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Computational fluid dynamics analysis of a modified Savonius rotor and optimization using response surface methodology

Computational fluid dynamics analysis of a modified Savonius rotor and optimization using response surface methodology
Computational fluid dynamics analysis of a modified Savonius rotor and optimization using response surface methodology

This article aims to present a two-dimensional parametric analysis of a modified Savonius wind turbine using computational fluid dynamics. The effects of three independent parameters of the rotor, namely, shape factor, overlap ratio, and tip speed ratio on turbine performance were studied and then optimized for maximum coefficient of performance using response surface methodology. The rotor performance was analyzed over specific domains of the parameters under study, and three-variable Box-Behnken design was used for design of experiment. The specific parametric combinations as per design of experiment were simulated using ANSYS Fluent®, and the response variable, coefficient of performance (Cp), was calculated. The sliding mesh model was utilized, and the flow was simulated using Shear Stress Transport (SST) k − ω model. The model was validated using past experimental results and found to predict parametric effects accurately. Minitab® and ReliaSoft DOE++® were used to develop regression equation and find the optimum combination of parameters for coefficient of performance over the specified parametric domains using response surface methodology.

computational fluid dynamics, modified Savonius wind turbine, parametric optimization, response surface methodology, Vertical axis wind turbine
0309-524X
285-296
Moazam Sheikh, Haris
631e12be-9394-41fd-8e90-6ab416df0d76
Shabbir, Zeeshan
04c52aaf-fe91-49c3-97a9-cbbdc6ac15aa
Ahmed, Hassan
a1311d26-0cea-4df9-aff2-59a105386be9
Waseem, Muhammad Hamza
88fc3f4e-e3cc-47eb-b426-bbeb61422514
Sheikh, Muhammad Zubair
03d8ec13-3bda-43f0-bfd7-8a5dda890bf1
Moazam Sheikh, Haris
631e12be-9394-41fd-8e90-6ab416df0d76
Shabbir, Zeeshan
04c52aaf-fe91-49c3-97a9-cbbdc6ac15aa
Ahmed, Hassan
a1311d26-0cea-4df9-aff2-59a105386be9
Waseem, Muhammad Hamza
88fc3f4e-e3cc-47eb-b426-bbeb61422514
Sheikh, Muhammad Zubair
03d8ec13-3bda-43f0-bfd7-8a5dda890bf1

Moazam Sheikh, Haris, Shabbir, Zeeshan, Ahmed, Hassan, Waseem, Muhammad Hamza and Sheikh, Muhammad Zubair (2017) Computational fluid dynamics analysis of a modified Savonius rotor and optimization using response surface methodology. Wind Engineering, 41 (5), 285-296. (doi:10.1177/0309524X17709732).

Record type: Article

Abstract

This article aims to present a two-dimensional parametric analysis of a modified Savonius wind turbine using computational fluid dynamics. The effects of three independent parameters of the rotor, namely, shape factor, overlap ratio, and tip speed ratio on turbine performance were studied and then optimized for maximum coefficient of performance using response surface methodology. The rotor performance was analyzed over specific domains of the parameters under study, and three-variable Box-Behnken design was used for design of experiment. The specific parametric combinations as per design of experiment were simulated using ANSYS Fluent®, and the response variable, coefficient of performance (Cp), was calculated. The sliding mesh model was utilized, and the flow was simulated using Shear Stress Transport (SST) k − ω model. The model was validated using past experimental results and found to predict parametric effects accurately. Minitab® and ReliaSoft DOE++® were used to develop regression equation and find the optimum combination of parameters for coefficient of performance over the specified parametric domains using response surface methodology.

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More information

e-pub ahead of print date: 23 May 2017
Published date: 1 October 2017
Keywords: computational fluid dynamics, modified Savonius wind turbine, parametric optimization, response surface methodology, Vertical axis wind turbine

Identifiers

Local EPrints ID: 493495
URI: http://eprints.soton.ac.uk/id/eprint/493495
DOI: doi:10.1177/0309524X17709732
ISSN: 0309-524X
PURE UUID: 09cdae90-1ae3-4381-b3c0-965a3973c015
ORCID for Haris Moazam Sheikh: ORCID iD orcid.org/0000-0002-3154-0494

Catalogue record

Date deposited: 04 Sep 2024 16:30
Last modified: 05 Sep 2024 02:07

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Contributors

Author: Haris Moazam Sheikh ORCID iD
Author: Zeeshan Shabbir
Author: Hassan Ahmed
Author: Muhammad Hamza Waseem
Author: Muhammad Zubair Sheikh

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