Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme

One of the potential risks attributed to the occurrence of dam overtopping and dam wall failure due to the inadequacy of the spillway capacities is the loss of life and property damages in the downstream area. The current practices in most countries in minimizing these risks are by analyzing the ext...

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Main Authors: Razali J., Sidek L.M., Rashid M.A., Hussein A., Marufuzzaman M.
Other Authors: 42862303000
Format: Article
Published: Science Publishing Corporation Inc 2023
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spelling my.uniten.dspace-241072023-05-29T14:55:32Z Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme Razali J. Sidek L.M. Rashid M.A. Hussein A. Marufuzzaman M. 42862303000 35070506500 55812328000 57205235199 57205234835 One of the potential risks attributed to the occurrence of dam overtopping and dam wall failure due to the inadequacy of the spillway capacities is the loss of life and property damages in the downstream area. The current practices in most countries in minimizing these risks are by analyzing the extreme precipitation that leads to extreme flood. Extreme precipitation is best known as Probable Maximum Precipitation (PMP) and this estimation is useful in determining Probable Maximum Flood (PMF) in reviewing the spillway adequacy of dam structures. This paper presented PMP estimations using two approaches; physical method (Hydro-meteorological Method) and statistical approach (Hershfield's Method) at the Sungai Perak Hydroelectric Scheme that consists of four cascading dams namely Temengor dam, Bersia dam, Kenering dam and Chenderoh dam. The highest PMP estimates from these two methods will be chosen as the rainfall input to establish PMF hydrographs. Estimations using Hydro-meteorological generalized map produces 40-50% higher estimates compared to Hersfield's method with the PMP values of 550mm (1hours), 600mm (3hours), 800mm (6hours), 820mm (12hours), 1300mm (24hour) and 1600mm (72 hours). Accepting the Hydro-meteorological Method to determine PMF values for this hydroelectric scheme may be the best course since the estimations of the extreme precipitations using this method are the highest. � 2018 Authors. Final 2023-05-29T06:55:32Z 2023-05-29T06:55:32Z 2018 Article 10.14419/ijet.v7i4.35.22922 2-s2.0-85059226535 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85059226535&doi=10.14419%2fijet.v7i4.35.22922&partnerID=40&md5=37afbf33ce46dd36fc400336f2c68a03 https://irepository.uniten.edu.my/handle/123456789/24107 7 4 603 608 Science Publishing Corporation Inc Scopus
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description One of the potential risks attributed to the occurrence of dam overtopping and dam wall failure due to the inadequacy of the spillway capacities is the loss of life and property damages in the downstream area. The current practices in most countries in minimizing these risks are by analyzing the extreme precipitation that leads to extreme flood. Extreme precipitation is best known as Probable Maximum Precipitation (PMP) and this estimation is useful in determining Probable Maximum Flood (PMF) in reviewing the spillway adequacy of dam structures. This paper presented PMP estimations using two approaches; physical method (Hydro-meteorological Method) and statistical approach (Hershfield's Method) at the Sungai Perak Hydroelectric Scheme that consists of four cascading dams namely Temengor dam, Bersia dam, Kenering dam and Chenderoh dam. The highest PMP estimates from these two methods will be chosen as the rainfall input to establish PMF hydrographs. Estimations using Hydro-meteorological generalized map produces 40-50% higher estimates compared to Hersfield's method with the PMP values of 550mm (1hours), 600mm (3hours), 800mm (6hours), 820mm (12hours), 1300mm (24hour) and 1600mm (72 hours). Accepting the Hydro-meteorological Method to determine PMF values for this hydroelectric scheme may be the best course since the estimations of the extreme precipitations using this method are the highest. � 2018 Authors.
author2 42862303000
author_facet 42862303000
Razali J.
Sidek L.M.
Rashid M.A.
Hussein A.
Marufuzzaman M.
format Article
author Razali J.
Sidek L.M.
Rashid M.A.
Hussein A.
Marufuzzaman M.
spellingShingle Razali J.
Sidek L.M.
Rashid M.A.
Hussein A.
Marufuzzaman M.
Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme
author_sort Razali J.
title Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme
title_short Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme
title_full Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme
title_fullStr Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme
title_full_unstemmed Probable Maximum Precipitation comparison using hershfield's statistical method and hydro-meteorological method for Sungai Perak Hydroelectric Scheme
title_sort probable maximum precipitation comparison using hershfield's statistical method and hydro-meteorological method for sungai perak hydroelectric scheme
publisher Science Publishing Corporation Inc
publishDate 2023
_version_ 1806426515095683072
score 13.222552