Identification of Flood-prone Areas using HEC-HMS and HEC-RAS, the Case of Ciberang River Basin, Lebak District of Banten Province

Abstract It is common practice that flood hydrograph simulations help to provide better flood prediction and flood damage reduction planning. These efforts require information on flood-prone areas identification from the hydrological and hydraulic analysis results. Historically, the Ciberang River Basin has experienced floods. Those floods cause the loss of human life and damage some houses along the river’s channels, especially in Lebak District, Banten Province, Indonesia. The main objective of this study is to identify flood-prone areas based on the simulation result of a hydrologic and hydraulic model of catchment response due to several extreme rainfall events using HEC-HMS and HEC-RAS software. Rainfall and discharge data measured at the Ciberang-Sabagi water level gauge on 10 January 2013 were used to calibrate hydrological watershed parameters. The hydraulics channel routing is started from the planned location of the Sabo dam to the downstream control point. The next stage was the simulation of rainfall-runoff transformation and 1D unsteady flow channel routing for the 2, 5, and 10-years floods return periods. The main result of this study is a flood hazards map that shows the spatial distribution of the area and inundation depth for each return period of the flood.

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Assessment of Flood Hazard and Agriculture Damage Under Climate Change in the Bagmati River Basin of Nepal

International Journal of Environment ◽

10.3126/ije.v8i2.25508 ◽

2019 ◽

Vol 8 (2) ◽

pp. 55-69 ◽

Cited By ~ 1

Author(s):

Badri Bhakta Shrestha

Keyword(s):

River Basin ◽

Flood Risk ◽

Damage Assessment ◽

Growth Stage ◽

Flood Hazard ◽

Flood Damage ◽

Flood Risk Management ◽

Flood Inundation ◽

Flood Hazards ◽

Bagmati River

Assessment of flood hazard and damage is a prerequisite for flood risk management in the river basins. The mitigation plans for flood risk management are mostly evaluated in quantified terms as it is important in decision making process. Therefore, analysis of flood hazards and quantitative assessment of potential flood damage is very essential for mitigating and managing flood risk. This study focused on assessment of flood hazard and quantitative agricultural damage in the Bagmati River basin including Lal Bakaiya River basin of Nepal under climate change conditions. Flood hazards were simulated using Rainfall Runoff Inundation (RRI) model. MRI-AGCM3.2S precipitation outputs of present and future climate scenarios were used to simulate flood hazards, flood inundation depth, and duration. Flood damage was assessed in the agricultural sector, focusing on flood damage to rice crops. The flood damage assessment was conducted by defining flood damage to rice crops as a function of flood depth, duration, and growth stage of rice plants and using depth-duration-damage function curves for each growth stage of rice plants. The hazard simulation and damage assessment were conducted for 50- and 100-year return period cases. The results show that flood inundation area and agricultural damage area may increase in the future by 41.09 % and 39.05 % in the case of 50-year flood, while 44.98 % and 40.76 % in the case of 100-year flood. The sensitivity to changes in flood extent area and damage with the intensity of return period was also analyzed.

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Overview of Recent Developments in Flood Mitigation Techniques with Respect to Indian Subcontinent

International Journal of Scientific Research in Science and Technology ◽

10.32628/ijsrst218356 ◽

2021 ◽

pp. 306-315

Author(s):

Prashant N. Pusdekar ◽

S. V. Dudul

Keyword(s):

Environmental Changes ◽

Indian Subcontinent ◽

Human Life ◽

Flood Damage ◽

Extreme Weather Events ◽

Land Use Land Cover ◽

Flood Hazards ◽

Weather Events ◽

The Social ◽

Recent Developments

Number of natural calamities like earthquake, cyclone, landslide, pandemics etc are known to have devastating impact on human life but flood hazards are severe and frequent in nature. Every year, floods strike many parts of the world and result in huge loss of life and property. The trends in flood damages have been increasing exponentially mainly due to growing population, investments in flood affected areas and changes in land-use land cover patterns in upstream regions. Climate change is also playing a major role in increased number of flood events so it is also likely that flooding would be more frequent and widespread in future due to the extreme weather events perceived to be induced by changing climate. In addition, the social and environmental changes are further expected to increase the risk and cost of these natural disasters. This paper presents the overview of different factors related directly or indirectly with flood risk assessment, different strategies adopted by Government for mitigation of flood, flood damage statistics, impact on social, economic and infrastructural perspective.

