Modeling uncertainties of reservoir flushing simulations

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Camila Bergmann Goulart , Tobias Bleninger , Hugo de Oliveira Fagundes , Fernando Mainardi Fan
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引用次数: 0

Abstract

Every dam or barrage construction affects the watercourse and the retention of sediment that previously was carried by the river, which can lead to siltation of the reservoir and obstruction of water intakes over time, reducing their capacities. However, the information available regarding the effect of sediment and drawdown parameters, sediment management at reservoirs, as well as different equational approaches, is scarce. The current research aims to evaluate the effect of parameters associated with numerical modeling of sediment management in reservoirs considering scenarios with different drawdowns, transport equations, sediment size distributions, and thickness of the initial sediment layer. The case study of the Aimorés Hydropower Plant (HPP) is used, applying the Delft3D-FLOW model for two-dimensional modeling. All parameters influenced the volume of mobilized sediment, among which the initial layer thickness was the parameter that resulted in the greatest changes in simulated results. In general, the results show that the uncertainties in the input parameters outweigh the uncertainties between the techniques, which found large variations in results when evaluating the use of different transport equations. These results indicate the importance of proper estimation of model parameters for predicting effects with accuracy and the need for such studies before planning and management operations are evaluated to avoid environmental harm and energy waste.

储层冲刷模拟的建模不确定性
每一个大坝或拦河坝的建设都会影响到水道和先前由河流携带的沉积物的滞留,随着时间的推移,这可能导致水库淤积和进水口阻塞,从而降低其容量。然而,关于泥沙和降沙参数的影响、水库泥沙管理以及不同的方程方法的现有资料很少。考虑不同降沙、输沙方程、泥沙粒径分布和初始沉积层厚度等因素,评价数值模拟参数对水库泥沙管理的影响。以aimorsamos水电站为例,采用Delft3D-FLOW模型进行二维建模。各参数均影响动沙体积,其中初始层厚度是模拟结果变化最大的参数。总的来说,结果表明输入参数的不确定性大于技术之间的不确定性,这在评估使用不同输运方程时发现了很大的差异。这些结果表明,正确估计模型参数对于准确预测影响的重要性,以及在评估规划和管理操作之前进行此类研究的必要性,以避免环境危害和能源浪费。
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
7.20
自引率
4.30%
发文量
567
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