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Mechanical Engineering – ANSYS Fluent Training Package, 10 Practical Exercises for INTERMEDIATE Users (Part 3)

$569.00

This product includes Geometry & Mesh file and a comprehensive Training Movie.

There are some free products to check our service quality.

To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, or WhatsApp.

Click on Add To Cart and obtain the Geometry file, Mesh file, and a Comprehensive Training Video.

To Order Your Project or benefit from a CFD consultation, contact our experts via email ([email protected]), online support tab, or WhatsApp at +1 (903) 231-3943.

Gas Particle Movement Through the Nozzle, CFD Simulation by Ansys Fluent

In this project, gas-particles movement through the convergence-divergence nozzle has been simulated and the results of this simulation have been investigated.

This product includes Geometry & Mesh file and a comprehensive Training Movie.
There are some free products to check our service quality.
To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, or WhatsApp.

Cyclone with the Motion of Particles, Ansys Fluent CFD Simulation Training

In this project, a cyclone with the motion of the particle has been simulated and the results of this simulation have been investigated.

This product includes Geometry & Mesh file and a comprehensive Training Movie.
There are some free products to check our service quality.
To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, or WhatsApp.

Fly Ash Cyclone, CFD Simulation, Ansys Fluent Training

In this project, Fly Ash Cyclone has been simulated and the results of this simulation have been investigated.

This product includes Geometry & Mesh file and a comprehensive Training Movie.
There are some free products to check our service quality.
To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, or WhatsApp.

Reverse Osmosis (RO), CFD Simulation Ansys Fluent Training

  • This simulation is about reverse osmosis CFD Simulation via ANSYS Fluent 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.

F1 Aerodynamics, Pressure Based vs Density Based Simulation, ANSYS Fluent

In this project, aerodynamic coefficients of a Formula One (F1) car by two different solvers of pressure based and density based, has been studied.

This product includes Geometry & Mesh file and a comprehensive Training Movie.

There are some free products to check our service quality.

To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, or WhatsApp.

Axial Flow Compressor (Rotor NASA 37) Simulation, ANSYS Fluent Training

  • The problem numerically simulates Axial Flow Compressor 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 278162.
  • We use a Density-Based solver to define the compressible flow.
  • We use Frame Motion to define rotational motion around compressor blades.

Mixer Tank CFD Simulation, ANSYS Fluent Training

  • The problem numerically simulates the Mixer Tank 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 152641.
  • We use VOF multi-phase model to define 3 phases: air, water and salt.
  • We use the Frame Motion method to define rotational motion for the impeller.

 

Brake Disk System Conduction Heat Transfer, ANSYS Fluent Simulation Training

In this project, the heat conduction of a brake disk system is modeled and simulated.

This product includes Geometry & Mesh file and a comprehensive Training Movie.

There are some free products to check the service quality.

To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, and WhatsApp.

Water Jet Considering Cavitation, ANSYS Fluent CFD Simulation Training

The present problem simulates the cavitation in a water jet by ANSYS Fluent software.

This product includes Geometry & Mesh file and a comprehensive Training Movie.

There are some free products to check our service quality.

To order your ANSYS Fluent project (CFD simulation and training), contact our experts via [email protected], online support, or WhatsApp.

Impeller of an Electrical Motor, Airflow Analysis, ANSYS Fluent CFD Simulation Tutorial

  • The problem numerically simulates the Impeller of an Electrical Motor 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 1786708.
  • We use the Frame Motion method to define the rotation of the impeller.

Description

Mechanical Engineering – ANSYS Fluent Training Package, 10 Practical Exercises for INTERMEDIATE Users (Part 3)

There are 10 practical exercises in this training package by ANSYS Fluent software for Mechanical Engineers. This package presents how to simulate different mechanical devices for all INTERMEDIATE users.

Simulation number 1 is modeling gas-particles movement through the convergence-divergence nozzle by a two-way DPM model. The nozzle is in grossly overexpanded condition. These kinds of nozzles are used in the gas and petrochemical and also MECHANICAL industry.

In project number 2, the motion of particles in a cyclone has been simulated. We used the one-way DPM to simulate the discrete phase. A cyclone is a device used to separate particles from gas and has many applications in the mechanical industry. In practical exercise number 3, the motion of particles in a Fly Ash Cyclone has been simulated. The Eulerian-Lagrangian technique is applied in the cyclone separator simulation. In this approach, the gas is treated as a continuum, and individual solid particles are tracked through the flow field by Lagrangian tracking to determine their position.

In project number 4, the reverse osmosis mechanism is simulated. This mechanism is used to purify water so that a membrane is placed in front of the water movement and does not allow the salts in the water to leave and pure water leaves. Eulerian Multiphase model has been used in this project.

In practical exercise number 5, the aerodynamic coefficients of a Formula One (F1) car by two different solvers of pressure-based and density-based, has been studied, at a speed of 108 meters per second at a lateral angle of zero degrees (actually a straight path). This velocity at the ground level is equivalent to Mach number approximately 0.32. We know this area from Mach number is the transition zone from incompressible to compressible flow, so on this geometry, the drag coefficient is investigated using two pressure-based and density-based solvers is discussed.

Problem number 6 is going to simulate the airflow inside an axial flow compressor (Rotor Nasa 37). The present model consists of a series of blades for an axial flow compressor connected to the central axis within a cylindrical area. To simplify the simulation model, only one row of rotating blades is drawn on the central rotor of the compressor.

In project number 7, a mixer tank is modeled and the effect of its rotating impeller on the mixing procedure is investigated. The simulation is done using the VOF model for the three phases of air, water, and salt. The k-epsilon model is applied for solving the turbulent flow inside the tank. MRF (Moving Reference Frame) model is also used to model the rotation of the impeller.

In practical exercise number 8, the heat conduction of a brake disk system is modeled and simulated. The disk revolves at the speed of 20rad/s and a braking pad is set to make contact with the disk. This frictional contact will result in heat generation inside the disk and the pad.

Problem number 9 simulates the water flow in a water jet. A water jet is a mechanical tool for creating a high-pressure water flow for use in operations such as cutting or cleaning surfaces of objects. The working mechanism of this tool is that it consists of a thin layer of water at a very high speed to which an abrasive substance is injected to cut hard materials, and as a result, the mixture of water and abrasives can make a narrow cut on the piece.

Finally, in project number 10, the airflow passing over a mechanical impeller of an electrical motor is investigated. The airflow enters the computational domain with 80m/s, and the impeller rotates with 1000rpm. A Realizable k-epsilon model is exploited to solve turbulent flow equations. It should be noted that the MRF (frame motion) option has been activated to model the rotation of the impeller.

You can obtain Geometry & Mesh file and a comprehensive Training Movie that presents how to solve the problem and extract all desired results.

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