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A geographic information system-based approach of flood hazards modelling, Paschim Medinipur district, West Bengal, India

Jàmbá Journal of Disaster Risk Studies ◽

10.4102/jamba.v10i1.518 ◽

2018 ◽

Vol 10 (1) ◽

Cited By ~ 2

Author(s):

Kishor Dandapat ◽

Gopal K. Panda

Keyword(s):

West Bengal ◽

Flood Hazard ◽

Flood Damage ◽

Flood Hazards ◽

Human Beings ◽

Perspective View ◽

Damage Potential ◽

Flood Depth ◽

Prime Concern ◽

Flood Prone Areas

From the beginning of civilisation, human beings have preferred living on the river banks which have been the most vulnerable areas of flood hazards and consequent disasters. During the monsoon period, in many developing countries of south-east Asia, flood hazards and disasters have been a serious challenge for their development. Most of the rivers exceed their normal channel capacity attaining the flood stage and frequently overflow their banks, causing great havoc to the life and property of the people. Flooding is a very serious problem in many districts of West Bengal. The prime concern of delineation of flood-prone areas is to regulate the land use in the flood-prone areas to restrict damage potential and also mitigate the negative effects of floods on people and the economy. In a regulated way, flood-prone areas are required to be developed. Because, on one hand, it is to be ensured that existing hazard and flood damage potential do not increase and new developmental works become a step towards mitigation of disaster risk. In a perspective view, the demarcation and identification of flood-prone areas of different magnitudes, frequencies and return periods on a large-scale map seem to have great importance. Satellite-derived flood maps from 2007 to 2016 have been applied to form a flood frequency map and the same as a group of flood depth maps has been employed to produce the Flood Damage Map for depth data of flood. Finally, the modelling of flood hazards has been directed by envisaging amalgamation of Flood Depth and Flood Affected Frequency. Then the final flood hazard map amalgamated with population and housing data has been used to ascertain the flood disclosure for these two components. Flood hazard analysis in the study area revealed that 24% of the population has been located in high flood hazard zones, where 39% of human settlements are located in different flood hazard zones.

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FLOOD HAZARD ASSESSMENT AND DELIMITATION OF THE LIKELY FLOOD HAZARD ZONES OF THE UPPER PART IN GALLIKOS RIVER BASIN

Bulletin of the Geological Society of Greece ◽

10.12681/bgsg.11804 ◽

2017 ◽

Vol 50 (2) ◽

pp. 995 ◽

Cited By ~ 1

Author(s):

I. Tsitroulis ◽

K. Voudouris ◽

A. Vasileiou ◽

C. Mattas ◽

Μ. Sapountzis ◽

...

Keyword(s):

River Basin ◽

Prediction Models ◽

Flood Hazard ◽

Human Life ◽

Meteorological Data ◽

Flood Management ◽

Flood Prediction ◽

Management Framework ◽

Inundation Maps ◽

Software Packages

Floods are one of the most common natural hazards in global range and could threat the human life, health, environment and infrastructure. The aim of this paper is the estimation and the delimitation of the likely flood hazard zones, for different rainfall intensities in the upper part of Gallikos river basin (central Macedonia) according to the European directive 2007/60. For the analysis of the meteorological data and the construction of flood zone maps, HYDROGNOMON, HEC-HMS, HEC-RAS free software packages were used. The thematic maps were constructed with ESRI GIS. The results are depicted in flood inundation maps, delimitating and visualizing the scale of the flood hazard effect in the area. The construction of flood prediction models is a very useful tool towards the direction of the design of an efficient flood management framework.

