Analisis Debit Banjir Rencana di DAS Cimanceuri
Date
2025Metadata
Show full item recordAbstract
Debit banjir rencana penting untuk diketahui dalam upaya pengendalian
banjir di suatu Daerah Aliran Sungai. Cara terbaik untuk menduga debit banjir
rencana adalah menggunakan analisis frekuensi atau metode empiris berdasarkan
debit historis, namun data debit historis jarang tersedia di Indonesia. Penelitian ini
bertujuan menganalisis perbedaan model pendugaan debit banjir rencana
menggunakan Metode Rasional dan Metode Hidrograf Satuan Sintetik Nakayasu di
DAS Cimanceuri berdasarkan curah hujan CHIRPS dan curah hujan observasi.
Hasil penelitian menunjukan bahwa Metode Rasional menghasilkan pendugaan
debit banjir rencana lebih besar dibandingkan dengan Metode HSS Nakayasu baik
menggunakan CHIRPS maupun curah hujan observasi. Data CHIRPS sendiri lebih
kecil dibandingkan data hujan observasi. Hujan CHIRPS dengan kala ulang 2-100
tahun 61,4 mm/hr-118,9 mm/hr menghasilkan debit banjir rencana berdasarkan
Metode Rasional 109,2 m3/det hingga 231,6 m3/det, sedangkan menggunakan
Metode HSS Nakayasu 45,1 m3/det hingga 104,1 m3/det . Curah hujan observasi
dengan kala ulang 2-100 tahun (94,4 mm/hr-241,8 mm/hr) menghasilkan debit
banjir rencana dengan berdasarkan Metode Rasional (168,7 m3/det-470.6 m3/det)
dan (66,5 m3/det hingga 211,7 m3/det) berdasarkan Metode HSS Nakayasu. Design flood discharge is crucial for designing hydraulic structures to control
flooding in watersheds. The most accurate way to estimate design flood discharges
is through frequency analysis or empirical methods based on log-term historical
discharge data. However, such long-term data are rarely available, especially in
Indonesia. This study aims to compare the estimates of design flood discharge
derived from the Rational Method and the Nakayasu Synthetic Unit Hydrograph
method in the Cimanceuri watershed, using daily CHIRPS rainfall and observation
rainfall. The results show that the Rational Method tends to produce higher estimate
of design flood discharge than the Nakayasu Synthetic Unit Hydrograph Method,
whatever using both observed rainfall or CHIRPS. The CHIRPS rainfall data itself
records lower values than the observed rainfall data. CHIRPS rainfall with a
recurrence period of 2-100 years 61.4 mm/day-118.9 mm/day yields a design flood
discharge 109.2 m3/sec to 231.6 m3/sec using Rational Method, while the Nakayasu
HSS Method gives 45.1 m3/sec-104.1 m3/sec. for observed rainfall with a
recurrence period of 2-100 years (94.4 mm/day-241.8 mm/day) resulted in flood
discharge ranges from (168.7 m3/sec-470.6 m3/sec) using Rational Method and
from 66.5 m3/sec-211.7 m3/sec) based on the Nakayasu HSS Method.
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