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Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter

Mini hydro can be among the most sustainable energy resource, appropriate for Malaysian condition. In its actual sense, 'availability' is one of the sustainability indicators, but choked intakes have been the main common issue that keep lowering the availability figure. This works aims to...

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Main Authors: Chik M.N., Hasini H.
Other Authors: 49561057700
Format: Conference paper
Published: 2023
Subjects:
Computational fluid dynamic
Green technology
Mini hydro
Self-cleaning
Sustainability
Cleaning
Computational fluid dynamics
Cost benefit analysis
Cost effectiveness
Debris
Energy conservation
Investments
Cleaning procedures
Cost benefit ratio
Flow profile
Malaysians
Mini-hydro
Payback periods
Physical model test
Self-cleaning effects
Sustainability indicators
Sustainable energy
Sustainable development
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id my.uniten.dspace-29562
record_format dspace
spelling my.uniten.dspace-295622023-12-28T15:05:39Z Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter Chik M.N. Hasini H. 49561057700 6507435998 Computational fluid dynamic Green technology Mini hydro Self-cleaning Sustainability Cleaning Computational fluid dynamics Cost benefit analysis Cost effectiveness Debris Energy conservation Investments Cleaning procedures Cost benefit ratio Flow profile Green technology Malaysians Mini-hydro Payback periods Physical model test Self-cleaning Self-cleaning effects Sustainability indicators Sustainable energy Sustainable development Mini hydro can be among the most sustainable energy resource, appropriate for Malaysian condition. In its actual sense, 'availability' is one of the sustainability indicators, but choked intakes have been the main common issue that keep lowering the availability figure. This works aims to improve sustainability ranking of a mini hydro station by improving its availability through an improvement in its intake cleaning procedure. It takes Sg. Renyok Mini Hydro Station, located at Jeli, Kelantan, as a case study. Here, flow and geometry of the river are simulated using CFD, in order to establish a baseline on the flow profile. Characteristics and behaviour of floating debris at this station were studied giving 28 kg per day as the total amount of floating debris accumulated. 1.64% per hour, as the clogging rate was also established. A peculiar louvered steel diverter is designed, that when installed at a pre-determined angle of 73�, a self-cleaning effect can be realized. A physical model test of this structure has also been performed with a good success in proving the concept, obtaining an efficiency of 85% on diverting the floating debris. A meticulous cost-benefit analysis was performed, giving a favourable result: 1.72 cost-benefit ratio and 2.8 years simple payback period. The results presented herein can improve the station's availability, while at the same time providing an alternative solution from the commonly available measures. � 2011 IEEE. Final 2023-12-28T07:05:39Z 2023-12-28T07:05:39Z 2011 Conference paper 10.1109/ISESEE.2011.5977100 2-s2.0-80052523673 https://www.scopus.com/inward/record.uri?eid=2-s2.0-80052523673&doi=10.1109%2fISESEE.2011.5977100&partnerID=40&md5=5ee640e0a1112f455f5fd4940f4f8d88 https://irepository.uniten.edu.my/handle/123456789/29562 5977100 12 16 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Computational fluid dynamic
Green technology
Mini hydro
Self-cleaning
Sustainability
Cleaning
Computational fluid dynamics
Cost benefit analysis
Cost effectiveness
Debris
Energy conservation
Investments
Cleaning procedures
Cost benefit ratio
Flow profile
Green technology
Malaysians
Mini-hydro
Payback periods
Physical model test
Self-cleaning
Self-cleaning effects
Sustainability indicators
Sustainable energy
Sustainable development
spellingShingle Computational fluid dynamic
Green technology
Mini hydro
Self-cleaning
Sustainability
Cleaning
Computational fluid dynamics
Cost benefit analysis
Cost effectiveness
Debris
Energy conservation
Investments
Cleaning procedures
Cost benefit ratio
Flow profile
Green technology
Malaysians
Mini-hydro
Payback periods
Physical model test
Self-cleaning
Self-cleaning effects
Sustainability indicators
Sustainable energy
Sustainable development
Chik M.N.
Hasini H.
Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
description Mini hydro can be among the most sustainable energy resource, appropriate for Malaysian condition. In its actual sense, 'availability' is one of the sustainability indicators, but choked intakes have been the main common issue that keep lowering the availability figure. This works aims to improve sustainability ranking of a mini hydro station by improving its availability through an improvement in its intake cleaning procedure. It takes Sg. Renyok Mini Hydro Station, located at Jeli, Kelantan, as a case study. Here, flow and geometry of the river are simulated using CFD, in order to establish a baseline on the flow profile. Characteristics and behaviour of floating debris at this station were studied giving 28 kg per day as the total amount of floating debris accumulated. 1.64% per hour, as the clogging rate was also established. A peculiar louvered steel diverter is designed, that when installed at a pre-determined angle of 73�, a self-cleaning effect can be realized. A physical model test of this structure has also been performed with a good success in proving the concept, obtaining an efficiency of 85% on diverting the floating debris. A meticulous cost-benefit analysis was performed, giving a favourable result: 1.72 cost-benefit ratio and 2.8 years simple payback period. The results presented herein can improve the station's availability, while at the same time providing an alternative solution from the commonly available measures. � 2011 IEEE.
author2 49561057700
author_facet 49561057700
Chik M.N.
Hasini H.
format Conference paper
author Chik M.N.
Hasini H.
author_sort Chik M.N.
title Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
title_short Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
title_full Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
title_fullStr Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
title_full_unstemmed Enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
title_sort enhancing sustainability of a mini hydro station through a self-cleaning debris diverter
publishDate 2023
_version_ 1806426400401391616
score 13.214268

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