Aerodynamic Concepts Design Analysis with catia ansys fluent

Computational fluid dynamics Thermodynamics Strength of materials - Engineering concepts design & analysis

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Aerodynamic Concepts Design Analysis with catia ansys fluent

What You Will Learn!

  • computational fluid dynamics thermodynamics strength of materials - engineering designs & analysis

Description

AIM : This program is focused on Product Design & Developments related to Aerodynamics and Thermodynamics results in stress generations against structural deformations. After completion of this one should able to do any kind of product design in Catia and analyse required engineering properties with Ansys.

What you learn :

  • Techniques for real life engineering designing and analysis

  • Steps and procedures for products development in Industries or Academic

  • Creative thinking and imagination from concept to feasibility

  • Apply Creativity, Engineering knowledge and Catia Ansys tools in industrial projects

  • Designing in Catia workbenches

  • Engineering analysis with Ansys workbenches

  • Design & Development for moving vehicles against fluid like Aircraft, Ship, Car etc

  • Designing modules in Catia are Sketching, Generative shape design & Generative part design

  • Analysis modules in Ansys are Computational Fluid Dynamics(CFD), Structural, Thermal and Harmonic merged with CFD

  • All lessons are focused on minimised theory and maximised practical with practice Industrial Project work on Aerodynamic   vehicle design & analysis.

PROJECT Work Project work consists of designing structures for fuselage,wings,stabilizers & engines for Transporter. Procedure is very similar to shown in lectures with variable input and boundary conditions. Designing involves creating 3D shapes from sections & curves with techniques in surface or part modeling. Cad file is then have to import in CAE as step file. Designed model to be analysed for Computational fluid dynamics (CFD) & Structural parameters to calculate LIFT,DRAG,THRUST and variable STRESSES due to deformations.

INPUT:

Structural Material is Aluminium

Fluid flow is Air

Flow velocity in m/s

ENGINE Initial Gauge Pressure in Pa

        Outflow Gauge Pressure in Pa

        Temp in kelvin

        Outlet Gauge Pressure in Pa  Temp in kelvin

Number of iterations = 500

OUTPUT :   DRAG in newton    LIFT in newton   THRUST/ENG in newton



Who Should Attend!

  • students or professionals from physics mathematics engineering

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Tags

  • Design Thinking

Subscribers

25

Lectures

17

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