The perfect first step towards learning fluid mechanics and Computational Fluid Dynamics.

This three days' course is designed for those who want to know "Behind Screen Process". While learning CFD, the engineer has many questions in mind. This training is intended to find answers to the questions like:

	How CFD software works ?
	Which equation CFD software solves ?
	What are the numerical techniques used to solve the equations?

This course is designed for students/working professionals who need an introduction or revisit to fluid mechanics, heat transfer and computational fluid dynamics concepts. This course is designed for general audience with no particular consideration to any CFD software. During the training sessions, either ANSYS FLUENT or ANSYS CFX will be used to demonstrate the CFD concepts that will be covered. This is the pre-cursor to your journey in the world of Computational Fluid Dynamics.

Who can attend this course ?

This course is designed for students/working professionals who have just started the study in Computational Fluid Dynamics. This course will be the prefect choice for those who want to revise the concepts of Fluid Mechanics and Heat Transfer and know the different numerical methods to solve governing equations in fluid and heat flow.

This course is suitable for:

	Engineering students undergoing CFD course
	Working professionals planning to use commercial CFD software

Course Objectives

The primary goal of this course is to introduce Computational Fluid Dynamics to engineering students and working professionals. During the graduate study, fluid mechanics and heat transfer subjects are taught in general fashion. During this course, we will revisit the same concepts with the intention of using numerical methods to solve the underlying governing equations. During the training, general governing equations will be discussed with valid assumptions one can make to reduce the problem complexity. In-depth discussions on Finite Difference Method and Finite Volume Method, its pros and cons, stability and convergence issues will be done which will make one comfortable during the CFD project execution.

Following will be the outcome of the course

• Thorough understanding of fluid mechanics and heat transfer concepts

• Thorough understanding of numerical method used in CFD

• Good understanding of fundamental concepts in CFD so that one can start working CFD problems

• Understanding of numerical methods to solve governing equations so that one can start writing codes (computer program) at academic level to solve simple governing equations

Course Deliverables

• All lectures in printed format

• Access to commercial software for practice

• Continuous guidance and support after the training session for CFD project execution

Course Content

• Introduction to CFD

• Physics of fluid flow and heat transfer

• Derivation of governing equations in differential and integral form

• Navier-Stokes equations - complexity and assumptions

• Concepts of boundary layer, drag, lift and flow separation

• Mathematical equations of CFD

• Finite difference discretization method

• Concepts of implicit, explicit schemes, stability and convergence

• Finite volume discretization method

• Pressure and density based solvers

• Overview of turbulence modeling

• Overview of grid generation - why, how and good quality grid

• Sample case study

• Discussion and certification

Register

• Registering for the scheduled course

See the Upcoming Courses schedule. If you are interested in attending this course during the scheduled session, follow the process for registering for upcoming courses.

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• Scheduling course for your organization

Note down the course code. Please fill-up the enquiry form. Copy the course code and put it in the subject field. Submit the enquiry form. Our training department will contact you for scheduling the course for your organization

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Download

• Course Brochure