Effect of Different Sustainable Rainfall on the Peak Flow

AL Rafdain Engineering Journal Pub Date : 2014-12-28 DOI:10.33899/rengj.2014.101001

M. Mohammad, Sahar Sameer Younus

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引用次数: 1

Abstract

Rainfall is the main source of normal and flood surface flow. The storm intensity and sustainability in addition to the watershed properties soil type and land use have a direct effect on the peak flow. In the first stage of this research the TR-20 model and HEC-1 model based on both SCS method and Snyder method operating under watershed modeling system (WMS). The models were calibrated based on a number measured hydrograph for Khashban which is one of sub-basin of Alkhoser seasonal river near Mosul city, and Solak in SinjarRepublic of Iraq. The comparison between the two model based on Nash model efficiency E%, determination coefficient (r) and the t-test values for the measured on predicted value of peak flow, time of peak flow and runoff volume. The result showed that TR-20 model is the best. In the next stage, the TR-20 model was applied for the two watershed for different value of rainfall intensity, duration, and curve number for soil conservation service (SCS) method that reflect the effect of soil type, initial water content, land use and plant cover. The aim is to obtain the peak flow the watershed for different value of consider variables to an equation of peak flow for different values of rainfall duration.

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不同持续降雨量对峰值流量的影响

降雨是正常和洪水地表流量的主要来源。暴雨强度和可持续性以及流域性质、土壤类型和土地利用对洪峰流量有直接影响。第一阶段研究了基于SCS方法和Snyder方法的TR-20模型和HEC-1模型在流域模拟系统(WMS)下运行。这些模型是根据在伊拉克辛贾尔共和国靠近摩苏尔市的Alkhoser季节性河的子流域之一的Khashban和Solak的大量测量的水文曲线进行校准的。基于纳什模型效率E%、决定系数(r)和实测t检验值对两种模型的峰流量预测值、峰流量时间和径流量进行比较。结果表明，TR-20模型效果最好。在接下来的阶段，将TR-20模型应用于两个流域，以不同的降雨强度、持续时间和土壤保持服务(SCS)方法曲线数值来反映土壤类型、初始含水量、土地利用和植物覆盖的影响。目的是得到不同考虑变量值下流域的峰值流量，并建立不同降雨持续时间值下的峰值流量方程。

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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AL Rafdain Engineering Journal

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