The Improvement of Synthetic Unit Hydrograph Performance by Adjusting Model Parameters for Flood Prediction

Tunas, I Gede; Anwar, Nadjadji; Lasminto, Umboro

doi:10.21817/ijet/2017/v9i2/170902163

Cited by 8 publications

(10 citation statements)

References 2 publications

(3 reference statements)

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“…In this study, the rainfall-runoff transformation was analyzed with the ITS-2 Synthetic Unit Hydrograph (SUH) model, developed by considering fractal characteristics of a watershed, as the synthetic unit hydrograph model variable [12]. This model shows the best performance in Central Sulawesi Province, with geographical proximity to the study area [13].…”

Section: Hydrology Datamentioning

confidence: 99%

Flood Inundation and Dam Break Analysis for Disaster Risk Mitigation (A Case Study of Way Apu Dam )

Ansori¹

2021

GEOMATE

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This paper presents a numerical modeling to simulate flood inundation and dam break analysis of Way Apu dam for an emergency action plan (EAP), by considering EAP guidelines for ICOLD (International Committee on Large Dam). The Way Apu dam, located in Way Apu River, Maluku, Indonesia is a multi-purpose dam constructed mainly for irrigation, hydropower, water supply, and flood control. Therefore, the dam's outflow discharge needs to be analyzed, due to the large amount of rainfall in eastern Indonesia. Thus, there is a need to analyze flood inundation mapping and dam break simulation in a bid to identify the flood mitigation risk zone and early warning system, within the downstream area of Way Apu dam. In this study, the flood inundation mapping and dam break simulation were analyzed using HEC-RAS 5.0.7. The analysis results of flood routing generate the outflow peak discharge reduction over spillway were 7.36 % (Ten years return period discharge, Q 10 ) and just 2.14% (Probable maximum flood discharge, Q PMF ), indicating the simulation results of Hec-Ras 5.0.7 model for conditions with or without dam break did not show significant difference in dam's downstream area. According to these results, 6 sub-districts are affected by the flood (Grandeng, Waeleman, Wanakarta, Waenetat, Debowae, Mako) with a maximum flood height range between 1-2.5 m (Q 10 ) and 2.9-4.2 m (Q PMF ). The simulation results of arrival time also showed the estimation of evacuation time for Q PMF ranges from 6 -12 hours.

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Section: Hydrology Datamentioning

confidence: 99%

Flood Inundation and Dam Break Analysis for Disaster Risk Mitigation (A Case Study of Way Apu Dam )

Ansori¹

2021

GEOMATE

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“…The flood quantification formula is calculated using the parameters above with different weights according to the flood's effect. The following schematic analysis of flood risk quantification is illustrated in figure 1 A unit hydrograph is derived using Nakayasu synthetic method for average scale watershed, which has been calibrated based on the watershed characteristics [11]. The equation of peak discharge is shown in Equation 1 below.…”

Section: B Flood Risk Quantification Analysis Modelmentioning

confidence: 99%

Flood Quantification Index Based on Inundation Indicators and Risk Scale

Safarina

Karnisah

Permana

et al. 2021

Int. J. Adv. Sci. Eng. Inf. Technol.

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Flood management requires an assessment of flood levels that occur appropriately. Determining flood levels quantitatively can help control floods more efficiently. This study aims to make flood quantification based on the inundation indicators and scale of risk. The case study is in Citarik, Cilember, Cimahi, Cisangkan, and Cibeureum, located in the Citarum watershed, West Java, Indonesia. The method used is a mathematical model of flow verified by the river's physical dimensions. Four indicators were analyzed based on unsteady one-dimensional river flow and overland flow models. The four flood quantity indicators with different weights are namely percentage of inundation area (Ai), percentage of area activity on the inundation area (Aac), inundation duration (D), and inundation depth (H) which have consecutive indexes 0.3, 0.2, 0.2 and 0.3. The initial discharge was analyzed based on unit hydrograph at the upstream river cross-section of the inundation region. The study's results by verification of field observations showed that the highest peak inundation was 3.0 m in Cilember, inundation duration was a maximum of 18 hours in Citarik and Cilember, the highest inundation area was 329.23 % of the watershed area of Cilember. Results of calculations with the formulations, the highest quantity is 16.18 in Cilember flood that occurs in Melong village with a risk scale of 5. These results conclude that the Cilember flood is high-level damage so that it is a priority to be overcome.

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“…Türkiye'de taşkınların oluşmasında etkili olan yağış olayının yanında; iklim durumu, topoğrafik durum, akarsu yataklarındaki yapılaşma, sanayileşme ve kentleşme ile mevcut dereler kapatılması gibi nedenlerde etkilemektedir [9]. Su kaynaklarının yönetimi ve planlaması yapılırken taşkın debisinin tahmininin yapılması oldukça önemlidir [10]. Genel olarak, taşkın debi tahmini için iki yaklaşım kullanılmaktadır; biri geleneksel yöntem, diğeri bilgisayarla simülasyon yöntemidir.…”

Section: Introductionunclassified

Nehirlerde Taşkın Tekerrür Debisi Hesabı ve Taşkın Risk Değerlendirmesi

KORKMAZ¹

2022

El-Cezeri Fen Ve Mühendislik Dergisi

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The Improvement of Synthetic Unit Hydrograph Performance by Adjusting Model Parameters for Flood Prediction

Cited by 8 publications

References 2 publications

Flood Inundation and Dam Break Analysis for Disaster Risk Mitigation (A Case Study of Way Apu Dam )

Flood Inundation and Dam Break Analysis for Disaster Risk Mitigation (A Case Study of Way Apu Dam )

Flood Quantification Index Based on Inundation Indicators and Risk Scale

Nehirlerde Taşkın Tekerrür Debisi Hesabı ve Taşkın Risk Değerlendirmesi

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