Sale

ANSYS Fluent CFD Simulation Training Course

$410.00 Student Discount

The ANSYS Fluent general Training Course includes:

ANSYS Workbench Main Steps for a CFD Simulation
Heat Transfer: Conduction & Convection
Solar Radiation
Solidification & Melting
External and Internal Compressible Flow
Porous
Discrete Phase Model (DPM)
Single Frame Motion (SRF)
Acoustic Model
Dynamic Mesh
Species Transport (pollutant dispersion)
Combustion (Reacting Flow)
Multiphase Model

This training course contains 14 video lessons and a final exam for a project simulation to get an ANSYS Fluent Certification.

Categories: Academic, ANSYS Fluent, Industrial, Mechanical, Training Course Tags: Acoustic, Aeroacoustic, aircraft, ANSYS Design Modeler, ANSYS Fluent, ANSYS Meshing, ANSYS Workbench, axial pump, Broadband, bullet, CFD analyses, CFD projects, CFD Simulation, chemical reaction, Combustion, Combustion Chamber, Compressible Flow, conduction, convection, density based, Discrete phase model, DO model, DPM, Dynamic mesh, External Compressible Flow, Finite Volume, Finite Volume Method, frame motion, Geometry, Heat Transfer, hollow point boat tail, HPBT, injection, Internal Compressible Flow, jet, jet combustion chamber, Labyrinth spillway, Lagrangian, Mach number, Melting, Mesh, multiphase, Multiphase Model, PCM, perforated plate, Phase Change Material, plate heat exchanger, pollutant, Pollutant Dispersion, porous, porous zone, post-processing, pressure-based, Reacting Flow, remeshing, setup, shock wave, Simulation, Single-Reference Frame, smoothing, solar radiation, solar ray tracing, Solidification, solution, solver settings, species transport, spillway, SR-71, SR-71 aircraft, SRF, storage tank, supersonic, supersonic speed, training course, VOF, volume of fluid

Thermal Analysis in a Storage Tank CFD Simulation

Thermal Analysis in a storage tank via ANSYS Fluent software.
We have designed the initial geometry using ANSYS Design modeler software and created the mesh on this geometry using ANSYS meshing software.
The mesh type is structured with 10,056 cells.
Energy Equation is enabled to capture the temperature.
The Mixing & Convection phenomena are involved in this simulation.

Conjugated Heat Transfer (CHT) in Plate Heat Exchanger CFD Simulation

This problem simulates the Plate Heat Exchanger by ANSYS Fluent software.
The geometry of the present model is drawn by Design Modeler software and then meshed by ANSYS Meshing software.
The cell number equals 2,216,379.
Energy Equation is enabled.
Both Conduction and Convection happen in the domain (Conjugated Heat Transfer (CHT)).

Solar Radiation effect on a House CFD Simulation

The problem numerically simulates solar radiation on a house using ANSYS Fluent software.
The model is designed by the Design Modeler software.
The Mesh was modeled by ANSYS Meshing software, and the element number equals 696,480.
We use Discrete Ordinate Radiation (DO) and Solar Ray Tracing to consider radiation heat transfer.
Natural Convection is visible due to the Buoyancy effect.

Thermal Management by PCM in a Room Wall CFD Simulation

This problem simulates the Wall of a room with Phase Change Material (PCM) by ANSYS Fluent software.
The geometry of the present model is drawn by Design Modeler software and then meshed by ANSYS Meshing software.
the mesh type is structured and the cell number equals 193,500.
the solution is solved transiently.
The solidification & Melting model is enabled.

Supersonic Flow over SR-71 Blackbird CFD Simulation

The present CFD Project simulates supersonic airflow over SR-71 blackbird aircraft via ANSYS Fluent software.
We modeled the geometry using ANSYS Design Modeler software and created the mesh using ANSYS Meshing software.
The meshing is Polyhedra, and the number of cells is 1,744,624.
the air property is selected as the ideal gas to model compressibility.

Compressible Flow in a Bent Pipe CFD Simulation

The present CFD Project simulates Compressible Flow in a Bent Pipe via ANSYS Fluent software.
We modeled the geometry using ANSYS Design Modeler software and created the mesh using ANSYS Meshing software.
The number of cells after refinement is 1,450,983.
The solution has been solved Transiently.
The solver is Density-Based to capture the compressibility of the flow.

Perforated Plate (Porous Zone) Inside 3D Channel CFD Simulation

The problem numerically simulates a perforated plate (Porous Zone) inside 3D Channel using ANSYS Fluent software.
We modeled the geometry using ANSYS Design Modeler and created the mesh using ANSYS Meshing software.
The mesh type is Structured and the number of them is 14,544.
Porosity has been used in the simulation.
Pressure Drop inside the channel due to porosity is investigated.

Surface injection using DPM CFD Simulation

The problem numerically simulates the Surface Injection using ANSYS Fluent software.
We design the 3-D model by the Design Modeler and mesh the model with ANSYS ICEM software.
The mesh type is Structured, and the element number equals 92,809.
We perform this simulation as unsteady (Transient).
The Discrete Phase Model (DPM) model defines the particle's movement.

Single Reference Frame (SRF) Axial Pump CFD Simulation

The problem numerically simulates the Axial Pump using ANSYS Fluent software.
We design the 3-D model by the SpaceClaim software.
We Mesh the model by ANSYS Meshing software, and the element number equals 36,865.
The Single Reference Frame is defined to model rotational movement.

Broadband Noise Sources Acoustic Model CFD Simulation

The current CFD Analysis simulates the flow around a cylinder to investigate its aeroacoustics condition.
The simulation is dependent on time so is performed in transient form.
The Broadband Noise Sources Acoustic Model has been used for acoustic modeling.

