutes
  • Enrollment validity
    Enrollment validity: Lifetime
  • Certificate
    Certificate of completion

Course Curriculum

Welcome to the Course!

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Module 1: Heat Transfer Analysis in ANSYS
This module focuses on Heat Transfer Analysis using ANSYS, covering key concepts and simulation techniques. Students will explore the basics of conduction, convection, and radiation, and apply these principles through various heat transfer simulations in ANSYS. The module includes steady-state and transient heat transfer analysis with ANSYS. Additionally, students will gain hands-on experience with battery thermal simulations and learn how to interpret and validate results through post-processing.

Module 2: Modal Analysis in ANSYS
This module introduces the fundamentals of Modal Analysis in ANSYS, guiding students through the process from start to finish. It covers setting up a model, including geometry creation, defining material properties, and meshing the geometry for modal analysis. Students will also learn how to apply boundary conditions and solve for natural frequencies and mode shapes. The module wraps up with post-processing, interpreting results, and a case study on the modal analysis of a mounting plate, providing practical insights into real-world applications.

Module 3: Computational Fluid Dynamics in ANSYS
This module covers the fundamentals of Computational Fluid Dynamics (CFD) in ANSYS, starting with an overview of its definition, importance, and real-world applications. Students will be introduced to the basics of fluid dynamics and learn about key fluid properties such as density, pressure, viscosity, and surface tension. The module then explores fluid flow classifications and walks through the entire CFD workflow. Finally, students gain hands-on experience in performing CFD analysis using ANSYS Fluent, with step-by-step guidance in two parts of the analysis process.

Module 4: ANSYS Case Studies

DIY Projects:

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Associated Skills

ANSYS Simulation CAD/CAE CFD Simulations in ANSYS Heat Transfer Analysis Implicit and Explicit Analysis Isotropic and Orthotropic Materials Steady-State and Transient Thermal Analysis Structural Analysis in ANSYS Thermal Boundary Conditions

DIY Projects Included

Course Benefits

Technical expertise you will gain

Who can take this course?

Personalized Trainer Support Portal:

At a glance

  • 4 Modules.
  • 39 Lectures.
  • 14.24 hours of Video Content.
  • 1 Project Assignment.
  • Certification of Completion.
$7,000.00
  • Level
    Expert
  • Duration
    14 hours 14 minutes
  • Enrollment validity
    Enrollment validity: Lifetime
  • Certificate
    Certificate of completion

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