Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures

Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures

The aged dams in Perak river Hydro-Electric Scheme (HES) have been constructed decades ago and a common concern raised during dam safety reviews is that they were not designed to safely reroute the Probable Maximum Flood (PMF) but rather the Inflow Design Flood (IDF) of 1,000 years� design floods. F...

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Main Authors: Azha S.F., Sidek L.M., Kok K., Ahmad S.A., Saman D.H., Allias Omar S.M., Basri H., Zawawi M.H., Ahmed A.N.
Other Authors: 56166798400
Format: Article
Published: Ain Shams University 2024
Subjects:
Mitigation Measures
Overtopping Failures
Perak River HES
Probable Maximum Flood (PMF)
Probable Maximum Precipitation (PMP)
Spillway Discharge Capacity
Water Energy Security
Dams
Decision making
Energy security
Failure (mechanical)
Floods
Information management
Rain
Risk management
Safety engineering
Spillways
Discharge capacities
Hydro electric
Mitigation measures
Overtopping failures
Perak river hydro-electric scheme
Probable maximum flood
Probable maximum floods
Probable maximum precipitation
Spillway discharge capacity
Water energy
Water energy security
Rivers
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-340272024-10-14T11:17:42Z Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures Azha S.F. Sidek L.M. Kok K. Ahmad S.A. Saman D.H. Allias Omar S.M. Basri H. Zawawi M.H. Ahmed A.N. 56166798400 35070506500 55812179300 58679834900 58679062000 58025195200 57065823300 39162217600 57214837520 Mitigation Measures Overtopping Failures Perak River HES Probable Maximum Flood (PMF) Probable Maximum Precipitation (PMP) Spillway Discharge Capacity Water Energy Security Dams Decision making Energy security Failure (mechanical) Floods Information management Rain Risk management Safety engineering Spillways Discharge capacities Hydro electric Mitigation measures Overtopping failures Perak river hydro-electric scheme Probable maximum flood Probable maximum floods Probable maximum precipitation Spillway discharge capacity Water energy Water energy security Rivers The aged dams in Perak river Hydro-Electric Scheme (HES) have been constructed decades ago and a common concern raised during dam safety reviews is that they were not designed to safely reroute the Probable Maximum Flood (PMF) but rather the Inflow Design Flood (IDF) of 1,000 years� design floods. Failure due to the insufficient spillway discharge capacity has been identified as one of the primary causes leading to overtopping. This applied research has thus been initiated to evaluate the spillway discharge capacity of dams in response to PMF extreme flooding. Besides, the safety of the dams has been evaluated by calculating the highest flood level achieved in response to the specified extreme floods. In order to simulate PMF hydrographs, various durations of Probable Maximum Precipitation (PMP) have been calculated using Hershfield statistical approach based on historical annual maximum rainfall statistics. Using a calibrated and validated hydrological model developed in HEC-HMS, PMF simulation was performed. It was discovered that the PMF generated at 120 hrs (5 days) resulted in the maximum flood level for all dams/reservoirs. The achieved highest PMF flood levels are still lower than the designated dam core and crest level in respective dams, indicating that the dams in Perak river HES are safe from overtopping failures during the occurrences of extreme events up to PMF level. While routing the worst-case scenario over 120 hr, the maximum spillway discharges predicted for Temengor and Bersia are beyond their design capacity, while Kenering and Chenderoh remain within design limits. Mitigation that will be implemented to minimize the possibility of risks to occur include improvement of emergency management system and dams monitoring data collection. It is anticipated that the outcomes of this applied research will be adopted for development of Risk Informed Decision Making (RIDM) frameworks for dams in Perak river HES in future. � 2023 THE AUTHORS Final 2024-10-14T03:17:42Z 2024-10-14T03:17:42Z 2023 Article 10.1016/j.asej.2023.102540 2-s2.0-85175606061 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85175606061&doi=10.1016%2fj.asej.2023.102540&partnerID=40&md5=bfb11bcf35c9842417bfec3a42597828 https://irepository.uniten.edu.my/handle/123456789/34027 14 11 102540 All Open Access Gold Open Access Ain Shams University 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 Mitigation Measures
