Analysis of Peak Flood Discharge in Small-Scale River Flow Area

IJEBD International Journal of Entrepreneurship and Business Development Pub Date : 2023-03-31 DOI:10.29138/ijebd.v6i2.2128

I. Sahdar, D. Rohmat, W. A. Pranoto

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Abstract

Purpose: Flood discharge is a critical component in reducing the impact of flooding in a given location. An analytical technique based on a watershed's morphometric properties is a method for those without a gauge, particularly in small-scale watersheds. Design/methodology/approach: The synthetic unit hydrograph (HSS) approach is used in this study to analyze flood output. This study was conducted in the Akelaka watershed, a sub-watershed of Tayawi. This analysis relies on spatial and attributes data. A spatial study of watershed morphometric properties was obtained by integrating digital elevation model (DEM) data into geographic information system-based applications (GIS). Meanwhile, using rainfall data from 2019 to 2021, a statistical approach is used to calculate the design rainfall intensity, which is then used as an input variable in the HSS analysis. Findings: The findings of hydrographic analysis using Nakayasu HSS demonstrate that the peak flood time (Tp) is 2.8 hours with a maximum flood discharge (Qp) of 56.636 m3/s, 76, 987 m3/s, 88,091 m3/s, and 101,279 m3/s for return periods of two years, five years, ten years, and 25 years. Paper type: Research paper

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小流域洪峰流量分析

目的：洪水流量是减少特定地区洪水影响的关键组成部分。基于流域形态测量特性的分析技术是一种适用于没有测量仪的方法，尤其是在小规模流域。设计/方法/方法：本研究采用综合单位过程线（HSS）方法来分析洪水输出。这项研究是在Tayawi的子流域Akelaka流域进行的。这种分析依赖于空间和属性数据。通过将数字高程模型（DEM）数据集成到基于地理信息系统的应用程序（GIS）中，对流域形态计量特性进行了空间研究。同时，使用2019年至2021年的降雨数据，使用统计方法计算设计降雨强度，然后将其用作HSS分析的输入变量。研究结果：使用Nakayasu HSS的水文分析结果表明，洪峰时间（Tp）为2.8小时，最大洪水流量（Qp）为56.636 m3/s、76987 m3/s、88091 m3/s和101279 m3/s，重现期分别为两年、五年、十年和25年。论文类型：研究论文

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IJEBD International Journal of Entrepreneurship and Business Development

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审稿时长

5 weeks