Bullet (HPBT) movement CFD Simulation by Dynamic Mesh

The problem numerically simulates the HPBT Bullet movement after firing using ANSYS Fluent software.
We design the 2-D model by the Design Modeler software.
The Mesh is modeled by ANSYS Meshing software, and the element number equals 13,040.
We perform this simulation as unsteady (Transient).
The Dynamic Mesh method is used to simulate the movement process.

Pollution of the Street between Buildings CFD Simulation

The problem numerically simulates the Pollution of the Street between Buildings using ANSYS Fluent software.
We design the 3-D model by the Design Modeler software.
We Mesh the model by ANSYS Meshing software.
The mesh type is Structured, and the element number equals 274,496.
The Species Transport model is used to simulate the pollutant.

Jet Combustion CFD Simulation by ANSYS Fluent

The problem numerically simulates the Combustion Jet inside a chamber using ANSYS Fluent software.
We design the 2-D model by the Design Modeler software.
We Mesh the model by ANSYS Meshing software.
The mesh type is Structured, and the element number equals 9,928.
We use the Species Transport model to define the combustion process.

Labyrinth spillway CFD Simulation

The problem numerically simulates the Labyrinth spillway using ANSYS Fluent software.
We design the 3-D model by the Design Modeler software.
We Mesh the model by ANSYS Meshing software, and the Polyhedra element number equals 99,248.
The VOF Multiphase model is selected to define water and air in channels.

Description
Reviews

Description

ANSYS Fluent General Training Course For Beginner and Intermediate Users

This ANSYS Fluent Training Course will practically teach how to simulate different issues through several lessons. Almost everything is for those who want to start CFD simulation and get familiar with all basic models of ANSYS Fluent software.

Generally, the simulation process is established from five major steps: geometry modeling, mesh generation, setup, solution, and post-processing. The most challenging part for engineers is the solution that requires fluid-based knowledge and high experience. After passing this ANSYS Fluent Training Course, you are ready to claim yourself as a CFD Simulation expert.

What do you learn in this ANSYS Fluent Training Course?

In this course, you will learn how to deal with a problem from the solver settings and related modules to the post-processing section. After watching and practically learning these lessons, you can solve a wide range of CFD projects and CFD analyses.

ANSYS Fluent Training Course Syllabus

This training course is divided into 14 main tutorials and a final project as an exam to get the ANSYS Fluent Certification. You are strongly recommended not to skip any sections, even if you know the content.

Episode 1

ANSYS Workbench Main Steps for a CFD Simulation

In this section, ANSYS Fluent software carries out whole CFD simulation steps, including geometry modeling by ANSYS Design Modeler, meshing applying ANSYS Meshing, setup, solution, and post-processing. This tutorial is appropriate for beginner users interested in CFD simulations by ANSYS Workbench.

A Storage Tank with two inlets and a single outlet, and convective walls is simulated as an example to familiarize with the main steps through the whole CFD simulation process by ANSYS Workbench.

Episode 2

Heat Transfer: Conduction & Convection

In this section, a plate heat exchanger comprising four plates with four distinct materials and four pipes is simulated to learn the different thermal boundary conditions of ANSYS Fluent to model conduction and convection heat transfer.

Episode 3

Solar Radiation

In this section, the DO model as a radiation model has been explained. Solar radiation effect on a house has been performed to get more familiar with the solar ray tracing module in ANSYS Fluent software.

Episode 4

Solidification & Melting

This section simulates a room wall containing phase change material (PCM) to investigate the thermal energy storage in a building wall by applying a solidification and melting module by ANSYS Fluent software.

Episode 5

External Compressible Flow

This section aims to learn the external compressible flow simulation process using a pressure-based solver. In this section, an SR-71 aircraft experiences a supersonic speed equal to 446m/s, and the Mach number of 1.3 is simulated by ANSYS Fluent software.

Episode 6

Internal Compressible Flow

This section simulates an internal compressible flow inside a bent pipe to investigate the shock wave phenomenon. How to deal with compressible flows using a density-based solver by ANSYS Fluent software is studied.

Episode 7

Porous

This section aims to familiarize you with ANSYS Fluent software’s Porous Zone option. A three-dimensional channel with a perforated plate is simulated for more comprehensive learning.

Episode 8

Discrete Phase Model (DPM)

This section aims to learn how to perform a simulation from a Lagrangian view by introducing the surface injection by ANSYS Fluent software. A surface injection is performed in a simple cube.

Episode 9

Single Frame Motion (SRF)

This section discusses ANSYS Fluent software’s Single Reference Frame (SRF) module. An axial pump is simulated in two-dimensional using the Frame Motion option as a practical example of this module.

Episode 10

Acoustic Model

This section introduces the Broadband Aeroacoustic module. Airflow around a cylinder is simulated. Then, ANSYS Fluent software investigated its aeroacoustic using the acoustic broadband module.

Episode 11

Dynamic Mesh

This section has got into the Dynamic Mesh module by simulating a moving Bullet. A hollow point boat tail (HPBT) bullet is performed with a smoothing and remeshing dynamic mesh method.

Episode 12

Species Transport (pollutant dispersion)

In this section, using the Species Transport module has been explained. A building placed in a street with pollutants between them is performed.

Episode 13

Combustion (Reacting Flow)

This section investigates the combustion simulation process using species transport and chemical reaction. For example, ANSYS Fluent software simulates a jet combustion chamber injecting ethylene (C2H4).

Episode 14

Multiphase Model

This section explains using the Volume Of Fluid (VOF) model as a multiphase model. A 3D Labyrinth spillway is simulated for better learning by ANSYS Fluent software.

Reviews

There are no reviews yet.

Leave a customer review