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Porous CFD Simulation
Porous CFD Simulation
Porous CFD Simulation
Porous CFD Simulation
Porous CFD Simulation
Porous CFD Simulation
Porous CFD Simulation
Porous CFD Simulation

Porous CFD Simulation Training Package, Advanced

$1,310.00 Student Discount

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

  • Non-Equilibrium Porous Aluminum Foam Heat Sink, Paper Validation
  • Air Gap Membrane Distillation (AGMD)
  • Seed Drying Via Hydraulic Mechanism
  • Reverse Osmosis (RO)
  • Premixed Combustion in a Porous Zone
  • Humidification Dehumidification (HDH)
  • Air Gap Membrane Distillation (AGMD), Paper Validation
  • ACSC Performance with Diffuser Orifice Plate, Paper Validation
  • Solid Oxide Fuel CellĀ (SOFC)
  • Proton Exchange Membrane Fuel Cell (PEMFC)
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non-equilibrium

Non-Equilibrium Porous Aluminum Foam Heat Sink, Paper Validation

  • The problem numerically simulates Non-Equilibrium Porous Aluminum Foam Heat Sink using ANSYS Fluent software.
  • We design the 3-D model with the Design ModelerĀ software.
  • We Mesh the model with ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 87000.
  • This project is simulated and validated with a reference article.
  • We use a Porous medium made of aluminum foam.
Air Gap Membrane Distillation

Air Gap Membrane Distillation (AGMD), Paper Numerical Validation, ANSYS Fluent Training

  • The problem numerically simulates the Air Gap Membrane Distillation (AGMD) using ANSYS Fluent software.
  • We design the 3-D model with the Design ModelerĀ software.
  • We mesh the model with ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 344400.
  • We define porous medium and heat sources in cell zone conditions.
  • This simulation is validated with a reference article.
Evaporation CFD Simulation

Air Gap Membrane Distillation (AGMD), ANSYS Fluent CFD Simulation Tutorial

  • This simulation is about air gap membrane distillation (AGMD) viaĀ ANSYS FluentĀ 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 structured with 150000 cells.
  • The VOF (volume of fluid) model has been used to define the multiphase model.
  • Ā mass transfer is defined based on the evaporation-condensation mechanism.
  • porosity is defined to express the permeability of the porous medium.

Seed Drying Via Hydraulic Mechanism, ANSYS Fluent

  • Seed drying has been simulated.
  • Species Transport & Porous model is employed.
  • An unstructured mesh grid is carried out.
  • Considering Hydraulic mechanism (Evaporation is ignored).

 

 

clean water

Reverse Osmosis (RO), CFD Simulation Ansys Fluent Training

  • This simulation is about reverse osmosisĀ CFD Simulation viaĀ ANSYS FluentĀ software.
  • The geometry of the project is modeled in Design Modeler software.
  • The model meshed with ANSYS Meshing software. The model's grid is structured, and 44800 cells have been created.
  • The Eulerian model is used to simulate fluid multiphase behavior in a transient study with porous medium.
Premixed Combustion

Premixed Combustion in a Porous Zone CFD Simulation

  • The problem numerically simulates the Premixed Combustion in Porous Zone using ANSYS Fluent software.
  • We design the 3-D model by the Design ModelerĀ software.
  • We Mesh the model by ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 8700.
  • We use the Premixed Combustion in Species model to define combustion reactions.

 

Humidification Dehumidification

Humidification Dehumidification (HDH) CFD Simulation, ANSYS Fluent Tutorial

  • The current CFD project simulates the humidification dehumidification (HDH) system which is a model of water desalination methods via ANSYS FluentĀ 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 in the first simulation is Hybrid with 206,928Ā cells and Unstructured with 553,086 cells in the second case.
  • The Discrete Phase Model (DPM), Species Transport Model, VOF Multiphase Model, Mass Transfer(Evaporation-Condensation), and a Porous Medium are used to analyze the project.
  • Both Humidification and Dehumidification are simulated separately.
diffuser orifice plate

ACSC Performance with Diffuser Orifice Plate, Validation

  • The problem numerically simulates ACSC Performance with Diffuser Orifice Plate using ANSYS Fluent software.
  • We design the 3-D model with the Design ModelerĀ software.
  • We Mesh the model by ANSYS Meshing software, and the element number equalsĀ 2668772.
  • This project is simulated and validated with a reference article.
  • We use the FanĀ boundary condition and define a Pressure Jump.
SOFC

SOFC (Solid Oxide Fuel Cell) CFD Simulation, ANSYS Fluent Training

  • The problem numerically simulates the Solid Oxide Fuel Cell (SOFC) using ANSYS Fluent software.
  • We design the 3-D model with the Design ModelerĀ software.
  • We mesh the model with ANSYS Meshing software.
  • The mesh type is Structured, and the element number equals 930240.
  • We use the SOFC model to define a solid oxide fuel cell.
  • We use the Species Transport model to define 3 volumetric species, including O2, H2, and H2O.

Proton Exchange Membrane Fuel Cell (PEMFC)

  • The present problem simulates the a Polymer Electrolyte fuel cell using ANSYS Fluent software.
  • We have designed the geometry using SpaceClaim software and created the mesh on this geometry using ANSYS meshing software. The mesh type is unstructured with 876,000 cells.
  • Species Transport, Porous & Fuel cell and electrolysis models are used.

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 andĀ 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 andĀ 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.

Description

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

This CFD training package, including ten practical exercises, is prepared for ADVANCED 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.

1. Paper Validation of Non-Equilibrium Porous Aluminum Foam Heat Sink:Ā Discover the steps involved in simulating and validating the performance of a non-equilibrium porous aluminum foam heat sink.

2. Air Gap Membrane Distillation (AGMD): Recognize the fundamentals of AGMD and use ANSYS Fluent to simulate the procedure.

3. Seed Drying Via Hydraulic Mechanism: Using a hydraulic mechanism to dry seeds Investigate and mimic the seed drying process using a hydraulic mechanism.

4. Reverse Osmosis (RO): Reverse osmosis (RO) Utilize ANSYS Fluent to mimic the RO process while learning about it.

5. Premixed Combustion in a Porous Zone: Be familiar with the basic ideas behind this process and model it.

6.Ā Humidification Dehumidification (HDH): Learn about HDH and use ANSYS Fluent to model it.

7. Air Gap Membrane Distillation (AGMD), Article Validation: Recognize the fundamentals of AGMD and use a research article to verify the simulation’s outcomes.

8. ACSC Performance with Diffuser Orifice Plate, Paper Validation:Ā Examine the ACSC’s performance using a diffuser orifice plate, and then utilize a study paper to verify the simulation’s findings.

9. Solid Oxide Fuel Cell (SOFC): Be familiar with the fundamentals of SOFC and use ANSYS Fluent to model the procedure.

10. Proton Exchange Membrane Fuel Cell (PEMFC): Learn about proton exchange membrane fuel cells (PEMFC) and simulate them with ANSYS Fluent.

After completing this training program, you will acquire the abilities and information necessary to model porous media in ANSYS Fluent competently. Start today on the path to becoming a porous media simulation master! This training program is made to give ANSYS Fluent advanced users a thorough understanding of the simulation of porous media. The bundle includes ten hands-on exercises that explore various facets of porous media simulation.

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