Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation

The formation of vortex and swirling in any flow structures of the hydropower dam is undesirable, as it reduced the performance of turbine as well as lowered the efficiency of hydroelectric power generation. Furthermore, it could lead to the hydraulic losses at the entrance of power intakes, the blo...

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Main Authors: Zahari N.M., Zawawi M.H., Ng F.C., Abas M.A., Nurhikmah F., Aziz N.A., Tung L.H., Ismail I.N., Sidek L.M., Radzi M.R.M.
Other Authors: 54891672300
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Published: Penerbit Akademia Baru 2023
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spelling my.uniten.dspace-259552023-05-29T17:05:45Z Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation Zahari N.M. Zawawi M.H. Ng F.C. Abas M.A. Nurhikmah F. Aziz N.A. Tung L.H. Ismail I.N. Sidek L.M. Radzi M.R.M. 54891672300 39162217600 57192101900 56893346700 57204810651 57201665672 57210387852 55598767200 35070506500 57204677038 The formation of vortex and swirling in any flow structures of the hydropower dam is undesirable, as it reduced the performance of turbine as well as lowered the efficiency of hydroelectric power generation. Furthermore, it could lead to the hydraulic losses at the entrance of power intakes, the blockage at the trash racks due to entrain debris and the reduction of the working life of turbines. This paper studied penstocks flows in the dam intake section numerically. The dynamics of penstocks flows at different operating conditions were analyzed to determine the vortex formation. To access the veracity of the current proposed numerical model, a validating study based on the particle image velocimetry (PIV) experiment was conducted. It was found the discrepancy between both numerical and experimental flow velocities is 12%, implying the numerical model is well-validated and the corresponding findings are acceptable. It was found that the vortex was formed in the penstock that located at the lowest level relative to other penstocks. Furthermore, the highest pressure of 4 MPa was recorded at the bottom section of the penstock which observed vortex. This numerical work provided useful insights for the future dam reliability analysis, particularly involving penstocks and intake section. � 2021. All Rights Reserved. Final 2023-05-29T09:05:45Z 2023-05-29T09:05:45Z 2021 Article 10.37934/arfmts.86.1.176186 2-s2.0-85119531160 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85119531160&doi=10.37934%2farfmts.86.1.176186&partnerID=40&md5=fa7fbfbd4a40f71bb66d1ae11f2dbccc https://irepository.uniten.edu.my/handle/123456789/25955 86 1 176 186 All Open Access, Hybrid Gold Penerbit Akademia Baru Scopus
institution Universiti Tenaga Nasional
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country Malaysia
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description The formation of vortex and swirling in any flow structures of the hydropower dam is undesirable, as it reduced the performance of turbine as well as lowered the efficiency of hydroelectric power generation. Furthermore, it could lead to the hydraulic losses at the entrance of power intakes, the blockage at the trash racks due to entrain debris and the reduction of the working life of turbines. This paper studied penstocks flows in the dam intake section numerically. The dynamics of penstocks flows at different operating conditions were analyzed to determine the vortex formation. To access the veracity of the current proposed numerical model, a validating study based on the particle image velocimetry (PIV) experiment was conducted. It was found the discrepancy between both numerical and experimental flow velocities is 12%, implying the numerical model is well-validated and the corresponding findings are acceptable. It was found that the vortex was formed in the penstock that located at the lowest level relative to other penstocks. Furthermore, the highest pressure of 4 MPa was recorded at the bottom section of the penstock which observed vortex. This numerical work provided useful insights for the future dam reliability analysis, particularly involving penstocks and intake section. � 2021. All Rights Reserved.
author2 54891672300
author_facet 54891672300
Zahari N.M.
Zawawi M.H.
Ng F.C.
Abas M.A.
Nurhikmah F.
Aziz N.A.
Tung L.H.
Ismail I.N.
Sidek L.M.
Radzi M.R.M.
format Article
author Zahari N.M.
Zawawi M.H.
Ng F.C.
Abas M.A.
Nurhikmah F.
Aziz N.A.
Tung L.H.
Ismail I.N.
Sidek L.M.
Radzi M.R.M.
spellingShingle Zahari N.M.
Zawawi M.H.
Ng F.C.
Abas M.A.
Nurhikmah F.
Aziz N.A.
Tung L.H.
Ismail I.N.
Sidek L.M.
Radzi M.R.M.
Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation
author_sort Zahari N.M.
title Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation
title_short Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation
title_full Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation
title_fullStr Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation
title_full_unstemmed Finite Volume Method Numerical Modelling of the Penstock Flows in Dam Intake Sector Subjected to Varying Operating Conditions with Particle Image Velocimetry Validation
title_sort finite volume method numerical modelling of the penstock flows in dam intake sector subjected to varying operating conditions with particle image velocimetry validation
publisher Penerbit Akademia Baru
publishDate 2023
_version_ 1806424350206722048
score 13.222552