Simulation using ANSYS - Fluent English version

BY
Udemy

Gain a thorough understanding of the principles of simulation, including fluid dynamics and FDI using CFS ANSYS Fluent.

Mode

Online

Fees

₹ 2499

Quick Facts

particular details
Medium of instructions English
Mode of learning Self study
Mode of Delivery Video and Text Based

Course overview

Ansys Fluent allows an individual to improve and develop product results by providing more opportunities. Individuals can be confident in their simulation effectiveness when using technology that has been rigorously tested across a wide range of applications. With Ansys Fluent, users can create complex physics models and investigate a variety of fluid dynamics in a configurable and easy interface. Hussien Hafez - Msc, TA at Cairo University designed the Simulation using ANSYS - Fluent English version certification course, which is available on Udemy.

Simulation using ANSYS - Fluent English version online course incorporates 36 hours of video bases lessons which include topics like fluid dynamics, fluid-structure integration, meshing, 2d/3d modeling, GUI, fluid solver, heat exchange, radiation case, and solar load. Simulation using ANSYS - Fluent English version online classes also teaches about various functionalities of ANSYS CAD along with programs including CFX-Pre, CFD-Post, SpaceClaim, and many more.

The highlights

  • Certificate of completion
  • Self-paced course
  • 36 hours of pre-recorded video content
  • 1 downloadable resource

Course and certificate fees

Fees information
₹ 2,499
certificate availability

Yes

certificate providing authority

Udemy

Who it is for

What you will learn

After completing the Simulation using ANSYS - Fluent English version online certification, participants will gather a comprehensive knowledge of the principles associated with the simulation of fluid dynamics and fluid-structure integration using ANSYS Fluent, SpaceClaim, CFX-Pre, and CFD-Post. Participants will explore the techniques and strategies for creating computer-aided designs using ANSYS. Participants will learn techniques for creating 2d/3d models, meshing, and GUI. Participants will also learn about strategies to work with fluid solvers, supersonic flow, and solar load as well as will gain an understanding of radiation cases and heat exchanger cases.

The syllabus

session 1

  • 1.1 R193 (intro + Workbench GUI) (versions newer than 2019 R3)
  • 1.1 R181 (intro + Workbench GUI)
  • 1.2.1 R193 (Spaceclaim beam, 2D surface, 3D model) (versions newer than R193)
  • 1.2.1 R181 (Spaceclaim beam, 2D surface, 3D model)
  • 1.2.2 R181 (importing txt to spacelaim)
  • 1.2.2 R193 (importing txt to spacelaim) (versions newer than R193)

session 2

  • 2.1 R193 (spaceclaim importing, 3D wing, 3D pipe) (versions newer than R193)
  • 2.1 R181 (spaceclaim importing, 3D wing, 3D pipe)
  • 2.2 R193 (Spaceclaim 2D blade, Assembly, HW) (versions newer than R193)
  • 2.2 R181 (Spaceclaim 2D blade, Assembly, HW)

session 3

  • 3.1 R193 (intro to meshing) (versions newer than R193)
  • 3.1 R181 (intro to meshing)
  • 3.2 R193 (meshing GUI) (versions newer than R193)
  • 3.2 R181 (meshing GUI)
  • 3.3 R193 (meshing global settings) (versions newer than R193)
  • 3.3 R181 (meshing global settings)
  • 3.4 R193 (meshing methods) (versions newer than R193)
  • 3.4 R181 (meshing methods)
  • 3.5 R193 (meshing local settings) (versions newer than R193)
  • 3.5 R181 (meshing local settings)
  • 3.6 R193 (meshing for 2Daerofoil and 3Dcar) (versions newer than R193)
  • 3.6 R181 (meshing for 2Daerofoil and 3Dcar)
  • 3.7 R18.1-R193 (aerofoil structured grid)
  • 3.8 R193 (meshing 2D structured grid) (versions newer than R193)
  • 3.8 R181 (meshing 2D structured grid)
  • 3.9 R193 (meshing 3D structured grid) (versions newer than R193)
  • 3.9 R181 (meshing 3D structured grid)

