WHOLE SYSTEM ANALYSIS ON DETERMINANT COMPONENTS OF JAKARTAâS FLOOD AND ITS RELATION WITH LANDUSE CHANGE IN UPSTREAM CILIWUNG WATERSHED
Flood known as disaster that have the most significant impact in the world. More than half of food stock in Asia was damaged during the flood disaster. Flood categorized as geo-hydrological disaster which cause by complex relation between physical, natural, artificial, and social environment that...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/44451 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Flood known as disaster that have the most significant impact in the world. More than half of food
stock in Asia was damaged during the flood disaster. Flood categorized as geo-hydrological disaster
which cause by complex relation between physical, natural, artificial, and social environment that
include the characteristic, function, organization, development, and human perception in associated
with geological and hydrological process. The increase of population led to high urbanization,
developed area, and reducing catchment area thereby increase the surface runoff and flood. This
reasearch look at the surface runoff as a system that can be influenced by intervention of increasing
taxes in order to control landuse change. The purpose of this study is to prove the conceptual model
that flood is not only caused by the physical but also social, economy, technology, and institution
components. The generated flow was calculated using hydrogeological model based on physical
process and then calibration was done to get the sensitive parameters. There are two senstive
parameter found in the model namely runoff curve number and surface runoff lag time. Relational
Tree Analysis used to obtain component that build the system then made into System
Interrelationship Model. Interventions carried out on River, Trees and Shrub, River Authority, and
Taxes components. Among the interventions, Tree and shrub is the most sensitive components that
can be developed to achieve the purpose of controlling surface runoff in the watershed. |
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