Debris Flow Simulation for Dam Safety Assessment in Malaysia
Debris and mud floods are the last stages in the overall debris flow process. This event occurred in multiple catchments around Gunung Jerai on the 18th of August 2023, leading to flooding�in several parts of the Yan District�which situated to the west of Gunung Jerai. The debris flow disasters in S...
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my.uniten.dspace-344382024-10-14T11:19:47Z Debris Flow Simulation for Dam Safety Assessment in Malaysia Wahab W.A. Aripin M.F.S.M. Jaapar A.R. Omar R.C. Isa A.A.M. Ali A. Zakaria M.S. Roslan R. Taher T.M. 56040257700 58905464800 57361879800 35753735300 58074943900 57200962128 58906505800 57159693200 57195257852 Aerial photogrammetric mapping Dam safety Debris flow Geohazard Geomorphological analysis Landslide Terrestrial laser scanner Debris and mud floods are the last stages in the overall debris flow process. This event occurred in multiple catchments around Gunung Jerai on the 18th of August 2023, leading to flooding�in several parts of the Yan District�which situated to the west of Gunung Jerai. The debris flow disasters in Seri Perigi Catchment, Titi Hayun Catchment, and Batu Hampar Catchment show the consequences of natural temporary dam breaches resulting from two geomorphological setting: temporary landslide dams and narrow river mouth due to topography. This study used modelling and simulation�techniques to compute the debris flow�s volume, velocity, momentum, and pressure resulting from the geological disaster. Debris flow simulation�revealed a total volume of 64,364.69 m3 debris was recorded in the Seri Perigi Catchment area, 642,596.60 m3 total volume in the Titi Hayun Catchment, and 595,632.89 m3 total volume of debris flow in the Batu Hampar Catchment. The average velocity of this debris flow is between 12.90�m/s and 18.75�m/s with an average momentum between 20.96 kgm/s and 109.07 kgm/s. The field mapping, modelling, and simulation outcomes indicate significant geological events related to debris flow occur�in Seri Perigi Catchment, Titi Hayun Catchment, and Batu Hampar Catchment. In contrast, other catchments faced comparatively minor debris flow or extreme water surge phenomena. With these simulations, it is possible to assess the potential future risks of geological disasters caused by debris flow and pinpoint the optimal location for the Sabo Dam. This information can greatly assist local authorities in devising and implementing both structural and non-structural mitigation plans. � The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2023. Final 2024-10-14T03:19:47Z 2024-10-14T03:19:47Z 2023 Book chapter 10.1007/978-981-99-3708-0_67 2-s2.0-85185952454 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185952454&doi=10.1007%2f978-981-99-3708-0_67&partnerID=40&md5=5424c860e41262b70a7e3f4fcf04f741 https://irepository.uniten.edu.my/handle/123456789/34438 Part F2265 963 974 Springer Science and Business Media Deutschland GmbH Scopus |
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Aerial photogrammetric mapping Dam safety Debris flow Geohazard Geomorphological analysis Landslide Terrestrial laser scanner |
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Aerial photogrammetric mapping Dam safety Debris flow Geohazard Geomorphological analysis Landslide Terrestrial laser scanner Wahab W.A. Aripin M.F.S.M. Jaapar A.R. Omar R.C. Isa A.A.M. Ali A. Zakaria M.S. Roslan R. Taher T.M. Debris Flow Simulation for Dam Safety Assessment in Malaysia |
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Debris and mud floods are the last stages in the overall debris flow process. This event occurred in multiple catchments around Gunung Jerai on the 18th of August 2023, leading to flooding�in several parts of the Yan District�which situated to the west of Gunung Jerai. The debris flow disasters in Seri Perigi Catchment, Titi Hayun Catchment, and Batu Hampar Catchment show the consequences of natural temporary dam breaches resulting from two geomorphological setting: temporary landslide dams and narrow river mouth due to topography. This study used modelling and simulation�techniques to compute the debris flow�s volume, velocity, momentum, and pressure resulting from the geological disaster. Debris flow simulation�revealed a total volume of 64,364.69 m3 debris was recorded in the Seri Perigi Catchment area, 642,596.60 m3 total volume in the Titi Hayun Catchment, and 595,632.89 m3 total volume of debris flow in the Batu Hampar Catchment. The average velocity of this debris flow is between 12.90�m/s and 18.75�m/s with an average momentum between 20.96 kgm/s and 109.07 kgm/s. The field mapping, modelling, and simulation outcomes indicate significant geological events related to debris flow occur�in Seri Perigi Catchment, Titi Hayun Catchment, and Batu Hampar Catchment. In contrast, other catchments faced comparatively minor debris flow or extreme water surge phenomena. With these simulations, it is possible to assess the potential future risks of geological disasters caused by debris flow and pinpoint the optimal location for the Sabo Dam. This information can greatly assist local authorities in devising and implementing both structural and non-structural mitigation plans. � The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2023. |
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56040257700 |
author_facet |
56040257700 Wahab W.A. Aripin M.F.S.M. Jaapar A.R. Omar R.C. Isa A.A.M. Ali A. Zakaria M.S. Roslan R. Taher T.M. |
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Book chapter |
author |
Wahab W.A. Aripin M.F.S.M. Jaapar A.R. Omar R.C. Isa A.A.M. Ali A. Zakaria M.S. Roslan R. Taher T.M. |
author_sort |
Wahab W.A. |
title |
Debris Flow Simulation for Dam Safety Assessment in Malaysia |
title_short |
Debris Flow Simulation for Dam Safety Assessment in Malaysia |
title_full |
Debris Flow Simulation for Dam Safety Assessment in Malaysia |
title_fullStr |
Debris Flow Simulation for Dam Safety Assessment in Malaysia |
title_full_unstemmed |
Debris Flow Simulation for Dam Safety Assessment in Malaysia |
title_sort |
debris flow simulation for dam safety assessment in malaysia |
publisher |
Springer Science and Business Media Deutschland GmbH |
publishDate |
2024 |
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1814060095656427520 |
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