An Integrated Approach for Water Quality Modelling of Soan River Using HEC-RAS

IF 1 Q4 ENGINEERING, CIVIL Journal of Applied Engineering Sciences Pub Date : 2022-05-01 DOI:10.2478/jaes-2022-0017

Zakaullah, N. Ejaz, Awais Zafar

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Abstract

Abstract Water quality modeling has been shown to be a useful tool in strategic water quality management. In this study, HEC-RAS model was employed to assess the water quality of Soan River. The model was calibrated and validated successfully by evaluation through NSE and R2 values. The simulated BOD and DO values were found to be in agreement with the measured values. Furthermore, the findings revealed that the Soan River was polluted downstream of the Kaak Bridge due to industrialization and urbanization along the River’s banks. The HEC-RAS model is a useful tool for managing water quality and making decisions. Furthermore, many situations were investigated in order to provide appropriate options for River water quality management. Sewage effluents, agricultural runoff and industrial effluents were found to be responsible for the high nutrient levels in the River which in turn reduced DO levels and increased BOD. The requirement for comprehensive integrated models that can be used to make defensible decisions is now important for the long-term management of aquatic ecosystems. The uncertainty surrounding the outcomes of integrated modelling studies makes it difficult for water resource managers to execute them.

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基于HEC-RAS的Soan河水质综合建模方法

摘要水质建模已被证明是战略水质管理中的一个有用工具。本研究采用HEC-RAS模型对索安河水质进行了评价。通过NSE和R2值的评估，成功校准并验证了该模型。模拟的BOD和DO值与测量值一致。此外，调查结果显示，由于河岸沿线的工业化和城市化，苏安河在Kaak大桥下游受到污染。HEC-RAS模型是管理水质和做出决策的有用工具。此外，还调查了许多情况，以便为河流水质管理提供适当的选择。污水、农业径流和工业废水被发现是河流中高营养水平的原因，这反过来又降低了DO水平并增加了BOD。现在，对可用于做出合理决策的综合综合模型的要求对于水生生态系统的长期管理非常重要。综合建模研究结果的不确定性使得水资源管理者很难执行这些研究。

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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