Dampak Sawitisasi Terhadap Lingkungan di Aceh Utara

Fasya, Teuku Kemal; Praza, Riyandhi; Fariadi, Dedi

doi:10.29103/ag.v7i1.8357

Cited by 1 publication

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“…The downstream area of the watershed often experiences flooding. The last major flood occurred in early December 2020 which caused 23 sub-districts affected and thousands of agricultural lands submerged causing crop failure [2]. Good watershed management is important to sustain the functionality of a watershed.…”

Section: Introductionmentioning

confidence: 99%

Flood peak estimation for the keureuto watershed using the hydrological modeling system HEC-HMS

Rama,

Fadhliani,

Khairullah

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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The Keureuto watershed has been the water resource used mainly for irrigation and municipal use. Extreme rainfall along with changes in the system may trigger rainfall excess causing flood at downstream. The occurrences may impact the usability of the system that supports the water resources supply. Investigating the impact of the floods requires initial research on the rainfall-runoff process of the watershed system. Rainfall-runoff modeling is an approach widely used for estimating the discharge hydrograph of the river as the result of the processes. The HEC-HMS rainfall-runoff model tool is applied in this study to estimate the peak flood discharge for the Keureto watershed located in the North Aceh region. The data used are satellite Global Precipitation Measurement (GPM) data and Automatic Water Level Recorder (AWLR) data at the watershed outlet. The 302 km2 Keureuto Watershed is divided into 23 sub-basins for the HEC-HMS model. The SCS Curve Number is applied to the model. The simulated freturncompared to the observed flow using the Nash Sutcliffe Efficiency criteria which returns the NSE value of 0.38 for seven years simulation, based on data of year 2015 to 2021. At an event based on October 2020 to March 2021, the NSE value returns 0.52, satisfactory for the simulation data range. The highest peak of the event is captured by the model simulation in the timing and the magnitude which value lower 20% from the observed flow.

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Section: Introductionmentioning

confidence: 99%