session 4

  • 4.1 R193 (intro to Fluid solvers) (versions newer than R193)
  • 4.1 R181 (intro to Fluid solvers)
  • 4.2 R193 (CFX GUI) (versions newer than R193)
  • 4.2 R181 (CFX GUI)
  • 4.3 R193 (CFX flow in a pipe) (version newer than R193)
  • 4.3 R181 (CFX flow in a pipe)
  • 4.4 R193 (CFX flow over a car) (versions newer than R193)
  • 4.4 R181 (CFX flow over a car)
  • 4.5 R193 (CFX supersonic flow inside a CDN) (versions newer than R193)
  • 4.5 R181 (CFX supersonic flow inside a CDN)

session 5

  • 5.1 R193 (Fluent GUI) (versions newer than R193)
  • 5.1 R181 (Fluent GUI)
  • 5.2 R193 (Fluent flow in a pipe + compare with CFX) (versions newer than R193)
  • 5.2 R181 (Fluent flow in a pipe + compare with CFX)
  • 5.3 R193 (Fluent flow over an aerofoil) (versions newer than R193)
  • 5.3 R181 (Fluent flow over an aerofoil)
  • 5.4.1 R193 (Fluent supersonic flow over wedge 1) (versions newer than R193)
  • 5.4.1 R181 (Fluent supersonic flow over wedge 1)
  • 5.4.2 R193 (Fluent supersonic flow over wedge 2) (versions newer than R193)
  • 5.4.2 R181 (Fluent supersonic flow over wedge 2)
  • 5.5.1 R193 (Fluent Combustion chamber) (versions newer than R193)
  • 5.5.1 R181 (Fluent Combustion chamber)
  • 5.5.2 R193 (Fluent Adaptive grid) (versions newer than R193)
  • 5.6 R193 (Fluent 2D CDN) (versions newer than R193)
  • 5.6 R181 (Fluent 2D CDN)

session 6

  • 6.1 R193 (post-processing) (versions newer than R193)
  • 6.1 R181 (post-processing)
  • 6.1 extended R81 (post-processing)
  • 6.2 R193 (Fluent heat exchanger case) (versions newer than R193)
  • 6.2 R181 (Fluent heat exchanger case)
  • 6.3 R193 (Fluent filling a tank with water) (versions newer than R193)
  • 6.3 R181 (Fluent filling a tank with water)
  • 6.4 R193 (Fluent flow over a rotating cylinder) (versions newer than R193)
  • 6.4 R181 (Fluent flow over a rotating cylinder)
  • 6.5 R193 (simple Fluid-Structure Interaction case) (versions newer than R193)
  • 6.5 R181 (simple Fluid-Structure Interaction case)
  • 6.6 R193 (Fluent boiling water in a tank) (versions newer than R193)
  • 6.6 R181 (Fluent boiling water in a tank)

session 7

  • 7.1 R193 (Fluent 3D car in a garage model) (versions newer than R193)
  • 7.1 R181 (Fluent 3D car in a garage model)
  • 7.2 R193 (Fluent pipe in a wall case) (versions newer than R193)
  • 7.2 R181 (Fluent pipe in a wall case)
  • 7.3 R193 (Fluent 2D Vertical Axial Wind Turbine) (versions newer than R193)
  • 7.3 R181 (Fluent 2D Vertical Axial Wind Turbine)
  • 7.4.1 R193 (Fluent Dynamic mesh) (versions newer than R193)
  • 7.4.1 R181 (Fluent Dynamic mesh)
  • 7.4.2 R193 (Fluent User Defined Functions) (versions newer than R193)
  • 7.4.2 R181 (Fluent User Defined Functions)
  • 7.4.3 R193 (Fluent gate in pipe case) (versions newer than R193)
  • 7.4.3 R181 (Fluent gate in pipe case)
  • 7.5 R193 (Fluent Centerifugal compressor) (versions newer than R193)
  • 7.5 R181 (Fluent Centerifugal compressor)

session 8

  • 8.1 R193 (Fluent Solar load + Radiation case) (versions newer than R193)
  • 8.1 R181 (Fluent Solar load + Radiation case)
  • 8.2 R193 (Fluent Dynamic FSI bullets race) (versions newer than R193)
  • 8.2 R181 (Fluent Dynamic FSI bullets race)

Instructors

Mr Hussien Hafez
Instructor
Freelancer

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