Direct integration of reservoirs' operations in a hydrological model for streamflow estimation: coupling a CLSTM model with MOHID-Land

IF 5.7 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Hydrology and Earth System Sciences Pub Date : 2023-11-02 DOI:10.5194/hess-27-3875-2023
Ana Ramos Oliveira, Tiago Brito Ramos, Lígia Pinto, Ramiro Neves
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Abstract

Abstract. Knowledge about streamflow regimes and values is essential for different activities and situations in which justified decisions must be made. However, streamflow behavior is commonly assumed to be non-linear, being controlled by various mechanisms that act on different temporal and spatial scales, making its estimation challenging. An example is the construction and operation of infrastructures such as dams and reservoirs in rivers. The challenges faced by modelers to correctly describe the impact of dams on hydrological systems are considerable. In this study, an already implemented solution of the MOHID-Land (where MOHID stands for HYDrodinamic MOdel, or MOdelo HIDrodinâmico in Portuguese) model for a natural flow regime in the Ulla River basin was considered as a baseline. The watershed referred to includes three reservoirs. Outflow values were estimated considering a basic operation rule for two of them (run-of-the-river dams) and considering a data-driven model of a convolutional long short-term memory (CLSTM) type for the other (high-capacity dam). The outflow values obtained with the CLSTM model were imposed in the hydrological model, while the hydrological model fed the CLSTM model with the level and the inflow of the reservoir. This coupled system was evaluated daily using two hydrometric stations located downstream of the reservoirs, resulting in an improved performance compared with the baseline application. The analysis of the modeled values with and without reservoirs further demonstrated that considering dams' operations in the hydrological model resulted in an increase in the streamflow during the dry season and a decrease during the wet season but with no differences in the average streamflow. The coupled system is thus a promising solution for improving streamflow estimates in modified catchments.
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水库运行在水文模型中的直接整合:CLSTM模型与MOHID-Land的耦合
摘要在不同的活动和情况下,必须做出合理的决定,关于水流状况和价值的知识至关重要。然而,水流行为通常被认为是非线性的,受到各种作用于不同时间和空间尺度的机制的控制,这使得其估计具有挑战性。例如,河流中的水坝和水库等基础设施的建设和运营。建模者在正确描述大坝对水文系统的影响方面面临着相当大的挑战。在这项研究中,已经实施的MOHID- land (MOHID代表水力模型,或葡萄牙语MOdelo hidrodin mico)模型解决方案被认为是乌拉河流域自然流动状况的基线。这里所说的分水岭包括三个水库。考虑其中两个(河流大坝)的基本操作规则和考虑另一个(高容量大坝)的卷积长短期记忆(CLSTM)类型的数据驱动模型,估算流出值。利用CLSTM模型得到的流出量被施加到水文模型中,而水文模型将水库的水位和流入量馈送到CLSTM模型中。该耦合系统每天使用位于水库下游的两个水文测量站进行评估,结果与基线应用相比,性能有所提高。对有水库和无水库模型值的分析进一步表明,在水文模型中考虑大坝的运行导致旱季流量增加,雨季流量减少,但平均流量没有差异。因此,耦合系统是一种有希望的解决方案,可以改善改良集水区的流量估算。
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来源期刊
Hydrology and Earth System Sciences
Hydrology and Earth System Sciences 地学-地球科学综合
CiteScore
10.10
自引率
7.90%
发文量
273
审稿时长
15 months
期刊介绍: Hydrology and Earth System Sciences (HESS) is a not-for-profit international two-stage open-access journal for the publication of original research in hydrology. HESS encourages and supports fundamental and applied research that advances the understanding of hydrological systems, their role in providing water for ecosystems and society, and the role of the water cycle in the functioning of the Earth system. A multi-disciplinary approach is encouraged that broadens the hydrological perspective and the advancement of hydrological science through integration with other cognate sciences and cross-fertilization across disciplinary boundaries.
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