Design and Analysis of Vertical Axis Wind Turbine Using CFD Analysis

Raj  Sharma; Yash  Sharma; Ashutosh  Hathiya; Ram Janm  Singh

doi:10.55529/jeet.34.1.8

Authors

Raj Sharma Mechanical Department, Medi-caps University, India
Yash Sharma Mechanical Department, Medi-caps University, India
Ashutosh Hathiya Mechanical Department, Medi-caps University, India
Ram Janm Singh Mechanical Department, Medi-caps University, India

Keywords:

Renewable Energy Sources, Wind Energy, Design, Materials, Blade Geometry, Computational Fluid Dynamics (CFD), Computer-Aided Design (CAD), Finite Element Analysis (FEA).

Abstract

The demand for renewable energy sources has made wind turbines a popular choice for generating electricity. The vertical axis wind turbine (VAWT) is an attractive option due to its compact size, easy maintenance, and ability to operate at low wind speeds. In this project, we aim to design and analyze a VAWT that can efficiently harness wind power and generate electricity. The project involves several steps, including choosing the appropriate design, selecting the materials, determining the optimal blade geometry, and testing the turbine's performance. Key considerations include wind conditions at the installation site, power output requirements, and material selection. The geometry of 2D vertical axis wind turbine is done with SolidWorks then ANSYS will be used to do fluid analysis on this 2D turbine using the sliding mesh and Ansys result will be used to generate coefficient of power vs. tip ratio diagram. We select NACA 0021 type wind turbine blade design for project.