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Effective Flood Control Through Integrated and Collaborative Dam Operation at Three Dams in the Upper Nabari River

Journal of Disaster Research ◽

10.20965/jdr.2012.p0540 ◽

2012 ◽

Vol 7 (5) ◽

pp. 540-546 ◽

Cited By ~ 2

Author(s):

Takayoshi Matsumura ◽

◽

Hiroshi Kamiya ◽

Naohiro Yoshida ◽

Keyword(s):

Water Level ◽

River Basin ◽

Flood Control ◽

Early Stage ◽

Control Point ◽

Flood Damage ◽

Rainfall Forecast ◽

Recent Climate ◽

Runoff Analysis ◽

Flexible Operation

Heavy rain with Typhoon 18 threatened the Nabari River Basin, Kansai region, with inundation early on the morning of October 8, 2009. The Nabari River is a tributary of the Yodo river basin that contains Osaka and Kyoto and runs through Nabari City, which is a residential zone a commutable distance from Osaka city. In the upper reaches of the Nabari, there are three multipurpose dams – Shorenji Dam, Hinachi Dam, and Murou Dam – that are operated by the Kizugawa Integrated Dam Control and Management Office (KIDCMO), a branch office of the Japan Water Agency (JWA). Since it rained heavily downstream from the three dams, regular operation of the dams complying with given flood control regulations appeared unable to save Nabari City from inundation. The JWA and Ministry of Land, Infrastructure, Transport and Tourism (MLIT) therefore conducted collaborative operation of the three dams to avoid inundating the city. In this case, flood control operation of the three dams commenced at an early stage before inflow reached defined flood discharge in consideration of the water level of the Nabari River, rainfall conditions, and the capacity of reservoirs. During operation, discharge from dams was changed in a timely manner and appropriately through collaborative operation of the three dams in order to maximize the effectiveness of all flood control capacities of reservoirs based on the latest rainfall forecast technology and runoff analysis. The use of improved rainfall forecast technology and runoff analysis models enabled effective application of flexible operation protocols. It is estimated that this operation has resulted in a 1.5 m decrease in the water level at the Nabari design control point and saved approximately 1,200 households from inundation. Considering recent climate change, it is possible to have extreme rainfall more often. The proof of the adaptability of this flexible operation is quite meaningful not only for flood damage mitigation in the downstream but also for future prospects of flood control by dams.

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Sediment discharge data for selected sites in the Susitna River basin, Alaska, October 1982 to February 1984

Open-File Report ◽

10.3133/ofr85157 ◽

1985 ◽

Cited By ~ 1

Author(s):

J.M. Knott ◽

S.W. Lipscomb

Keyword(s):

River Basin ◽

Sediment Discharge ◽

Discharge Data

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The Rise of Climate-Driven Sediment Discharge in the Amazonian River Basin

Atmosphere ◽

10.3390/atmos11020208 ◽

2020 ◽

Vol 11 (2) ◽

pp. 208 ◽

Cited By ~ 3

Author(s):

Nazzareno Diodato ◽

Naziano Filizola ◽

Pasquale Borrelli ◽

Panos Panagos ◽

Gianni Bellocchi

Keyword(s):

River Basin ◽

Amazon Basin ◽

Global Climate ◽

Climate Extremes ◽

Temporal Variations ◽

Sediment Discharge ◽

Storm Events ◽

Discharge Data ◽

Magdalena River ◽

Sediment Export

The occurrence of hydrological extremes in the Amazon region and the associated sediment loss during rainfall events are key features in the global climate system. Climate extremes alter the sediment and carbon balance but the ecological consequences of such changes are poorly understood in this region. With the aim of examining the interactions between precipitation and landscape-scale controls of sediment export from the Amazon basin, we developed a parsimonious hydro-climatological model on a multi-year series (1997–2014) of sediment discharge data taken at the outlet of Óbidos (Brazil) watershed (the narrowest and swiftest part of the Amazon River). The calibrated model (correlation coefficient equal to 0.84) captured the sediment load variability of an independent dataset from a different watershed (the Magdalena River basin), and performed better than three alternative approaches. Our model captured the interdecadal variability and the long-term patterns of sediment export. In our reconstruction of yearly sediment discharge over 1859–2014, we observed that landscape erosion changes are mostly induced by single storm events, and result from coupled effects of droughts and storms over long time scales. By quantifying temporal variations in the sediment produced by weathering, this analysis enables a new understanding of the linkage between climate forcing and river response, which drives sediment dynamics in the Amazon basin.

