EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI

Tsunami could penetrate up far upstream of the river and brought serious damage to in-river structures and flooded the residential area. Mitigating propagated wave conventionally by raising the river embankment was ineffective and amplified tsunami force in the river. Relocating the river embankmen...

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Main Authors: Rajuli Amra, Samsunan
Format: Article
Language:Indonesian
Published: Jurusan Teknik Sipil Universitas Syiah Kuala 2020-05-01
Series:Jurnal Teknik Sipil
Subjects:
Online Access:http://jurnal.unsyiah.ac.id/JTS/article/view/15735
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spelling doaj-b46fa0e28da84c65a10c633a78cdf13d2020-11-25T02:27:07ZindJurusan Teknik Sipil Universitas Syiah KualaJurnal Teknik Sipil2088-93212502-52952020-05-0191102010.24815/jts.v9i1.15735EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAIRajuli Amra0Samsunan1 Universitas Teuku UmarUniversitas Teuku UmarTsunami could penetrate up far upstream of the river and brought serious damage to in-river structures and flooded the residential area. Mitigating propagated wave conventionally by raising the river embankment was ineffective and amplified tsunami force in the river. Relocating the river embankment in specific configuration which resulted the “extra room”, succesfuly dissipate the tsunami flow in river. The effectivity of this approach was constrained by room capacity and layout. This research investigated the most effective layout for “extra-room” application against tsunami in the meandering river. The investigation conducted numerically using COMCOT model to simulate 60-minutestsunami for 2m wave height. The symmetric moderate sinous-river planform (θ0=600, length=1 km, withd= 0,4 km) was modelled using sine-generated curve, while the bed topography adopted the tranversal bed elevation concept. Using the stiff-assumption for various layout scenario, the result revealed that along-river enlargement proved more effective in dissipating the tsunami height by 63%, compare to lateral-river expansion. In addition, enlarging the river capacity at the inflection point gave less effect, compare than widening the room at the river mouth area. The applicability of the proposed mitigation concept was not applied universally, in which the embankment overtopping and riverine inundation might still occur when intial tsunami wave height exceeds the tsunami design amplitude. http://jurnal.unsyiah.ac.id/JTS/article/view/15735tsunamiextra-roomalternative mitigationmeandering rivernumerical simulation
collection DOAJ
language Indonesian
format Article
sources DOAJ
author Rajuli Amra
Samsunan
spellingShingle Rajuli Amra
Samsunan
EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI
Jurnal Teknik Sipil
tsunami
extra-room
alternative mitigation
meandering river
numerical simulation
author_facet Rajuli Amra
Samsunan
author_sort Rajuli Amra
title EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI
title_short EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI
title_full EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI
title_fullStr EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI
title_full_unstemmed EFEKTIFITAS KONSEP RUANG EKSTRA SEBAGAI ALTERNATIF MITIGASI PENJALARAN TSUNAMI DI SUNGAI
title_sort efektifitas konsep ruang ekstra sebagai alternatif mitigasi penjalaran tsunami di sungai
publisher Jurusan Teknik Sipil Universitas Syiah Kuala
series Jurnal Teknik Sipil
issn 2088-9321
2502-5295
publishDate 2020-05-01
description Tsunami could penetrate up far upstream of the river and brought serious damage to in-river structures and flooded the residential area. Mitigating propagated wave conventionally by raising the river embankment was ineffective and amplified tsunami force in the river. Relocating the river embankment in specific configuration which resulted the “extra room”, succesfuly dissipate the tsunami flow in river. The effectivity of this approach was constrained by room capacity and layout. This research investigated the most effective layout for “extra-room” application against tsunami in the meandering river. The investigation conducted numerically using COMCOT model to simulate 60-minutestsunami for 2m wave height. The symmetric moderate sinous-river planform (θ0=600, length=1 km, withd= 0,4 km) was modelled using sine-generated curve, while the bed topography adopted the tranversal bed elevation concept. Using the stiff-assumption for various layout scenario, the result revealed that along-river enlargement proved more effective in dissipating the tsunami height by 63%, compare to lateral-river expansion. In addition, enlarging the river capacity at the inflection point gave less effect, compare than widening the room at the river mouth area. The applicability of the proposed mitigation concept was not applied universally, in which the embankment overtopping and riverine inundation might still occur when intial tsunami wave height exceeds the tsunami design amplitude.
topic tsunami
extra-room
alternative mitigation
meandering river
numerical simulation
url http://jurnal.unsyiah.ac.id/JTS/article/view/15735
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