HYDRAULIC AND ECOLOGICAL CHANGES UNDER DRAINAGE GATE OPERATIONS WITH COUPLED MODEL SCHISM-COSINE IN SAEMANGEUM BASIN, KOREA

IF 1 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
H. Yoo, Seokil Jeong, Dong Hyun Kim, Seung Oh Lee
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引用次数: 0

Abstract

The drainage gates have been controlled for desalination under normal conditions and flood defense in Saemangeum basin, Korea. Recently, it became an issue that the gates have been opened not to deteriorate water quality in the lake. It is, thus, necessary to precisely estimate the changes of water quality characteristics, especially DO, phosphate and nitrate, in the lake according to various gate operations. In this study, Semi-implicit Cross-scale Hydroscience Integrated System Model and Carbon, Silicate, Nitrogen Ecosystem model (SCHISM-CoSiNE) which is cable to simulate dynamic exchange such as gate operation conditions was utilized to obtain reliable and reasonable results including hydrodyanamic and environmental variables. For the verification, the measured data at 6 locations in Saemangeum basin was used to compare incluidng temperatue and salintiy from 2016 and each relative error became small enough to show high accurary. Also, under various scenarios by changing the designated water surface elevation on flood seasons, this model has been applied to present the best designated water surface elevation in terms of both water quality and water supply in the Saemangeum basin. It becomes possbile to show reliable guidance for dynamic operations and environmental changes with this model as requested in near future.
新万金流域裂隙-余弦耦合模型下水闸操作下的水力生态变化
排水闸门已得到控制,用于正常情况下的海水淡化和韩国萨曼根盆地的防洪。最近,为了不恶化湖泊的水质,闸门被打开成了一个问题。因此,有必要根据各种闸门操作,准确估计湖泊水质特征的变化,特别是DO、磷酸盐和硝酸盐的变化。本研究利用半隐式跨尺度水文科学综合系统模型和碳、硅酸盐、氮生态系统模型(SCHISM-CoSiNE)模拟闸门运行条件等动态交换,获得了可靠合理的结果。为了验证,使用Saemangeum盆地6个位置的测量数据来比较2016年的温度和盐度,每个相对误差都变得足够小,可以显示出高精度。此外,在各种情况下,通过在汛期改变指定水面高程,该模型已被应用于呈现Saemangeum流域在水质和供水方面的最佳指定水面高程。根据不久的将来的要求,该模型有可能为动态操作和环境变化提供可靠的指导。
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
CiteScore
1.90
自引率
7.70%
发文量
41
审稿时长
>12 weeks
期刊介绍: The Journal of Environmental Engineering and Landscape Management publishes original research about the environment with emphasis on sustainability.
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