Contact Us
Subscription
Learning Products
Sale
Vertical Axis Wind Turbine
Vertical Axis Wind Turbine
Serrated Airfoil
Vertical Axis Wind Turbine
Vertical Axis Wind Turbine
Helical Blade
Vertical Axis Wind Turbine
Savonius
Vertical Axis Wind Turbine

Vertical Axis Wind Turbine Training Package, 8 Projects by ANSYS Fluent

$720.00 Student Discount

  • Paper validation related to VAWT
  • Darrieus wind turbine
  • H-Type wind turbine
  • Helical wind Turbine
  • Savinius wind turbine
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.

There are some Free Products to check our service quality.

If you want the training video in another language instead of English, ask it via [email protected] after you buy the product.
Categories: , , , , , Tags: , , , , , , , ,
Vertical Axis Wind Turbine

Vertical Axis Wind Turbine (VAWT), Paper Numerical Validation by ANSYS Fluent Tutorial

  • The problem numerically simulates Vertical Axis Wind Turbine (VAWT) using ANSYS Fluent software.
  • This project is validated with a reference article.
  • We design the 3-D model by the Design Modeler software.
  • We mesh the model with ANSYS Meshing software, and the element number equals 1650940.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion method to define rotational motion.
Serrated Airfoil

Serrated Airfoil and Plain Airfoil Comparison, Darrieus VAWT, ANSYS Fluent CFD Simulation Training

  • The problem numerically simulates Serrated Airfoil and Plain Airfoil Comparison 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 1186185.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion option to define the rotating motion of turbine blades.
Vertical Axis Wind Turbine

Darrieus Wind Turbine CFD Simulation by ANSYS Fluent

  • The problem numerically simulates Darrieus Wind Turbine 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 2289621.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion method to define a rotational zone.
Vertical Axis Wind Turbine

H-Type Vertical Axis Wind Turbine (VAWT), Mesh Motion

  • The problem numerically simulates H-type vertical axis wind turbine 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 1546624.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion moethod to define rotational movement.
Helical Blade

Helical Blade Wind Turbine, 5 different RPMs

  • The problem numerically simulates Helical Blade Vertical Axis Wind Turbine using ANSYS Fluent software.
  • This project investigates TSR (tip speed ratio) using different rotational speeds for blade turbines.
  • We design the 3-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software, and the polyhedral element number equals 507457.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion method to define rotational motion in the distinct zone around blades.

 

Vertical Axis Wind Turbine

Helical Wind Turbine, ANSYS Fluent CFD Simulation Training

  • The problem numerically simulates the Helical Wind Turbine using ANSYS Fluent software.
  • We design the 3-D model with the Design Modeler software.
  • We mesh the model with ANSYS Meshing software, and the element number equals 2129987.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion model to define rotational motion.

 

Savonius

Two-Blade Savonius Wind Turbine CFD Simulation (2-D)

  • The problem numerically simulates Savonius Vertical Axis Wind Turbine using ANSYS Fluent software.
  • We design the 2-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software, and the element number equals 58468.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion model to define rotational motion.
Vertical Axis Wind Turbine

Two-Blade Savonius Wind Turbine CFD Simulation (3-D)

  • The problem numerically simulates the Savonius (Two-Blade) Wind Turbine 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 143168.
  • We perform this simulation as unsteady (Transient).
  • We use the Mesh Motion model to define rotational motion.

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.

Description

Vertical Axis Wind Turbine Training Package, 8 CFD Simulation Projects by ANSYS Fluent

This training package includes 8 CFD simulation projects using ANSYS Fluent software related to Vertical Axis Wind Turbines (VAWT). MR-CFD suggests this package to those interested in renewable energy engineering, especially turbine analysis. This package introduces you to various turbine designs and how to simulate them, considering a wide range of related studies numerically.

First, start with a paper validation related to Vertical Axis Wind Turbine (VAWT) by applying CFD simulation with ANSYS Fluent software. After verifying our Computational Fluid Dynamics methodology, we compare the plane and serrated airfoils to analyze the different structures of Darrieus turbine performance. Next, we will simulate other kinds of VAWT, such as H-Type, and different designs of Helical and Savinius turbines.

By studying this fantastic and practical training package, you can claim you are an expert in modeling and analyzing every CFD simulation related to horizontal axis turbines and relative phenomena. Then you’ll be ready to enter the related industries as a CFD engineer.

Reviews

There are no reviews yet.

Leave a customer review

Your email address will not be published. Required fields are marked *

Related products

Back To Top
Search
Whatsapp Call On WhatsApp