Abstract
Nepal is one of the world's most vulnerable countries to a variety of risks, including severe floods. This could result in the loss of lives and property, the relocation of people, the damage of physical infrastructures, homes, and the disruption of people's socioeconomic functions and the country's economy in a variety of ways. River flooding is caused by heavy monsoon rainfall, weak geology, unplanned infrastructure construction along the embankments, and mining in upstream riverbeds. The Andheri Khola (river) is a tributary of the Sunkoshi River that frequently floods, affecting the inhabitants along the way. In Nepal, little effort has been made to comprehend the flood risk in tiny catchment regions such as Andheri Khola, despite the fact that this sort of small catchment is affecting Nepal's numerous new rising towns and urban areas in many ways. To analyse the one-dimensional flood plain, HEC-RAS, Ras Mapper, and ArcGIS were used. The WECS/DHM approach was used to estimate flood frequency in different return periods in order to determine the flood risk in the research area. The study finds that the floods of 2, 50, 100, and 1000 years return periods cover a maximum of 35, 41.9, 42.7, and 49.72 hectare area, respectively. The majority of the flooded sites had water depths of more than 3 meters. More than 70% of the sandy area in the study region is prone to flooding. Furthermore, the cultivated areas are located in a low to moderate risk area.
Highlights
Nepal is vulnerable to a variety of natural and human-caused disasters, and it is one of the multi-hazards disaster hotspot countries (Dilley, et al, 2005)
This study aims to assess flood vulnerability and risk in a small catchment in Nepal's hills, in the context of newly expanding infrastructure facilities, market towns, and other developments, in order to avoid further expansion in risky areas and to develop market towns and land use zoning based on risk levels
More than 70% of the sandy area is in a flood-prone area
Summary
Nepal is vulnerable to a variety of natural and human-caused disasters, and it is one of the multi-hazards disaster hotspot countries (Dilley, et al, 2005). A model known as the Hydrologic Engineering Center's River Analysis System (HEL-RAS) was established by the United States Army Corps of Engineers (USACE). This model is commonly used to identify the flood plain and observe floods and flood-related dangers (Brunner 2016; Horritt and Bates, 2002; Liu et al, 2019; El-Naqa and Jaber, 2018; Huţanu et al, 2020). HEC-RAS was used to run the hydrodynamic model in Nepal's several basins (Banstola et al, 2019; Bhattarai et al, 2019; Dhital et al, 2005; Gautam and Kharbuja, 2006; Thapa et al, 2020)
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