Overtopping Failures
Perak River HES
Probable Maximum Flood (PMF)
Probable Maximum Precipitation (PMP)
Spillway Discharge Capacity
Water Energy Security
Dams
Decision making
Energy security
Failure (mechanical)
Floods
Information management
Rain
Risk management
Safety engineering
Spillways
Discharge capacities
Hydro electric
Mitigation measures
Overtopping failures
Perak river hydro-electric scheme
Probable maximum flood
Probable maximum floods
Probable maximum precipitation
Spillway discharge capacity
Water energy
Water energy security
Rivers
spellingShingle Mitigation Measures
Overtopping Failures
Perak River HES
Probable Maximum Flood (PMF)
Probable Maximum Precipitation (PMP)
Spillway Discharge Capacity
Water Energy Security
Dams
Decision making
Energy security
Failure (mechanical)
Floods
Information management
Rain
Risk management
Safety engineering
Spillways
Discharge capacities
Hydro electric
Mitigation measures
Overtopping failures
Perak river hydro-electric scheme
Probable maximum flood
Probable maximum floods
Probable maximum precipitation
Spillway discharge capacity
Water energy
Water energy security
Rivers
Azha S.F.
Sidek L.M.
Kok K.
Ahmad S.A.
Saman D.H.
Allias Omar S.M.
Basri H.
Zawawi M.H.
Ahmed A.N.
Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures
description The aged dams in Perak river Hydro-Electric Scheme (HES) have been constructed decades ago and a common concern raised during dam safety reviews is that they were not designed to safely reroute the Probable Maximum Flood (PMF) but rather the Inflow Design Flood (IDF) of 1,000 years� design floods. Failure due to the insufficient spillway discharge capacity has been identified as one of the primary causes leading to overtopping. This applied research has thus been initiated to evaluate the spillway discharge capacity of dams in response to PMF extreme flooding. Besides, the safety of the dams has been evaluated by calculating the highest flood level achieved in response to the specified extreme floods. In order to simulate PMF hydrographs, various durations of Probable Maximum Precipitation (PMP) have been calculated using Hershfield statistical approach based on historical annual maximum rainfall statistics. Using a calibrated and validated hydrological model developed in HEC-HMS, PMF simulation was performed. It was discovered that the PMF generated at 120 hrs (5 days) resulted in the maximum flood level for all dams/reservoirs. The achieved highest PMF flood levels are still lower than the designated dam core and crest level in respective dams, indicating that the dams in Perak river HES are safe from overtopping failures during the occurrences of extreme events up to PMF level. While routing the worst-case scenario over 120 hr, the maximum spillway discharges predicted for Temengor and Bersia are beyond their design capacity, while Kenering and Chenderoh remain within design limits. Mitigation that will be implemented to minimize the possibility of risks to occur include improvement of emergency management system and dams monitoring data collection. It is anticipated that the outcomes of this applied research will be adopted for development of Risk Informed Decision Making (RIDM) frameworks for dams in Perak river HES in future. � 2023 THE AUTHORS
author2 56166798400
author_facet 56166798400
Azha S.F.
Sidek L.M.
Kok K.
Ahmad S.A.
Saman D.H.
Allias Omar S.M.
Basri H.
Zawawi M.H.
Ahmed A.N.
format Article
author Azha S.F.
Sidek L.M.
Kok K.
Ahmad S.A.
Saman D.H.
Allias Omar S.M.
Basri H.
Zawawi M.H.
Ahmed A.N.
author_sort Azha S.F.
title Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures
title_short Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures
title_full Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures
title_fullStr Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures
title_full_unstemmed Assessing dam spillway discharge capacity in response to extreme floods in Perak river hydroelectric scheme: Simulation and proposed mitigation measures
title_sort assessing dam spillway discharge capacity in response to extreme floods in perak river hydroelectric scheme: simulation and proposed mitigation measures
publisher Ain Shams University
publishDate 2024
_version_ 1814061163454922752

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