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Porous CFD Simulation Training Package, Beginner, 10 Learning Products

$443.00 Student Discount

This CFD training package, including ten practical exercises, is prepared for BEGINNER ANSYS Fluent software users interested in the Porous modules.

  • Heat transfer
  • Multi-phase
  • Water infiltration
  • Ventilation
  • Biological tissue
  • Fuel cell
  • Perforated plate
  • Porous medium
Click on Add To Cart and obtain the Geometry file, Mesh file, and a Comprehensive ANSYS Fluent Training Video. By the way, You can pay in installments through Klarna, Afterpay (Clearpay), and Affirm.

If you decide to use PayPal to pay, you will get a 5% discount on your order.

To Order Your Project or benefit from a CFD consultation, contact our experts via email ([email protected]), online support tab, or WhatsApp at +44 7443 197273.

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If you want the training video in another language instead of English, ask it via [email protected] after you buy the product.

Porous Chamber Heat Transfer CFD Simulation, Tutorial

The problem simulates the airflow and heat transfer inside a cube-shaped chamber consisting of a regular porous medium.

Heat Sink Cooling with a Porous Medium, ANSYS Fluent CFD Tutorial

  • The problem numerically simulates the performance of phase change materials (PCM) in a storage tank 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 7680.
  • We use the Porous Medium to study the porous effect on heat transfer.

Nano Fluid Heat Transfer in a Porous Heat Exchanger

  • The problem numerically simulates Nano Fluid Heat Transfer in a Porous Heat Exchanger 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 element number equals 4148881.
  • The Energy Equation is activated to consider heat transfer.

Three-Phase Flow of Water, Air, and Kerosene in a Porous Zigzag Channel CFD Simulation, ANSYS Fluent

  • The problem numerically simulates the three-Phase Flow in a Porous Zigzag Channel using ANSYS Fluent software.
  • We design the 3-D model with the Design Modeler software.
  • We mesh the model with ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 416000.
  • We perform this simulation as unsteady (Transient).
  • We use the VOF Multiphase model to define the three-Phase Flow of Water, Air, and Kerosene.
  • We use the Porous medium in cell zone condition.

Water infiltration into a porous concrete block, ANSYS Fluent Simulation Training

  • The problem numerically simulates Water infiltration into a porous concrete block 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 element number equals 623464.
  • We perform this simulation as unsteady (Transient).
  • We use the Porous medium to study water infiltration into a porous concrete block.
  • We use the VOF Multi-Phase model to define two-phase flow inside a concrete block.

 

 

 

Transformer Room Ventilation CFD Simulation, ANSYS Fluent Training

  • The problem numerically simulates Transformer Room Ventilation using ANSYS Fluent software.
  • We design the 3-D model by the Design Modeler software.
  • We mesh the model with ANSYS Meshing software, and the element number equals 592411.
  • We use the Heat Source and Porous Medium to consider their effect on heat transfer.

Hyperthermia Therapy of a Cancer Tissue ANSYS Fluent CFD Simulation Training

  • The present study examined blood flow in capillaries passing through a tissue containing cancerous tumors using Hyperthermia Therapy by ANSYS Fluent software.
  • We have designed the geometry using ANSYS Design modeler software and created the mesh on this geometry using ANSYS meshing software. The mesh type is unstructured with 717087 cells.
  • The whole tissue can be considered a porous medium.
  • This simulation is performed as unsteady (Transient).
  • The Source Term option is used. The UDF code defines the amount of heat applied per volume unit.

 

Polymer Electrolyte Membrane Fuel Cell (PEMFC)

  • The present problem simulates a fuel cell using PEMFC (polymer electrolyte membrane fuel cell) model in porous medium by ANSYS Fluent software.
  • The geometry of the present model is three-dimensional and has been designed using Design Modeler software.
  • The meshing of the model has been done using ANSYS Meshing software. The mesh type is structured , and the element number is 142,000.
  • Species Transport, Porous & Fuel cell, and electrolysis models are used.

 

Porous Jump in a Perforated Plate CFD Simulation

In this project, a Porous Jump, Perforated Plate has been simulated and the results of this simulation have been investigated.

Flow Behavior Passing Through a Porous Medium, ANSYS Fluent Training

  • The problem numerically simulates fluid behavior inside porous media 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 35017.
  • We use the porous tab in our model to investigate the different porosity effects on fluid behavior.

