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Rainfall-runoff modeling based on HEC-HMS model: a case study in an area with increased groundwater discharge potential

The Hydrologic Modeling System (HEC-HMS), designed to accurately simulate precipitation-runoff processes in various watershed types, was employed in our study to establish a model for a particular watershed. Consequently, we planned to create a rainfall-runoff model to investigate the specific chara...

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Published in:	Frontiers in water 2024-10, Vol.6
Main Authors:	Herbei, Mihai Valentin, Bădăluță-Minda, Codruța, Popescu, Cosmin Alin, Horablaga, Adina, Dragomir, Lucian Octavian, Popescu, George, Kader, Shuraik, Sestras, Paul
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Language:	English
Subjects:	catchment area discharge hydrologic processes precipitation runoff watershed systems
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creator	Herbei, Mihai Valentin Bădăluță-Minda, Codruța Popescu, Cosmin Alin Horablaga, Adina Dragomir, Lucian Octavian Popescu, George Kader, Shuraik Sestras, Paul
description	The Hydrologic Modeling System (HEC-HMS), designed to accurately simulate precipitation-runoff processes in various watershed types, was employed in our study to establish a model for a particular watershed. Consequently, we planned to create a rainfall-runoff model to investigate the specific characteristics of floods, assess some pre-diction models, and issue assumptions about their viability, which could be beneficial in establishing flood warning systems. The model was developed using daily precipitation data collected from different rain gauge stations in the Gilort watershed, located in southern Romania. The study employed the HEC-GeoHMS terrain processing tool, utilizing a digital elevation design to build a hydrological model. The statistical indicators used to evaluate the runoff mechanisms, specifically regression, coefficient of determination, correlation coefficient, index of agreement (Willmott index), and the root mean squared error (RMSE), showed a strong relationship between the simulated and recorded flow of the watershed. The leaking model was assessed using other statistical parameters, including the deviation of runoff volumes (Dv = 6.40%), Nash−Sutcliffe efficiency (NSE = 0.908), and Kling-Gupta efficiency (KGE = 0.901). These parameters confirmed that the simulated data closely matched the observed data, indicating an effective association, and were considered reliable indicators of the model’s goodness of fit, ensuring its reliability and efficacy.
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subjects	catchment area discharge hydrologic processes precipitation runoff watershed systems
title	Rainfall-runoff modeling based on HEC-HMS model: a case study in an area with increased groundwater discharge potential
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