Direct runoff hydrograph model’s collation for a Pakistan’s region

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY

Mehran University Research Journal of Engineering and Technology Pub Date : 2023-02-14 DOI:10.22581/muet1982.2204.20

Fatima Hanif, Ahsan Ali

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Abstract

Rainfall-Runoff modeling is among the classical applications of hydrology. This paper examines the results of 3 hydrologic approaches, particularly Clark Model, Nash Model, and Geomorphic Instantaneous Unit Hydrograph Model. Assumptions are forwarded for the long run use of the Rawalpindi Division, Pakistan’s Small Dam Organization. The catchment of Shahpur Dam was an area under consideration for the study. The Digital elevation model (DEM) was implicated to measure the Nash and Clark model’s geomorphic parameters. Using ArcGIS, catchment satellite imagery was processed to estimate geomorphological parameters. The models have been applied to multiple storm cases. Geographic Instantaneous Unit Hydrograph (GIUH) model gave direct surface runoff hydrograph, whereas, on measured precipitation excess rainfall hyetograph was obtained. Four types of statistical parameters, namely efficiency of the model (EFF), percentage defect in time to attain peak (PETP), percent defect in attained peak Q (PEP), percentage defect in runoff rate (PEV) are used to check model’s efficiency. The comparison is done between the findings of Clark and Nash GIUH models and the original Clark and Nash models. It was observed that GIUH models are equally good even when optimization is done for Clark and Nash model’s parameters. Since the results obtained from these models are more credible, so, these models can be used in ungauged catchments to estimate the hydrographs.

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巴基斯坦某地区直接径流水文模型的校核

降雨径流模型是水文学的经典应用之一。本文检验了三种水文方法的结果，特别是克拉克模型、纳什模型和地貌瞬时单位过程线模型。这些假设是为巴基斯坦小型水坝组织拉瓦尔品第分部的长期使用而提出的。Shahpur大坝的集水区是研究中考虑的区域。数字高程模型（DEM）用于测量纳什和克拉克模型的地貌参数。使用ArcGIS，对集水区卫星图像进行处理，以估计地貌参数。这些模型已应用于多个风暴案例。地理瞬时单位过程线（GIUH）模型给出了地表径流量的直接过程线，而在实测降水量的基础上得到了过量降雨的雨量图。使用四种类型的统计参数，即模型效率（EFF）、达到峰值的时间缺陷百分比（PETP）、达到Q峰值的缺陷百分比（PEP）和径流率缺陷百分比（PEV）来检查模型的效率。将Clark和Nash GIUH模型的发现与最初的Clark和纳什模型进行了比较。观察到，即使对Clark和Nash模型的参数进行优化，GIUH模型也同样好。由于从这些模型中获得的结果更可信，因此，这些模型可以用于未经测量的集水区来估计过程线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mehran University Research Journal of Engineering and Technology ENGINEERING, MULTIDISCIPLINARY-

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审稿时长

40 weeks