ANALISIS EFEKTIVITAS DAN JEJAK KARBON ELEVATED ROAD DALAM MITIGASI TSUNAMI (STUDI KASUS: KECAMATAN LABUAN, KABUPATEN PANDEGLANG, BANTEN)

Putri, Dea Devina (2025) ANALISIS EFEKTIVITAS DAN JEJAK KARBON ELEVATED ROAD DALAM MITIGASI TSUNAMI (STUDI KASUS: KECAMATAN LABUAN, KABUPATEN PANDEGLANG, BANTEN). Tugas Akhir (S1) - thesis, Universitas Bakrie.

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Abstract

Indonesia is one of the countries at high risk of tsunami disasters, particularly in coastal areas such as Labuan Subdistrict, Pandeglang Regency. One notable example is the 2018 Sunda Strait Tsunami, which resulted in 431 fatalities and significant infrastructure damage. On the other hand, infrastructure development as a form of mitigation must also consider long-term environmental impacts, particularly carbon emissions that contribute to climate change. This study aims to analyze the effectiveness of a 6-meter-high and 6-kilometer-long elevated road as a structural mitigation measure against tsunami waves, as well a to calculate the carbon footprint generated from construction material needs and transportation. Tsunami propagation simulations were carried out using the COMCOT software based on two scenarios: without an elevated road (Scenario 1) and with an elevated road (Scenario 2). The simulation results show that the elevated road can reduce tsunami wave energy and decrease the inundation area by up to 30,62%. Meanwhile, the carbon emission calculations show a total emission of 30.914,38 tons of CO2e, with the largest contribution from construction material demand (85%) and the rest from material transportation (15%). These findings indicate that while the elevated road is effective in reducing tsunami risk, its construction also results in significant carbon emissions, highlighting the need for the use of environmentally friendly materials to reduce the carbon footprint.

Item Type: Thesis (Tugas Akhir (S1) - )
Uncontrolled Keywords: Tsunami, Elevated road, Mitigasi Bencana, COMCOT, Carbon Footprint
Subjects: Civil Engineering > Construction Material
Civil Engineering > Hydraulic Engineering
Civil Engineering > Sustainable Construction Management
Thesis > Thesis (S1)
Divisions: Fakultas Teknik dan Ilmu Komputer > Program Studi Teknik Sipil
Depositing User: Dea Devina Putri
Date Deposited: 28 May 2025 01:46
Last Modified: 28 May 2025 01:46
URI: https://repository.bakrie.ac.id/id/eprint/11659

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