ANALYSIS OF CHANGES IN DISCHARGE AND FLOOD POTENTIAL AND CHANGES IN THE MORPHOLOGY OF THE TRUNEN RIVER DUE TO THE DEVELOPMENT OF THE IKN AREA, PENAJAM PASER UTARA DISTRICT
Driven by critical conditions in the capital city of Jakarta such as traffic congestion, land subsidence, pollution, flooding, and increased population density, in 2022 the State Capital Law has been enacted regarding the relocation of the capital city of DKI Jakarta to the Capital City of the Ar...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/87219 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Driven by critical conditions in the capital city of Jakarta such as traffic
congestion, land subsidence, pollution, flooding, and increased population density,
in 2022 the State Capital Law has been enacted regarding the relocation of the
capital city of DKI Jakarta to the Capital City of the Archipelago (IKN) in Penajam
Paser Utara Regency, East Kalimantan. As a result, in the next few years the
watershed area in IKN will experience land use change, especially in the Trunen
River, Trunen Sub Das. This study discusses the effect of land use change due to
the construction of the State Capital of the Archipelago which results in changes in
flood discharge so that it is necessary to research the effects of moving the state
capital and minimize negative effects if they occur such as potential flooding. The
analysis carried out includes hydrological analysis, tidal analysis and hydraulics
analysis. Flood Discharge Modeling using HEC-HMS with Qbankfull discharge
calibration. Flood modeling using HEC-RAS dmodel 1-D and 2-D using 100-year
return period discharge as upstream boundary and tidal HWL as downstream
boundary of modeling. Sediment modeling was conducted with quasi unsteady flow
and sediment rating curve at the upstream boundary and tidal hydrograph as the
downstream boundary. Flood and sediment modeling was carried out with several
scenarios of combinations between discharge, geometry and flood control buildings
in the form of retention ponds, normalization, embankments and groundsills. The
output produced in this research is the effect of land use change due to the
construction of IKN on flood discharge, flow velocity, and how riverbed changes
occur before and after the existence of flood control structures. Based on the results
of the modeling, the land use change resulted in a change in CN value from 78.3 to
83.9 as well as a change in the 2-year return period flood discharge from 67.6 m3/s
to 83.4 m3/s and a change in the 100-year return period flood discharge from 270.1
m3/s to 301.8 m3/s. In flood modeling a return period of 100 years is used and there
is an average runoff between 0.5-2 m in existing conditions. In sediment modeling
there is an average degradation of 15.8 cm/year. From these results, an alternative
of building 1 retention ponds, river normalization and widening, embankments, 6
groundsills was proposed and was able to reduce the average water level by ± 31
cm, reduce the average flow velocity by ± 0.36 m/s, reduce the average degradation
of the riverbed by ± 13.4-13.9 cm/year and reduce the erosion rate by ± 2.42
tons/day. The results of this study are expected to be a reference for stakeholders in making decisions related to flood management and sedimentation/erosion in the
Trunen River so as to reduce the negative impacts that may occur in the region.
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