Numerical simulation of Savonius rotors used for low wind speed application

Numerical simulation of Savonius rotors used for low wind speed application

Traditionally wind energy is popularly harvested using large horizontal axis wind turbines however there performance is found to be limited for unsteady and low-speed wind flow conditions. On contrary, vertical axis wind turbines are found to be superior for low wind speed conditions, which are gene...

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Published in:Materials today : proceedings Vol. 49; pp. 1610 - 1616
Main Authors: Sonawane, Chandrakant R, Sasar, Yogini, Shaikh, Moiz, Kokande, Yash, Mustafa, Mohammad, Pandey, Anand
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-01-2022
Subjects:
CFD simulations
Energy harvesting
Savonius rotors
Vertical axis wind turbine
CFD simulations
Vertical axis wind turbine
Savonius rotors
Energy harvesting
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Abstract Traditionally wind energy is popularly harvested using large horizontal axis wind turbines however there performance is found to be limited for unsteady and low-speed wind flow conditions. On contrary, vertical axis wind turbines are found to be superior for low wind speed conditions, which are generally found in crowded urban areas. This paper aims to present a design and numerical analysis of a vertical axis wind turbine that can be used in small-scale urban applications like wind trees. Hence in this paper, to absorb maximum wind energy available, we have selected wind tree applications for which three types of vertical axis rotor design are numerically studied. A Computational Fluid Dynamics simulation is performed on three different geometrical configurations: Savonius helical bach rotor, simple Saonius rotor, and simple bach rotor to predict their performance. The coefficient of power, coefficient of moment, and power produced by these three rotors are evaluated. A MATLAB-based Simulink model is developed to evaluate the power produced by these three rotors and results are compared with CFD results for validation purposes. From our study, it can be observed that the helical-type Bach rotor performed better than the other two, simple Saonius rotor and simple bach rotor considered.
AbstractList Traditionally wind energy is popularly harvested using large horizontal axis wind turbines however there performance is found to be limited for unsteady and low-speed wind flow conditions. On contrary, vertical axis wind turbines are found to be superior for low wind speed conditions, which are generally found in crowded urban areas. This paper aims to present a design and numerical analysis of a vertical axis wind turbine that can be used in small-scale urban applications like wind trees. Hence in this paper, to absorb maximum wind energy available, we have selected wind tree applications for which three types of vertical axis rotor design are numerically studied. A Computational Fluid Dynamics simulation is performed on three different geometrical configurations: Savonius helical bach rotor, simple Saonius rotor, and simple bach rotor to predict their performance. The coefficient of power, coefficient of moment, and power produced by these three rotors are evaluated. A MATLAB-based Simulink model is developed to evaluate the power produced by these three rotors and results are compared with CFD results for validation purposes. From our study, it can be observed that the helical-type Bach rotor performed better than the other two, simple Saonius rotor and simple bach rotor considered.
Author Sonawane, Chandrakant R
Shaikh, Moiz
Mustafa, Mohammad
Pandey, Anand
Sasar, Yogini
Kokande, Yash
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SubjectTerms CFD simulations
Energy harvesting
Savonius rotors
Vertical axis wind turbine
Title Numerical simulation of Savonius rotors used for low wind speed application
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