Special Offers For All Products

If you need the Geometry designing and Mesh generation training video for all the products, you can choose this option.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
Editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion

Special Offers For Single Product

If you need the Geometry designing and Mesh generation training video for one product, you can choose this option.
If you need expert consultation through the training video, this option gives you 1-hour technical support.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion
The MR CFD certification can be a valuable addition to a student resume, and passing the interactive test can demonstrate a strong understanding of CFD simulation principles and techniques related to this product.
Enhancing Your Project: Comprehensive Consultation and Optimization Services

Description

Porous CFD Simulation Training Package, ANSYS Fluent, 10 Practical Exercises

This CFD training package, including ten practical exercises, is prepared for BEGINNER ANSYS Fluent software users interested in the Porous modules. You will learn and obtain comprehensive training on how to simulate projects. The achieved knowledge will enable you to choose the most appropriate modeling approaches and methods for applications and CFD simulations.

Heat Transfer

Project number 1 simulates the airflow and heat transfer inside a cube-shaped chamber with a regular real porous medium. The porous medium used in this chamber is rows and columns of several aluminum balls, the number of which is 343. The main purpose of this study is to investigate changes in air temperature inside the chamber under the influence of these items as a porous medium.

Project 2 investigates the fluid flow and heat transfer inside a porous medium. This porous medium is in contact with a heat source, and the setup acts as a heat sink. The energy model is activated, and the RNG  k-epsilon model using the standard wall function is exploited for fluid flow analysis.

In project number 3Nano-fluid flow heat transfer in a porous medium heat exchanger is simulated and analyzed. The energy model is activated. The split-Allmaras model is activated for solving turbulent flow.

Multi-phase

Project 4 simulates a three-phase flow mixture with a square cross-section within a channel. These three phases include air, water, and kerosene. In the initial state, only the airflow inside the channel is available. At the start of the simulation process, water flow enters the channel from the upper inlet section, and kerosene flow from the lower inlet section. Therefore, to simulate multi-phase flow in the present model, the VOF multiphase model has been used. Also, inside the canal, a porous environment with a porosity coefficient 0.1 is located.

Water infiltration (Porous)

Project number 5 simulates water flow infiltration into a cubic porous medium. In this modeling, a cube block is designed as a porous medium. The water flow enters it from a circular section at the bottom of the block. The porous medium defined in the block has a porosity coefficient equal to 0.01; This means that the ratio of space to the block’s total volume equals 0.01.

Ventilation

Project number 6 simulates the air conditioning inside a room where the transformers are located. Transformers can transfer electrical energy between two or more windings through electromagnetic induction. As a result, a variable current in the primary winding of the transformer generates a variable magnetic field, which leads to the voltage produced in the secondary winding. These transformers are considered a heat source affecting the ambient air temperature.

Biological Tissue

Project number 7 study examined blood flow in capillaries passing through a tissue containing cancerous tumors using Hyperthermia Therapy. For this purpose, we assume a spherical space to be an example of healthy body tissue or cell in which blood flows at a prolonged rate. There are several veins within this tissue. The vein structure of cells and tissues of the body are like bushes.

Fuel Cell (Porous)

Current collectors are solid materials with thermal energy sources and electrical potential. The flow channels carry a mixture of gaseous species, including oxygen, hydrogen, and water. The catalytic part consists of a porous medium with a porosity coefficient 0.5 and contains mass sources, thermal energy, electrical potential, proton potential, saturated water, hydrogen, oxygen, and water.  Project number 8 investigates the fluid behavior and thermal conductivity of a polymer fuel cell, its effect on the mass fraction of gaseous species, and the amount of electricity produced in the cell.

Perforated Plate

In project number 9, we studied a perforated plate. Perforated plates have patterns of holes, slots, or decorative shapes. They are widely used in industrial applications, such as filters, silencers, radiator grilles, ventilation, or separator plates. Porous jump conditions model a thin “membrane” with known velocity (pressure-drop) characteristics.

Porous Medium

In project number 10, ANSYS Fluent software investigates fluid flow through a porous medium with three different porosities. The fluid domain consists of an upstream flow domain, a porous medium domain, and a downstream flow domain. The standard k-epsilon model using the standard wall function is activated for solving fluid flow inside the computational domain.

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