Sediment Management at Run-of-River Reservoirs Using Numerical Modelling

Sediment Management at Run-of-River Reservoirs Using Numerical Modelling

The worldwide storage volume of reservoirs is estimated to decrease by 0.5−1% per year due to sedimentation, which is higher than the gain in volume by newly built dams. For water supply or flood protection, the preservation of the storage volume is crucial. Operators and authorities, ther...

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Bibliographic Details
Main Authors: Markus Reisenbüchler, Minh Duc Bui, Daniel Skublics, Peter Rutschmann
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Water
Subjects:
telemac-sisyphe
numerical modelling
reservoir management
sedimentation
run-of-river
flushing
Online Access:https://www.mdpi.com/2073-4441/12/1/249
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spelling doaj-7711f5f2585c4292b77b7b84321fa7d52020-11-25T02:20:56ZengMDPI AGWater2073-44412020-01-0112124910.3390/w12010249w12010249Sediment Management at Run-of-River Reservoirs Using Numerical ModellingMarkus Reisenbüchler0Minh Duc Bui1Daniel Skublics2Peter Rutschmann3Chair of Hydraulic and Water Resources Engineering, Technical University of Munich, Arcisstrasse 21, D-80333 Munich, GermanyChair of Hydraulic and Water Resources Engineering, Technical University of Munich, Arcisstrasse 21, D-80333 Munich, GermanyWater Authority Rosenheim, Königstrasse 19, D-83022 Rosenheim, GermanyChair of Hydraulic and Water Resources Engineering, Technical University of Munich, Arcisstrasse 21, D-80333 Munich, GermanyThe worldwide storage volume of reservoirs is estimated to decrease by 0.5−1% per year due to sedimentation, which is higher than the gain in volume by newly built dams. For water supply or flood protection, the preservation of the storage volume is crucial. Operators and authorities, therefore, need sediment management concepts to ensure that the storage volume is sufficient. In this study, we developed a sediment-flushing concept using 2D numerical modelling for a run-of-river hydropower plant located in the Saalach River in southeastern Germany. The calibrated bed elevation was used as the initial bed for a number of simulations with different discharge regimes under varying operational schemes. By comparing the simulated results, we propose an appropriate flushing scheme in terms of intensity and duration to obtain a balance of sediment regime in the river. Furthermore, we demonstrate that such an optimised sediment management can generate synergies for improving measures of flood protection.https://www.mdpi.com/2073-4441/12/1/249telemac-sisyphenumerical modellingreservoir managementsedimentationrun-of-riverflushing
collection DOAJ
language English
format Article
sources DOAJ
author Markus Reisenbüchler
Minh Duc Bui
Daniel Skublics
Peter Rutschmann
spellingShingle Markus Reisenbüchler
Minh Duc Bui
Daniel Skublics
Peter Rutschmann
Sediment Management at Run-of-River Reservoirs Using Numerical Modelling
Water
telemac-sisyphe
numerical modelling
reservoir management
sedimentation
run-of-river
flushing
author_facet Markus Reisenbüchler
Minh Duc Bui
Daniel Skublics
Peter Rutschmann
author_sort Markus Reisenbüchler
title Sediment Management at Run-of-River Reservoirs Using Numerical Modelling
title_short Sediment Management at Run-of-River Reservoirs Using Numerical Modelling
title_full Sediment Management at Run-of-River Reservoirs Using Numerical Modelling
title_fullStr Sediment Management at Run-of-River Reservoirs Using Numerical Modelling
title_full_unstemmed Sediment Management at Run-of-River Reservoirs Using Numerical Modelling
title_sort sediment management at run-of-river reservoirs using numerical modelling
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2020-01-01
description The worldwide storage volume of reservoirs is estimated to decrease by 0.5−1% per year due to sedimentation, which is higher than the gain in volume by newly built dams. For water supply or flood protection, the preservation of the storage volume is crucial. Operators and authorities, therefore, need sediment management concepts to ensure that the storage volume is sufficient. In this study, we developed a sediment-flushing concept using 2D numerical modelling for a run-of-river hydropower plant located in the Saalach River in southeastern Germany. The calibrated bed elevation was used as the initial bed for a number of simulations with different discharge regimes under varying operational schemes. By comparing the simulated results, we propose an appropriate flushing scheme in terms of intensity and duration to obtain a balance of sediment regime in the river. Furthermore, we demonstrate that such an optimised sediment management can generate synergies for improving measures of flood protection.
topic telemac-sisyphe
numerical modelling
reservoir management
sedimentation
run-of-river
flushing
url https://www.mdpi.com/2073-4441/12/1/249
work_keys_str_mv AT markusreisenbuchler sedimentmanagementatrunofriverreservoirsusingnumericalmodelling
AT minhducbui sedimentmanagementatrunofriverreservoirsusingnumericalmodelling
AT danielskublics sedimentmanagementatrunofriverreservoirsusingnumericalmodelling
AT peterrutschmann sedimentmanagementatrunofriverreservoirsusingnumericalmodelling
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