Introduction to Ansys FLUENT (CFD)

Develops basic skills on Flow and Thermal simulations. Using FLUENT and ANSYS Workbench. Classroom based training with practical coverage on Fluid Dynamics and Thermal Engineering

0 STUDENTS ENROLLED

Classic Level Program

Offline Training (Classroom course)

Classes on Weekdays

Course code: CR-FL01

Techzilon Advantages

Experienced Instructors

Industry Recognised Certification

Project based Training

Regular assignments & assessments

Domain Based (auto, aero) curriculum

Cloud-based online learning materials

All our courses are designed by a team of highly experienced professionals from the Industry

About this course

This course will provide the skills on Industry-oriented meshing and analysis, needed to become a successful CFD Analysis Engineer.

This course has two modules:

FL1 – Geometry preparation & CFD Meshing Techniques using ANSYS Workbench

FL2 – Flow and Thermal Simulations using FLUENT

This course covers:

Module FL1

ANSYS workbench and Design Modeler

ANSYS Mesher

Fluid mechanics theory

Heat and mass-transfer theory

Module FL2

External Flow simulations

Porous media simulations

Thermal Analysis

Course Features

Classroom sessions	: 15 Hours
Practical sessions	: 50 Hours
Online tests	: Topic-wise
Industry Oriented Project	: 15 Hours
Special sessions for Interview Preparation

About SOFTWARES

Ansys FLUENT & Acusolve are industry leading CFD software used to simulate a variety of analyses like Flow analysis, Thermal Analysis etc.

These softwares are used thoughout the industry by leading companies like General Electric, Embraer, HCL, Infotech, Rockwell Automation, Invensys, Mercedes Benz, Petrobras, General Motors, Caterpillar, Tata Motors, Honda, Boeing, Goodrich Aerospace, Airbus, Mahindra, Nissan etc.

Course Benefits

CFD Analysis is used to validate the design in the domains like automotive, aerospace, marine, heavy engineering, oil & gas, energy, machine-tools etc. and enhance product performance.

On successful completion of this course, you will be able to Build CFD models as per industry requirements, Perform various analysis & Develop Job skills.

You will also learn the following:

Module FL1

ANSYS workbench and Design Modeler

Process-tree, toolbars etc.

Sketcher

Conversion of 2D to 3D models

Cleanup operations

ANSYS Mesher.

Mesh controls

Mesh statistics

Mesh quality parameters

Meshing strategies

Theory

Basic Fluid mechanics theory

Heat and mass-transfer theory

Cleaning-up & meshing of industry oriented models

Internal Flow simulations

How to simulate the flow through straight and bend pipes

Prepare analysis deck for CFD

Post processing CFD runs

Theoritical backgroud for Boundary conditions

Module FL2

External Flow simulations

Subsonic external flow simulations

Transonic external flow simulations

Porous media simulations

Flow through porous medium

Thermal Analysis

Essential heat and mass transfer theory

Conjugate heat transfer flows

Natural convection models

Apply flow simulation to field problems

For WHOM

Students & Fresh graduates (BE/ME in Mech, Aero, Auto) seeking an entry into the design field

CAD engineers who wish to upgrade to Analysis-field and move ahead in their career

Team Leads and managers who want to add ‘Analysis-projects’ into their portfolio

This course does NOT need prior knowledge of any CAD software

Pre-requisite: Nil

SYLLABUS

↓↓↓ Refer to Modules listed below ↓↓↓

> > > > Module FL1

Geometry preparation & CFD Meshing Techniques using ANSYS Workbench

Introduction to ANSYS workbench

Working with Workbench projects

Connecting project systems

Introduction to Design Modeler

Familiarization of Design Modeler GUI

2D sketching in Design modeler

Creating sketches

Dimensioning sketches

Modifying sketches

Using various tools to sketch different models

3D modeling in Design modeler

Tools to convert 2D sketch to 3D models

Understanding body states

Geometry simplification

Geometry importing to design modeler

Tools for cleanup of complex geometries

Introduction to ANSYS meshing

Meshing process

Advanced size functions of the mesher

Setting global and local size controls

Understanding Mesh quality info

Controling Mesh quality

Fluid Mechanics Theory

Technical differentiation between solids and fluids

Continuum hypothesis

Distributed properties

Flow visualization methods

Assignments & Evaluation on Geometry & meshing

Module based Projects

Projects on geometry preparation & meshing

Landing gear

Valves

Engine manifolds etc

> > > > Module FL2

Flow and Thermal Simulations using FLUENT

Fluent GUI

Familiarization of ANSYS Fluent GUI

Simulation of Flow through pipes

Checking mesh parameters and quality in Fluent

Internal flow setting in Fluent

Basic solution controls in Fluent

Introduction to boundary conditions

Standard boundary conditions available in the solver and its significance

Flow initialization methods in Fluent

Simulation of flow over a blunt body

Use of pressure based solver for subsonic flows

Setting reference values for non dimensional coefficients

Simulation of flow over an airfoil

Use of density based solver for transonic flows

Comparing simulations results with experimental values using Fluent post processing

Heat transfer theory

Basic concepts of heat transfer

Modes of heat transfer

Conjugate heat transfer simulation for pipe flow

Implementation of multiple domains

Meshing for multiple zones (conformal meshing)

Simulation of Electronic cooling

Natural convection flow setting with gravity

Setting thermal conditions for the flow domain

Simulation of catalytic convertor

Setting parameters for porous media simulations in Fluent

Module based Projects

Projects on Flow & Thermal Simulations

Electronic cooling simulations

Intake plenum of IC engine etc.

Certificate

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