FORECASTING AND EVALUATING THE EFFECTS OF SEDIMENTATION RATES IN THE UPSTREAM CIKAPUNDUNG RIVER ON RAW WATER QUALITY
Nowadays, the challenge of providing clean water is getting tougher, especially due to the limitation of raw water sources both in quantity and quality. Weak pollution control and conservation of water resources and the environment, as well as low public awareness of water resource protection are...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/86283 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Nowadays, the challenge of providing clean water is getting tougher,
especially due to the limitation of raw water sources both in quantity and quality.
Weak pollution control and conservation of water resources and the environment,
as well as low public awareness of water resource protection are the causes of this
problem. The Cikapundung River is one of the tributaries in the Upper Citarum
watershed with a length of 28 km. The upper reaches of the Cikapundung River
often experiences erosion problems and also the disposal of livestock waste. These
activities contribute the most to the sedimentation process which results in siltation
of the riverbed and a decline in water quality. This condition can certainly interfere
with the function of the Cikapundung River, especially as a raw water source for
the Regional Drinking Water Company (PDAM) of Bandung City, especially at the
Bantar Awi intake. This study aims to assess the impact of sedimentation in the
upper Cikapundung River on water quality by comparing it to water quality
standards. Analysis of sediment samples revealed that the dominant sediment
characteristics are coarse sand and fine sand. A sediment transport simulation
using HEC-RAS with the Toffaletti equation was conducted to predict sediment
deposition rates in the Cikapundung River over 22 years, from 2000 to 2022. The
simulation results indicate a total sediment input of 125,700 tons. Of this amount,
107,679 tons were deposited on the riverbed, while 18,021 tons were carried
downstream. Additionally, the sediment transport simulation provided data on total
suspended solids (TSS) concentrations. Generally, TSS concentrations in the
Cikapundung River meet Class 1 water quality standards. The sediment
concentration values from the simulation reflect natural dynamics within the river,
without accounting for external waste inputs. Therefore, it can be concluded that
the increase in TSS concentration in the Cikapundung River is primarily due to
pollution from livestock waste. Higher TSS concentrations lead to increased water
turbidity, which, in turn, raises the need for coagulants in the water treatment process.
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