DESIGN OF KEDONGANAN BEACH FRONT AREA USING WATER SENSITIVE URBAN DESIGN CONCEPT APPROACH
Kedonganan Beach is one of the tourist attractions in Bali Province which is located in Kedonganan Village, Kuta District, Badung Regency. Kedonganan Beach is located within a 1 km radius of I Gusti Ngurah Rai International Airport, which known as transportation node with the highest passenger mo...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/57517 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Kedonganan Beach is one of the tourist attractions in Bali Province which is
located in Kedonganan Village, Kuta District, Badung Regency. Kedonganan
Beach is located within a 1 km radius of I Gusti Ngurah Rai International Airport,
which known as transportation node with the highest passenger mobility in Bali.
However, with these all potential, Kedonganan Beach and the surrounding area
are less organized and also have poor environmental quality. This is due to the
existence of the Kedonganan Fish Market, which currently does not have an
adequate waste water management system. In addition, Kedonganan Village is also
included in the South Bali area which is experiencing seawater intrusion that
caused by high groundwater exploration. The seawater intrusion that occurs has
resulted in the ground water in this area being unable to be utilized by the local
community. Therefore, the problem of seawater intrusion and wastewater treatment
that occurs in this area needs more attention.
This study was conducted with the aim of formulating the idea of designing the
Kedonganan Beach Front Area by applying the WSUD technique as the response
to water problems that occur in the area. The design method used is fragmental
method which begins with collecting issues related to the area and producing a
design simulation, with the total area is ± 8.87 Hectares. In general, the functions
that will be developed are functions that can accommodate work, living,
recreational, and educational activities. The design simulation includes land use,
building mass and intensity, circulation and pedestrian network system, open
space, signage system, preservation, activity support, and utilities system. The
WSUD techniques that applied in the area are techniques with the focus on
accelerating infiltration into the soil by developing building areas and open spaces
as rainwater harvesting areas. |
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