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http://repository.ipb.ac.id/handle/123456789/113926| Title: | Estimasi Sebaran Banjir Menggunakan Model HEC-RAS 2D (Studi Kasus : DAS Anai, Sumatera Barat) |
| Other Titles: | Estimated Flood Distribution Using the 2D HEC-RAS Model (Case Study: Anai Watershed, West Sumatra) |
| Authors: | Dasanto, Bambang Dwi Perdinan Sandy, Ikhsanul Putra |
| Issue Date: | 2022 |
| Publisher: | IPB University |
| Abstract: | Sungai Anai berpotensi menimbulkan banjir di wilayah Kabupaten Padang
Pariaman, khususnya pada ruas Jembatan Kayu Gadang sampai Jembatan Batang
Anai. Hal tersebut diakibatkan curah hujan yang tinggi, menurunnya kualitas dan
kuantitas sistem drainase, alih fungsi lahan, berkurangnya daerah resapan air di hulu
DAS, dan perilaku masyarakat. Penelitian ini bertujuan untuk mengestimasi lokasi,
kedalaman, dan luasan sebaran genangan banjir menggunakan model HEC-RAS
(2D). Estimasi sebaran banjir dimulai dari penentuan debit kejadian banjir,
pembuatan model yang terdiri dari pre-processing, running HEC-RAS, dan post
processing. Hasil model diuji dengan citra observasi (Landsat-8) menggunakan
metode Tasseled Cap Transformation untuk menentukan Wetness Index berupa
kelembapan tanah. Banjir hasil model menunjukkan wilayah terdampak banjir
mencakup 5 Nagari atau Desa. Genangan terluas dan terdalam dari empat kejadian
banjir terletak di Nagari Sungai Buluah sebesar 547,44 Ha. Nagari Buayan menjadi
Nagari dengan luas wilayah total terdampak tertinggi sebesar 20,8% dari total luas
wilayah. Akurasi keluaran model paling tinggi 72%, artinya 72% model dapat
diimplementasikan dalam estimasi banjir. The Anai River has the potential to cause flooding in the Padang Pariaman Regency area, especially on the Kayu Gadang Bridge to Batang Anai Bridge. This is due to high rainfall, decreased quality and quantity of drainage systems, land conversion, reduced water catchment areas in upstream watersheds, and community behavior. This study aims to estimate the location, depth, and distribution of flood inundation using the HEC-RAS (2D) model. The estimation of flood distribution starts from determining the discharge of flood events, making a model consisting of pre-processing, running HEC RAS, and post-processing. The results of the model were tested with observational images (Landsat-8) using the Tasseled Cap Transformation method to determine the Wetness Index in the form of soil moisture. The flood model results show that the flood-affected area includes 5 Nagari or Villages. The widest and deepest inundation of the four flood events is located in Nagari Sungai Buluah with an area of 547.44 hectares. Nagari Buayan is the Nagari with the highest total area affected by 20.8% of the total area. The highest model output accuracy is 72%, meaning that 72% of the model can be implemented in flood estimation. |
| URI: | http://repository.ipb.ac.id/handle/123456789/113926 |
| Appears in Collections: | UT - Geophysics and Meteorology |
Files in This Item:
| File | Description | Size | Format | |
|---|---|---|---|---|
| 01 Watermark_Halaman Awal - SKRIPSI - (G24180028) IKHSANUL PUTRA SANDY.pdf Restricted Access | Cover | 282.29 kB | Adobe PDF | View/Open |
| 02 Watermark_Fullteks - SKRIPSI - (G24180028) IKHSANUL PUTRA SANDY.pdf Restricted Access | Fulltext | 2.02 MB | Adobe PDF | View/Open |
| 03 Watermark_Lampiran - SKRIPSI - (G24180028) IKHSANUL PUTRA SANDY.pdf Restricted Access | Lampiran | 5.18 MB | Adobe PDF | View/Open |
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