Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River
Reservoir sedimentation is a critical issue worldwide, resulting in reduced storage volumes and, thus, reservoir efficiency. Moreover, sedimentation can also increase the flood risk at related facilities. In some cases, drawdown flushing of the reservoir is an appropriate management tool. However, t...
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MDPI AG
2021-03-01
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| Series: | Water |
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| Online Access: | https://www.mdpi.com/2073-4441/13/6/818 |
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doaj-7faf0cde0d7046fa83c5154f8e5955dc2021-03-17T00:06:58ZengMDPI AGWater2073-44412021-03-011381881810.3390/w13060818Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach RiverMarkus Reisenbüchler0Minh Duc Bui1Peter Rutschmann2Chair of Hydraulic and Water Resources Engineering, Technical University Munich, 80333 Munich, GermanyChair of Hydraulic and Water Resources Engineering, Technical University Munich, 80333 Munich, GermanyChair of Hydraulic and Water Resources Engineering, Technical University Munich, 80333 Munich, GermanyReservoir sedimentation is a critical issue worldwide, resulting in reduced storage volumes and, thus, reservoir efficiency. Moreover, sedimentation can also increase the flood risk at related facilities. In some cases, drawdown flushing of the reservoir is an appropriate management tool. However, there are various options as to how and when to perform such flushing, which should be optimized in order to maximize its efficiency and effectiveness. This paper proposes an innovative concept, based on an artificial neural network (ANN), to predict the volume of sediment flushed from the reservoir given distinct input parameters. The results obtained from a real-world study area indicate that there is a close correlation between the inputs—including peak discharge and duration of flushing—and the output (i.e., the volume of sediment). The developed ANN can readily be applied at the real-world study site, as a decision-support system for hydropower operators.https://www.mdpi.com/2073-4441/13/6/818reservoir flushingsedimentationartificial neural networksANNSaalach |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Markus Reisenbüchler Minh Duc Bui Peter Rutschmann |
| spellingShingle |
Markus Reisenbüchler Minh Duc Bui Peter Rutschmann Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River Water reservoir flushing sedimentation artificial neural networks ANN Saalach |
| author_facet |
Markus Reisenbüchler Minh Duc Bui Peter Rutschmann |
| author_sort |
Markus Reisenbüchler |
| title |
Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River |
| title_short |
Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River |
| title_full |
Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River |
| title_fullStr |
Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River |
| title_full_unstemmed |
Reservoir Sediment Management Using Artificial Neural Networks: A Case Study of the Lower Section of the Alpine Saalach River |
| title_sort |
reservoir sediment management using artificial neural networks: a case study of the lower section of the alpine saalach river |
| publisher |
MDPI AG |
| series |
Water |
| issn |
2073-4441 |
| publishDate |
2021-03-01 |
| description |
Reservoir sedimentation is a critical issue worldwide, resulting in reduced storage volumes and, thus, reservoir efficiency. Moreover, sedimentation can also increase the flood risk at related facilities. In some cases, drawdown flushing of the reservoir is an appropriate management tool. However, there are various options as to how and when to perform such flushing, which should be optimized in order to maximize its efficiency and effectiveness. This paper proposes an innovative concept, based on an artificial neural network (ANN), to predict the volume of sediment flushed from the reservoir given distinct input parameters. The results obtained from a real-world study area indicate that there is a close correlation between the inputs—including peak discharge and duration of flushing—and the output (i.e., the volume of sediment). The developed ANN can readily be applied at the real-world study site, as a decision-support system for hydropower operators. |
| topic |
reservoir flushing sedimentation artificial neural networks ANN Saalach |
| url |
https://www.mdpi.com/2073-4441/13/6/818 |
| work_keys_str_mv |
AT markusreisenbuchler reservoirsedimentmanagementusingartificialneuralnetworksacasestudyofthelowersectionofthealpinesaalachriver AT minhducbui reservoirsedimentmanagementusingartificialneuralnetworksacasestudyofthelowersectionofthealpinesaalachriver AT peterrutschmann reservoirsedimentmanagementusingartificialneuralnetworksacasestudyofthelowersectionofthealpinesaalachriver |
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