Master Diploma + Internship in Ansys FLUENT (CFD)

Internship with Job-orientation and Interview preparation. Develops Industry-oriented skills on Flow and Thermal simulations, Moving-mesh, multi-species, Multiphase, Turbulence modeling, Dynamic meshing and Motion simulation. Advanced Modeling Techniques in FLUENT and ANSYS Workbench. Plus additional training on Hypermesh and ACUSOLVE. Classroom based training with practical coverage on Fluid Dynamics and Thermal Engineering

      Classic Level Program
     Offline Training (Classroom course)
     Classes on Weekdays
     Course code: CR-FL04

       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

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

    This course has eight modules:
    FL1 – Geometry preparation & CFD Meshing Techniques using ANSYS Workbench
    FL2 – Flow and Thermal Simulations using FLUENT
    FL3 – Advanced Moving Mesh & Multispecies Simulations using FLUENT
    FL4 – Advanced Turbulence & Multiphase Simulations
    FL5 – Dynamic meshing & Motion Simulation using FLUENT
    FL6 – Advanced CFD Meshing-techniques using HYPERMESH
    FL7 – Industry Orientation & CFD Simulations using ACUSOLVE
    FL8 – Advanced Internship Program
    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
    Module FL3
       Advanced meshing methods
       CFD meshing of 2D & 3D models
       Theory of CFD
       Moving Reference Frames
       Multispecies simulation
    Module FL4
       Turbulence modeling
       Multiphase simulations
       Periodic Boundaries
       User Profiles
    Module FL5
       Dynamic meshing
       Motion simulations
       2.5D Meshing
       6DoF Solver
       Internship projects
    Module FL6
       CFD Meshing using HYPERMESH
       Geometry preparation
       Defeaturing model
       Auto meshing and quality checking
    Module FL7
       Mesh generation techniques using ACUSOLVE
       Flow simulations using ACUSOLVE
       Heat transfer analysis using ACUSOLVE
    Module FL8
       CFD Project Handling as per industry standards


    Classroom sessions :    60 Hours
    Practical sessions :    200 Hours
    Online tests :    Topic-wise
    Industry Oriented Project :    60 Hours
    Special sessions for Interview Preparation

    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.

    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.
    Conversion of 2D to 3D models
    Cleanup operations
    ANSYS Mesher.
    Mesh controls
    Mesh statistics
    Mesh quality parameters
    Meshing strategies
    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
    Module FL3
    Advanced meshing methods
    Mapped meshing
    Structured meshing
    CFD meshing of 2D & 3D models
    2D meshing of airfoil
    3D meshing with Industry oriented models
    Theory of CFD
    Discretization schemes
    Stability criteria
    Analysis Algorithms (FDM, FVM, SIMPLE etc)
    Basic grid arrangements
    Moving Mesh Generation
    Reference Frames
    Mesh motion
    Sliding mesh
    Multispecies simulation
    Multispecies models
    Practical applications
    Gas turbine exhaust
    Wind turbine simulation
    Module FL4
    Theory of Turbulence
    Turbulence models
    Boundary layers
    Wall functions
    Multiphase simulations
    Multiphase modeling
    Volume of Fluid method
    Periodic Boundaries
    Application of Periodic boundary conditions
    User Profiles
    Application of User profiles
    Module FL5
    Dynamic meshing
    Smoothing Techniques
    Remeshing methods
    Layering methods
    2.5D Meshing
    6DoF solver
    Motion simulations
    Pistion Analysis
    Valve Analysis
    gear pump analysis
    2.5D Meshing
    6DoF Solver
    Internship projects
    Module FL6
    CFD Meshing using HYPERMESH
    Geometry preparation
    Defeaturing model
    Auto meshing and quality checking
    Module FL7
    Mesh generation techniques using ACUSOLVE
    Tetra mesh generation
    Hexa mesh generation
    Flow simulations using ACUSOLVE
    Heat transfer analysis using ACUSOLVE
    Natural and foced convection
    Module FL8
    CFD Project Handling as per industry standards

          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

    ↓↓↓  Refer to Modules listed below  ↓↓↓

    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
    Engine manifolds etc

    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.

