Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD

Tenom Pangi Hydro Power Station in Tenom, Sabah is suffering from poor river quality with a lot of suspended trashes. This problem necessitates the need for a trash diverter to divert the trash away from the intake region. Previously, a trash diverter (called Trash Diverter I) was installed at the s...

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Main Authors: Munisamy, K.M., Kamal, A., Shuaib, N.H., Yusoff, Mohd.Z., Hasini, H., Rashid, A.Z., Thangaraju, S.K., Hamid, H.
Format: Conference Proceeding
Language:en_US
Published: 2017
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Institution: Universiti Tenaga Nasional
Language: en_US
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spelling my.uniten.dspace-50702018-02-21T08:33:01Z Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD Munisamy, K.M. Kamal, A. Shuaib, N.H. Yusoff, Mohd.Z. Hasini, H. Rashid, A.Z. Thangaraju, S.K. Hamid, H. Tenom Pangi Hydro Power Station in Tenom, Sabah is suffering from poor river quality with a lot of suspended trashes. This problem necessitates the need for a trash diverter to divert the trash away from the intake region. Previously, a trash diverter (called Trash Diverter I) was installed at the site but managed to survived for a short period of time due to an impact with huge log as a results of a heavy flood. In the current project, a second trash diverter structure is designed (called Trash Diverter II) with improved features compared to Trash Diverter I. The Computational Fluid Dynamics (CFD) analysis is done to evaluate the river flow interaction onto the trash diverter from the fluid flow point of view, Computational Fluids Dynamics is a numerical approach to solve fluid flow profile for different inlet conditions. In this work, the river geometry is modeled using commercial CFD code, FLUENT®. The computational model consists of Reynolds Averaged Navier-Stokes (RANS) equations coupled with other related models using the properties of the fluids under investigation. The model is validated with site-measurements done at Tenom Pangi Hydro Power Station. Different operating condition of river flow rate and weir opening is also considered. The optimum angle is determined in this simulation to further use the data for 3D simulation and structural analysis. © 2010 American Institute of Physics. 2017-11-14T03:35:15Z 2017-11-14T03:35:15Z 2010 Conference Proceeding 10.1063/1.3464931 en_US In 10th Asian International Conference on Fluid Machinery, AICFM (Vol. 1225, pp. 807-815)
institution Universiti Tenaga Nasional
building UNITEN Library
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country Malaysia
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language en_US
description Tenom Pangi Hydro Power Station in Tenom, Sabah is suffering from poor river quality with a lot of suspended trashes. This problem necessitates the need for a trash diverter to divert the trash away from the intake region. Previously, a trash diverter (called Trash Diverter I) was installed at the site but managed to survived for a short period of time due to an impact with huge log as a results of a heavy flood. In the current project, a second trash diverter structure is designed (called Trash Diverter II) with improved features compared to Trash Diverter I. The Computational Fluid Dynamics (CFD) analysis is done to evaluate the river flow interaction onto the trash diverter from the fluid flow point of view, Computational Fluids Dynamics is a numerical approach to solve fluid flow profile for different inlet conditions. In this work, the river geometry is modeled using commercial CFD code, FLUENT®. The computational model consists of Reynolds Averaged Navier-Stokes (RANS) equations coupled with other related models using the properties of the fluids under investigation. The model is validated with site-measurements done at Tenom Pangi Hydro Power Station. Different operating condition of river flow rate and weir opening is also considered. The optimum angle is determined in this simulation to further use the data for 3D simulation and structural analysis. © 2010 American Institute of Physics.
format Conference Proceeding
author Munisamy, K.M.
Kamal, A.
Shuaib, N.H.
Yusoff, Mohd.Z.
Hasini, H.
Rashid, A.Z.
Thangaraju, S.K.
Hamid, H.
spellingShingle Munisamy, K.M.
Kamal, A.
Shuaib, N.H.
Yusoff, Mohd.Z.
Hasini, H.
Rashid, A.Z.
Thangaraju, S.K.
Hamid, H.
Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD
author_facet Munisamy, K.M.
Kamal, A.
Shuaib, N.H.
Yusoff, Mohd.Z.
Hasini, H.
Rashid, A.Z.
Thangaraju, S.K.
Hamid, H.
author_sort Munisamy, K.M.
title Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD
title_short Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD
title_full Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD
title_fullStr Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD
title_full_unstemmed Trash diverter orientation angle optimization at run-off river type hydro-power plant using CFD
title_sort trash diverter orientation angle optimization at run-off river type hydro-power plant using cfd
publishDate 2017
_version_ 1644493604238917632