DESIGN OF CARRIER CHANNEL SYSTEMS, WATER GATES AND EMBANKMENT OF CILINCING FLOOD RESILIENT HOUSING
The coastal area of DKI Jakarta is predicted to be susceptible to submersion due to rising global sea levels compounded by land subsidence in Jakarta resulting from excessive groundwater usage. Additionally, the continuous elevation of sea levels and extreme weather conditions further contribute...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77917 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The coastal area of DKI Jakarta is predicted to be susceptible to submersion
due to rising global sea levels compounded by land subsidence in Jakarta resulting
from excessive groundwater usage. Additionally, the continuous elevation of sea
levels and extreme weather conditions further contribute to flooding in the coastal
region of DKI Jakarta. Based on data from the Regional Disaster Management
Agency of DKI Jakarta Province, one of the most flood-prone coastal areas within
DKI Jakarta is the Cilincing District. This district is also recognized as a densely
populated area where flood mitigation infrastructure is needed around the homes of
Cilincing's residents. Hence, an inundation-resistant area with an effective drainage
system is imperative.
This final project will delve into the Design of Conduit System, Floodgate, and
Embankment for the Cilincing Flood Resilient Housing, aimed at supporting the
functionality of flood-resistant floating houses in the area. The primary focus of this
project is to facilitate the flow of water from the conduit system to a reservoir beneath
the structure, allowing the houses to float. Designing the hydraulic engineering
involves input from hydrological analyses. The hydrological analysis in this context
encompasses calculations of hydrographs and projected rainfall. The results of this
hydrological analysis, particularly the hydrograph, will be used as input for the flood
modeling in HEC-RAS software, determining the planned flood level to establish the
height of the design embankment. In the design of the conduit system, the scope
includes determining dimensions for inflow and outflow conduits, the layout of the
conduit network, and a pumping system to drain water from the reservoir beneath
the buildings. The embankment design entails determining the width, height, type,
and gradient of the embankment. As for the floodgate design, the scope encompasses
specifying the height, width, and thickness of the floodgate.
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