    Advanced Moving Mesh & Multispecies Simulations using FLUENT

    ANSYS advanced meshing
    Advanced meshing methods
    Mapped meshing
    Structured meshing
    Edge sizing
    Free face hex/quad meshing
    Inflations using sweep method
    Advanced meshing assignments
    2D meshing airfoil structures
    Structured meshing for 3D models
    Essential CFD theory
    Fundamentals of CFD
    Finite Difference Method
    Finite Volume Methods
    SIMPLE algorithm
    Grid arrangements
    Simulation of centrifugal blower
    Moving reference frames (MRF)
    Non-conformal meshing
    Sliding mesh
    Simulation of a car garage
    Setting parameters for multispecies
    Use of species transport model
    Module based Projects
    Projects on geometry & MRF
    Gas turbine exhaust model cleanup
    Wind turbine simulation using Moving Reference frames assignment

    Advanced Turbulence & Multiphase Simulations

    Turbulence modeling theory
    Understanding turbulent flows
    Energy cascading
    DNS, LES and RANS Formulations
    Turbulence models used in Fluent
    Turbulent boundary layers
    Y+ Wall function
    Multiphase simulations
    Simulation of Tank flushing
    Setting parameters for multiphase simulation
    Use of Volume of Fluid method
    Simulation of a radiator
    Application of Periodic boundary conditions
    Use of Fluent TUI for setting periodic condition
    Using profiles
    Theory and application of profiles
    Coding an user-profile
    Solver-setting with user-profiles
    Module based Projects
    Projects on moving mesh & simulation
    Structured meshing of piston and valve cylinder arrangement
    Cleanup-to-Simulation of Automobile Exhaust Muffler

    Dynamic meshing & Motion Simulation using FLUENT

    Introduction to dynamic meshing
    Applications of dynamic meshing
    Methods of dynamic meshing
    Applying motion parameters for different zones
    Smoothing Techniques
    Remeshing methods
    Layering methods
    2.5D Meshing
    6DoF solver
    6DOF solver
    Application of 6DOF solver
    Advanced dynamic meshing using 6DOF solver
    Internship: Industry Oriented Projects
    Simulation of flapping wing
    Understanding remeshing and smoothing methods
    Simulation of piston motion
    Understanding Layering
    Simulation valve and piston motion
    Application of motion parameters
    Motion zones
    Application of in-cylinder settings
    Simulation of gear pump
    Understanding 2.5D remeshing method
    Project on meshing
    Structured meshing of piston cylinder
    Project on simulation
    Complete simulation of Piston valve of IC engine

    Advanced CFD Meshing-techniques using HYPERMESH

    Geometric processing using HYPERMESH
    Introduction to HYPERMESH
    Geometry preparation
    Model visualization
    Defeaturing model
    CFD Meshing Techniques
    Surface topology
    Auto meshing and quality checking
    Domain extraction techniques
    Module based Projects
    Meshing project in Automotive/ Aerospace or any other domain

    Industry Orientation & CFD Simulations using ACUSOLVE

    Flow simulations using ACUSOLVE
    Pre-processing for CFD using ACUSOLVE
    Tetra mesh generation using ACUSOLVE
    Hexa mesh generation using ACUSOLVE
    Flow – Thermal analysis using ACUSOLVE
    Heat transfer analysis using ACUSOLVE
    Module based Projects
    Flow analysis of an Industrial system

    Advanced Intership Program

    CFD Project Handling as per industry standards
    Requirement study
    Model and mesh generation
    Setting boundary condition
    Solution monitoring
    Post processing
    Report generation
    Module based Projects
    Proj A: Compressible flow simulations
    Proj B: Flow simulations on moving frames of an industrial system
    Proj C: Thermal simulation for Product design

    Certificate + Letter of Internship

    About Techzilon

    TECHZILON, with its strong experience offers rich-guidance and can help you achieve your career goals. TECHZILON has articulately designed the courseware by keeping in mind the requirements and expectations of the industry. The training would not only increase the theoretical understanding of the students, but will also enrich them by imparting applied and practical knowledge which is used in real industries. This will be achieved through hands on learning, training on live scenario projects and interaction with practicing industry experts.Our expert team can help you get onboard a job with leading MNCs in India and Abroad.

    TECHZILON : Authorised Training Partners for HYPERMESH & ANSYS WORKBENCH

    april, 2017


    10apr10:00 am- 11:59 pmCAE & CFD Classroom Weekdays