A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH

A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH

This numerical research has investigated the influence of the turbulence model on a Savonius wind turbine performance. The numerical simulation has been applied by using two-dimensional analysis of Computational Fluid Dynamics through moving mesh technique to solve the incompressible Unsteady Reynol...

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Main Authors: Nopem Ariwiyono, Priyo A. Setiawan, Adi W. Husodo, Sudiyono, Arief Subekti, Anda I. Juniani, Subagio So’im, Projek P. S. Lukitadi, Rini Indarti, Fais Hamzah
Format: Article
Language:English
Published: Zibeline International 2019-05-01
Series:Journal of Mechanical Engineering Research and Developments
Subjects:
Savonius vertical axis turbine
moving mesh
turbulence model
realizable k-epsilon
performance.
Online Access:https://jmerd.org.my/Paper/Vol.42,No.3(2019)/91-93.pdf
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spelling doaj-cc6b5a9a6bb642e99a56902926b7cc402020-11-25T02:12:19ZengZibeline InternationalJournal of Mechanical Engineering Research and Developments1024-17522019-05-01423919310.26480/jmerd.03.2019.91.93A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESHNopem AriwiyonoPriyo A. SetiawanAdi W. HusodoSudiyonoArief SubektiAnda I. JunianiSubagio So’imProjek P. S. LukitadiRini IndartiFais HamzahThis numerical research has investigated the influence of the turbulence model on a Savonius wind turbine performance. The numerical simulation has been applied by using two-dimensional analysis of Computational Fluid Dynamics through moving mesh technique to solve the incompressible Unsteady Reynolds Averaged Navier-Stokes equations. In this study, the turbulence model has used RNG k-epsilon, standard k- epsilon, Realizable k- epsilon, SST k-omega, standard k- omega, and spalart-allmaras. Firstly, the numerical model has been verified by the experimental data towards the torque coefficient at a tip speed ratio (TSR) of 1.078 and has used the Realizable k-epsilon (RKE). Then the turbulence models are compared with experimental data towards torque coefficient at TSR change. The verification has been achieved and compared to the turbulence model variations. The results of numerical simulation reveal that Realizable k-ε (RKE) has the performance approach of experimental data within the Cp Error about 1.67% at TSR of 0.9.https://jmerd.org.my/Paper/Vol.42,No.3(2019)/91-93.pdfSavonius vertical axis turbinemoving meshturbulence modelrealizable k-epsilonperformance.
collection DOAJ
language English
format Article
sources DOAJ
author Nopem Ariwiyono
Priyo A. Setiawan
Adi W. Husodo
Sudiyono
Arief Subekti
Anda I. Juniani
Subagio So’im
Projek P. S. Lukitadi
Rini Indarti
Fais Hamzah
spellingShingle Nopem Ariwiyono
Priyo A. Setiawan
Adi W. Husodo
Sudiyono
Arief Subekti
Anda I. Juniani
Subagio So’im
Projek P. S. Lukitadi
Rini Indarti
Fais Hamzah
A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH
Journal of Mechanical Engineering Research and Developments
Savonius vertical axis turbine
moving mesh
turbulence model
realizable k-epsilon
performance.
author_facet Nopem Ariwiyono
Priyo A. Setiawan
Adi W. Husodo
Sudiyono
Arief Subekti
Anda I. Juniani
Subagio So’im
Projek P. S. Lukitadi
Rini Indarti
Fais Hamzah
author_sort Nopem Ariwiyono
title A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH
title_short A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH
title_full A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH
title_fullStr A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH
title_full_unstemmed A NUMERICAL STUDY OF THE TURBULENCE MODEL INFLUENCE ON A SAVONIUS WIND TURBINE PERFORMANCE BY MEANS OF MOVING MESH
title_sort numerical study of the turbulence model influence on a savonius wind turbine performance by means of moving mesh
publisher Zibeline International
series Journal of Mechanical Engineering Research and Developments
issn 1024-1752
publishDate 2019-05-01
description This numerical research has investigated the influence of the turbulence model on a Savonius wind turbine performance. The numerical simulation has been applied by using two-dimensional analysis of Computational Fluid Dynamics through moving mesh technique to solve the incompressible Unsteady Reynolds Averaged Navier-Stokes equations. In this study, the turbulence model has used RNG k-epsilon, standard k- epsilon, Realizable k- epsilon, SST k-omega, standard k- omega, and spalart-allmaras. Firstly, the numerical model has been verified by the experimental data towards the torque coefficient at a tip speed ratio (TSR) of 1.078 and has used the Realizable k-epsilon (RKE). Then the turbulence models are compared with experimental data towards torque coefficient at TSR change. The verification has been achieved and compared to the turbulence model variations. The results of numerical simulation reveal that Realizable k-ε (RKE) has the performance approach of experimental data within the Cp Error about 1.67% at TSR of 0.9.
topic Savonius vertical axis turbine
moving mesh
turbulence model
realizable k-epsilon
performance.
url https://jmerd.org.my/Paper/Vol.42,No.3(2019)/91-93.pdf
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