• Two weeks workshop on Computational
    Fluid Dynamics using ANSYS Fluent

    A bootcamp for engineering students on the application
    of ANSYS Fluent in solving various engineering
    problems related to computational fluid dynamics


A bootcamp for engineering students on application of ANSYS Fluent in solving various engineering problems related to computational fluid dynamics. This course teaches the essential skills you will need to start performing basic computational fluid dynamics (CFD) simulations on your own to some of the advanced real world fluid dynamic engineering problems using Ansys Fluent software. Instructor demos and hands-on workshops cover every aspect of the end-to-end CFD workflow, including how to perform the entire meshing and solution process in the single-window Ansys Fluent user interface using the task-based, guided workflow for meshing imported, watertight CAD geometry, applying various turbulence models, solver settings, external aerodynamics application, conjugate heat transfer (CHT), user defined function(udf) etc.



Frequently asked Questions

Two weeks workshop on Computational Fluid Dynamics using ANSYS Fluent

A bootcamp for engineering students on the application of ANSYS Fluent in solving various engineering problems related to computational fluid dynamics

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Why should you attend the course?

CFD market has been growing with an annual growth of approximately 8%. There is a huge demand for engineers with CFD knowledge because of the drastic reduction in solution time that CFD engineers can contribute to.

Who should attend this course?

If you are an enthusiastic engineer looking forward to develop your career in the domain of CFD, or if you are in industrial expert looking forward to change your domain or increase your skills, this is a suitable course for you.

What are the pre-requisites of the course?

Although no pre-requisite is required, It is highly recommended that the attendee has a strong fundamental of engineering subjects such as Fluid Mechanics, Heat and Mass Transfer, Thermodynamics, Engineering Mathematics. Logical reasoning and aptitude is also highly recommended. No prior knowledge of software or tools is required, however basic understanding of computer is expected.

What is the duration of this course?

The course is catered to cover the basics of CFD with a two week (10 day) session, with each day having a session time of two hours.

What are the advantage of the course?

The course will take you through the basics of CFD analysis using Ansys Fluent. After this course, you will be capable of solving a basic engineering level problem in fluent. You will also be capable to pursue your interest further into deeper understanding and use of CFD using Ansys Fluent.

What is the job prospects of CFD engineers in India?

CFD has a wide variety of industrial application ranging from Automotive, Aerospace, Manufacturing, Process Industry, Space Exploration, Civil Mechanical Construction, Electronics and Micro electronics etc. There are many top companies which hire CFD engineers in India like Dodge, Daimler, Boeing, Cummins, Faurecia, Mahindra, Capgemini, TCS, Infosys etc.

Who is eligible for attending the course?

Any engineering graduates or post graduates who has interest in thermal systems and fluid mechanics can attend this course. Prior knowledge of CFD is not required.

Course Overview

Key Highlights

  • Designed for Beginners to
    Intermediate learners

  • 40 hrs of ANSYS
    Fluent Training.

  • Theory Session as well as Hands-on
    Session will be covered

  • Hands-on Projects with
    real-world applications

  • Assignments and personalized feedback
    to facilitate improvement

  • Best-in-Class content developed
    by CFD industry experts.

  • Certificate from Amrita TBI,
    Amrita Vishwa Vidyapeetham

  • Ansys Fluent Poly

  • Learn about different
    turbulent models

  • Ansys Fluent Multiphase
    Flow Modelling

  • External Aerodynamics
    using Ansys Fluent

  • Ansys Fluent Using User-Defined
    Functions (UDFs)

