Development of innovative groynes to establish fish passability of regulated rivers based on the example of the Wien River, Austria. Part I: Impact of groyne parameters on water depth and velocity

IF 1.7 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES
Nora Lasinger, Elena Leutgöb, Helmut Habersack, Christine Sindelar
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Abstract

Rivers in Europe have been heavily modified over the last 200 years, with a significant impact on their ecology and environment. This also applies to rivers like the Wien River, Austria, which are designed as overwide concrete channels for the benefit of flood protection. To achieve a good ecological potential in such heavily modified water bodies, one key element is fish passability. This requires an increase in the water level at low flow conditions and a reduction of the flow velocity. The aim of this study is to assess whether groynes are suitable for this application. A design study was conducted to examine the effect of individual groyne parameters on water depths and velocities. Physical experiments were carried out in a laboratory flume at a scale of 1:8. In addition, a 2D numerical model was used. It was found that the groynes had to be submerged and the alignment had to be repelling to achieve both requirements. The configuration of the groyne height, distance and degree of obstruction parameters were crucial. The groyne angle and shape had a minor effect and can be used for fine‐tuning. The best groyne design created a passable section for fish. Thereby, and through sedimentation, the best design contributed to an ecological improvement. However, it did not create habitats and did not constitute a fullfledged restoration. In general, submerged groynes can fulfil the hydraulic requirements for fish passage in heavily modified water bodies with a fixed bed.
以奥地利维也纳河为例,开发创新型海槽,以确定受管制河流的鱼类通过性。第一部分:格栅参数对水深和流速的影响
在过去的 200 年里,欧洲的河流受到了严重的改造,对其生态和环境产生了重大影响。这同样适用于像奥地利维也纳河这样的河流,这些河流被设计成过宽的混凝土河道,以达到防洪的目的。要在这种经过严重改造的水体中实现良好的生态潜力,一个关键因素就是鱼类的可通过性。这就要求在低流量条件下提高水位并降低流速。本研究的目的是评估海槽是否适用于这一应用。我们进行了一项设计研究,以考察各个格栅参数对水深和流速的影响。在实验室水槽中以 1:8 的比例进行了物理实验。此外,还使用了二维数值模型。实验结果表明,要同时满足这两个要求,格槽必须浸没在水下,且其排列必须具有排斥性。栅高、栅距和阻塞度参数的配置至关重要。龙骨的角度和形状影响较小,可用于微调。最佳的栅栏设计为鱼类创造了一个可通过的区域。因此,通过沉积作用,最佳设计有助于改善生态。然而,它并没有创造出栖息地,也不构成全面的修复。一般来说,沉没式河槽可以满足鱼类在经过严重改造的固定河床水体中通过的水力要求。
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
River Research and Applications
River Research and Applications 环境科学-环境科学
CiteScore
4.60
自引率
9.10%
发文量
158
审稿时长
6 months
期刊介绍: River Research and Applications , previously published as Regulated Rivers: Research and Management (1987-2001), is an international journal dedicated to the promotion of basic and applied scientific research on rivers. The journal publishes original scientific and technical papers on biological, ecological, geomorphological, hydrological, engineering and geographical aspects related to rivers in both the developed and developing world. Papers showing how basic studies and new science can be of use in applied problems associated with river management, regulation and restoration are encouraged as is interdisciplinary research concerned directly or indirectly with river management problems.
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