Harmony Vertical Axis Wind Turbine

7 Pages Posted: 21 Jul 2019 Last revised: 30 Sep 2019

See all articles by Kalpana Malvadkar

Kalpana Malvadkar

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR), Students

Akash Mali

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR), Students

Namrata Yemul

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR), Students

Mrutyunjay Patted

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR)

Date Written: May 18, 2019

Abstract

In this paper we present our innovative wind turbine structure for enhancing efficiency for various applications. The smart wind turbine consists of curvy savonius blades which are connected to the shaft. The blades are designed in a such a way that, if wind strikes on any one part of blade (i.e. left side or right side of the shaft ) the wind turbine rotate effectively on its own axis and in only one direction i.e. clockwise direction. The AC generator is connected to the lower part of the wind turbine which converts mechanical energy to electrical energy. The generated electrical energy is stored in battery by converting AC voltage into DC voltage with the help of Rectifier & gets stabilized by regulated Module. This stored energy which can be further used for home lighting, street lighting, toll gates etc. Hence our prototype module has been developed and analyzed in real atmosphere. This project idea does not required heavy towers, Protects against the breakage of blades, works effectively even if wind changes in directions.

Keywords: AC Synchronous Generator, Battery Storage, Blade design of VAWT, Renewable Energy Source

JEL Classification: Y60

Suggested Citation

Malvadkar, Kalpana and Mali, Akash and Yemul, Namrata and Patted, Mrutyunjay, Harmony Vertical Axis Wind Turbine (May 18, 2019). Proceedings of International Conference on Communication and Information Processing (ICCIP) 2019, Available at SSRN: https://ssrn.com/abstract=3419792 or http://dx.doi.org/10.2139/ssrn.3419792

Kalpana Malvadkar (Contact Author)

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR), Students ( email )

Wagholi
Pune, Maharashtra 412207
India

Akash Mali

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR), Students ( email )

Wagholi
Pune, Maharashtra 412207
India

Namrata Yemul

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR), Students ( email )

Wagholi
Pune, Maharashtra 412207
India

Mrutyunjay Patted

JSPM’s Bhivrabai Sawant Institute of Technology & Research (BSIOTR) ( email )

Wagholi
Pune

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