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Flood Inundation Assessment in the Low-Lying River Basin Considering Extreme Rainfall Impacts and Topographic Vulnerability

Water ◽

10.3390/w13070896 ◽

2021 ◽

Vol 13 (7) ◽

pp. 896

Author(s):

Thanh Thu Nguyen ◽

Makoto Nakatsugawa ◽

Tomohito J. Yamada ◽

Tsuyoshi Hoshino

Keyword(s):

River Basin ◽

Extreme Rainfall ◽

Flood Damage ◽

Water Levels ◽

Flood Inundation ◽

Inundation Area ◽

Inundation Depth ◽

Study Results ◽

Inundation Duration ◽

Short Time

This study aims to evaluate the change in flood inundation in the Chitose River basin (CRB), a tributary of the Ishikari River, considering the extreme rainfall impacts and topographic vulnerability. The changing impacts were assessed using a large-ensemble rainfall dataset with a high resolution of 5 km (d4PDF) as input data for the rainfall–runoff–inundation (RRI) model. Additionally, the prediction of time differences between the peak discharge in the Chitose River and peak water levels at the confluence point intersecting the Ishikari River were improved compared to the previous study. Results indicate that due to climatic changes, extreme river floods are expected to increase by 21–24% in the Ishikari River basin (IRB), while flood inundation is expected to be severe and higher in the CRB, with increases of 24.5, 46.5, and 13.8% for the inundation area, inundation volume, and peak inundation depth, respectively. Flood inundation is likely to occur in the CRB downstream area with a frequency of 90–100%. Additionally, the inundation duration is expected to increase by 5–10 h here. Moreover, the short time difference (0–10 h) is predicted to increase significantly in the CRB. This study provides useful information for policymakers to mitigate flood damage in vulnerable areas.

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Values and Preferences for Domestic Water Use: A Study from the Transboundary River Basin of Mékrou (West Africa)

Water ◽

10.3390/w10091232 ◽

2018 ◽

Vol 10 (9) ◽

pp. 1232

Author(s):

Vasileios Markantonis ◽

Celine Dondeynaz ◽

Dionysis Latinopoulos ◽

Kostas Bithas ◽

Ioannis Trichakis ◽

...

Keyword(s):

West Africa ◽

Willingness To Pay ◽

River Basin ◽

Citizen Participation ◽

Human Life ◽

Local Population ◽

Western World ◽

African Countries ◽

Domestic Water ◽

Water Provision

Water is indispensable for human life and sufficient domestic use is considered as a regularity in the western world. The conditions are substantially different in African countries where poverty and lack of life-supporting services prevail. The provision of domestic water is an essential problem, which requires action. The lack of sufficient funding for the development of infrastructure supports claims for citizen participation in related costs. However, can citizens pay and to what extend for sufficient water provision? The present study investigates a household’s willingness to pay for domestic water in the transboundary Mékrou River Basin in West Africa (Burkina Faso, Benin and Niger) and explores the payment for domestic water provision to poverty. The paper uses the results of a household survey that was undertaken in the Mekrou basin including a representative sample from all three countries. Based on this survey the paper presents basic socio-economic characteristics of the local population as well as qualitative water provision and management attributes. In the core of the econometric analysis the paper presents the results of the survey’s Contingent Valuation (CV) scenario estimating the households’ willingness to pay (WTP) for a domestic water provision. The households of the Mekrou basin are willing to pay 2.81 euro per month in average for a domestic water provision network but this is strongly related with the wealth of households. This finding although it may support the “user pays principle”, it also raises serious questions over the provision of water to poor households.

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