Course level:Expert

Certification Course in Advanced ANSYS Engineering for Electric Vehicles

At a glance

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4,500.00

Course Curriculum

Welcome to the Course!

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Module 1: Heat Transfer Analysis
This module introduces the principles of heat transfer analysis, focusing on EV-specific applications. Students will learn to set up steady-state and transient heat transfer simulations, apply thermal boundary conditions, and analyze temperature distributions and heat flux in various EV components.

Module 2: Fluid Dynamics Analysis (CFD)
In this module, participants will explore the fundamentals of CFD simulations in ANSYS. Topics covered include defining fluid properties, meshing for fluid dynamics simulations, setting up boundary conditions for fluid flow, and post-processing key variables such as velocity and pressure.

Module 3: Nonlinear Analysis
This module delves into nonlinear static and transient analyses, covering topics such as nonlinear material behavior, contact analysis, and buckling. Participants will learn how to handle the complexities of non-linearities in EV simulations, ensuring accurate and reliable results for EV component designs.

Module 4: Optimization and Parametric Studies
This module focuses on optimization techniques using ANSYS. Students will explore parametric studies and design of experiments (DOE) to optimize EV components, including response surface optimization to enhance overall vehicle performance.

Module 5: Advanced Topics
This advanced module covers topics such as ANSYS APDL scripting, submodeling, fatigue analysis, and multiphysics simulations (e.g., fluid-structure interaction). High-performance computing (HPC) for large simulations is also introduced to help participants efficiently simulate complex EV systems.

Module 6: ANSYS Workbench Customization
This module teaches students how to customize the ANSYS Workbench interface using the ANSYS Customization Toolkit (ACT) and Python scripting. It also covers the creation and sharing of custom tools to enhance simulation workflows and efficiency.

Module 7: Troubleshooting and Best Practices
Participants will learn best practices for troubleshooting common errors, convergence issues, and model validation. The module covers methods for performance optimization and provides tips on documentation and reporting for high-quality simulation results.

Module 8: Case Studies and Projects
This module provides real-world case studies from various industries such as aerospace, automotive, and civil engineering. Participants are encouraged to tackle their own EV-related simulation projects, applying the skills and techniques learned throughout the course.

DIY Projects:

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DIY Projects Included

Project : Advanced Non Linear Transient Analysis of EV component system

Participants will complete a comprehensive project involving thermal and fluid dynamics analysis for an electric vehicle component, such as a battery cooling system. The project will encompass heat transfer analysis, fluid flow simulation, nonlinear structural analysis, and optimization, equipping learners with the practical skills needed for real-world EV design and simulation.

Course Benefits

For Professionals:

  • Upskilling in advanced simulation techniques for better job prospects
  • Ability to handle complex engineering problems with greater accuracy
  • Increased credibility in the electric vehicle and automotive industry
  • Opportunities to work on cutting-edge EV technologies
  • Potential for leadership roles in R&D departments

For Freshers:

  • Solid foundation in ANSYS simulation tools and methodologies
  • Competitive edge in securing entry-level jobs in EV design and simulation
  • Exposure to real-world engineering problems and solutions
  • Improved employability across multiple industries
  • Access to a broader range of job roles in CAE and CFD

Technical expertise you will gain

  • Conduct steady-state and transient heat transfer analyses for EV components.
  • Set up and analyze complex fluid dynamics simulations.
  • Perform nonlinear static and transient structural analyses.
  • Optimize EV designs using parametric and response surface studies.
  • Automate simulation tasks using ANSYS Customization Toolkit and Python scripting.
  • Troubleshoot and resolve convergence issues in complex models.
  • Execute multiphysics simulations for fluid-structure interaction problems.
  • Apply best practices in simulation for accurate and efficient results.
  • Analyze the thermal and mechanical performance of electric vehicles.
  • Contribute to industry-level projects and simulations.

Who can take this course?

This course is designed for individuals with prior experience in engineering simulations or those looking to advance their skills in ANSYS for electric vehicle applications. A basic understanding of FEA, CAD, and material properties is recommended.

  • Freshers
  • Professionals

Personalized Trainer Support Portal:

  • 24/7 Access to a personalized trainer support portal.
  • One-on-One Mentorship for queries and project guidance.
  • Access to diverse resources, including recorded lectures, reading materials, and practical guides.
  • Dedicated forums for content discussion, insights, and project collaboration.
  • Regular Feedback from trainers for comprehensive understanding and improvement.

At a glance

  • Launching Soon!! Stay Tuned!
4,500.00

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