  • Ansys Fluent Heat Transfer Modelling
    Transfer Modelling


Two weeks workshop on Computational Fluid Dynamics using ANSYS Fluent

Course Fee: ₹2500/-

Date: May 10th - 24th 2023
Time: 6:00pm - 9:00pm

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  • Use the Watertight Geometry Meshing Workflow in Ansys Fluent to create high quality CFD Simulation meshes from imported CAD geometry through a succession of intuitive guided workflow tasks.
  • Independently set up and complete a basic CFD simulation in Ansys Fluent including defining the problem, calculating the solution and post-processing the results.
  • Perform all steps of a CFD simulation from CAD import to meshing to solution to results within the same single window Ansys Fluent environment.
  • Set up and execute CFD simulations in a manner that limits errors associated with numerical CFD simulations.
  • Employ parameters in Ansys Fluent and Ansys SpaceClaim to automate the investigation of multiple design alternatives and generate data for optimization studies.
  • Set up and execute transient CFD simulations.
  • Perform increasingly sophisticated simulations involving heat transfer and turbulent flow.
  • Create a volume mesh from an imported surface mesh.
  • Create a volume mesh from imported CAD geometry.
  • Improve mesh quality with Auto Node Move.
  • Optimize settings for transferring geometry from SpaceClaim.
  • Convert hexahedral mesh to unstructured polyhedral mesh.
  • Master of sizing functions.
  • Wrap single parts.
  • Wrap dirty, complex assemblies.
  • Select the most appropriate turbulence model, depending on your particular application and the required simulation accuracy.
  • Describe basic concepts of multiphase flow theory such as phase definition and flow classification.
  • Set up and solve problems using any of the multiphase flow models available in Ansys CFD software.
  • Select the correct multiphase model for your Ansys CFD application.
  • Learn the basics of Fluent Meshing for watertight workflow method.
  • Know how to create relevant bodies of influence (BOIs) to control mesh resolution.
  • Learn mesh requirements and methodology for predicting turbulence transition.
  • Learn methodology for including propeller effects in external aero simulations.
  • Experience end-to-end workshops focused on high-fidelity results with comparison to experimental data.
  • Perform heat transfer simulations with Ansys Fluent involving any of the three modes of heat transfer: conduction, convection and radiation.
  • Select the appropriate thin wall conduction settings for a given problem.
  • Set up and perform conjugate heat transfer (CHT) simulations in which heat transfer is coupled between solid and fluid zones.
  • Define buoyancy settings for problems involving natural convection.
  • Select an appropriate radiation model for a given problem.
  • Learn the basic structure of UDFs.
  • Understand the different kinds of macros used to access solver variables.
  • Be able to hook their UDF to most models that are available in Ansys Fluent.
  • Be able to write UDFs for custom boundary conditions, source terms and material properties.
  • Learn how to use UDFs to define input and output parameters and report definitions.
  • Learn what is required to write UDFs to execute correctly in parallel.
  • Learn necessary concepts and macros for applying UDFs in multiphase flow, including UDFs for the Discrete Phase Model (DPM).
  • To provide the right foundation for GUI-based CFD, the ANSYS CFD course begins with an introduction to CFD and its applications. You will learn about the basic governing equations solved and the different schemes and algorithms used to stabilize and improve the solution's accuracy.
  • The next module deals with the application of ANSYS Fluent for the simulation of basic compressible and incompressible flows. It introduces you to the complete streamlined workflow process on the Workbench tool from geometry creation to the post-processing stage.
  • Learn to set up Steady-State Simulations and create Runtime Animation of Engineering Parameters in the following module. Meshing techniques for improving solution accuracy, setting up Virtual Wind Tunnels using the Enclosure Utility, understanding Vortices, and calculating Downforce and Drag on a vehicle are also part of this course.
  • Customize programs and create different monitor points to get the relevant information needed to form a simulation. Combustion applications and simulation of reacting flows are included in the final module.
  • Undergraduate Students from Mechanical / Automobile / Production Engineering.
  • ME / M Tech Heat Power / Thermal Engineering Students.
  • Mechanical Engineers, including Automotive Engineers, Materials Engineers, Aerospace Engineers, Industrial Engineers, Structural Engineers, and many other sub-disciplines.
  • Design Engineers / Working Professionals.
  • The complete workshop will be scheduled as online workshop with 2 hrs/day session span for one to two weeks between 6:30 PM to 8:30 PM IST. The course will be an hands on session demonstrating how to work on the software. You can either work along with the course or has the freedom to design and develop an advanced system of your own choice. The objective is to have the students experience how to work on a software and apply the knowledge you have learned, confidently, in developing an analysis system from the scratch and make a conclusive remark.


High configuration Desktop / Laptop with ANSYS Fluent Software License preinstalled.

Good bandwidth internet connection.

Amrita TBI will provide you Training Input files and exercises Soft Copies in advance which needs to be stored in your Desktop / Laptop.

Students should have a basic fundamental knowledge of subjects like Thermodynamics, Heat & Mass Transfer, Fluid Dynamics, and Turbo Machinery.

Students are requested to make their own important notes for their future reference.