Physical modelling of sediment transport in mountain torrents upstream of open check dams Authors: Sebastian SCHWINDT Dr. Mário J. FRANCA Prof. Dr. Anton J. SCHLEISS Check dam in the region of Trent (Italy) Paper Code: EGU2015-6166 14/04/2015 Programme Session GM7.1 Physical modelling of sediment transport in mountain torrents upstream of open check dams OVERVIEW ►RESEARCH ►CASE BACKGROUND STUDIES ►MODEL DESIGN ►MEASURING SYSTEM ►EVALUATION TARGET OVERVIEW 2 Physical modelling of sediment transport in mountain torrents upstream of open check dams Research background ► Sediment and habitat dynamics (Wasserbau & Ökologie) » funding: Swiss Federal Office for the Environment (FOEN) Promotion of sediment continuity » conditioned sediment retention in upstream reaches » avoid sediment scarcity in draining channels BACKGROUND picture: Rhône, Switzerland 3 Physical modelling of sediment transport in mountain torrents upstream of open check dams Situation in the terrain (1) typical location for check dam BACKGROUND picture from Hübl (2009) 4 Physical modelling of sediment transport in mountain torrents upstream of open check dams Situation in the terrain (2) ► At channel slope change: varying sediment transport capacity Change of channel slope BACKGROUND picture from Hübl (2007) 5 Physical modelling of sediment transport in mountain torrents upstream of open check dams Hydraulic aspects ► Floods ► Large and sediments are crucial for river ecology floods threaten infrastructures ► Challenge: Design flood protection which » provides sufficient safety for dwellers » allows dynamic river development Bank full discharge (Krimml, Austria) optimization of open check dams in terms of sediment transport continuity is required or what impact on sediment transport have flow obstacles in steep gravel bed rivers? BACKGROUND 6 Physical modelling of sediment transport in mountain torrents upstream of open check dams Research approach ► Physical model most suitable ► Model design based on case studies of torrents and open check dams in the Alps ► No specific scale, but assures practical relevance » length ratios » similarity of sediment transport APPROACH pictures: Jenbach, Germany 7 Physical modelling of sediment transport in mountain torrents upstream of open check dams MODEL DESIGN flow obstacle (open check dam) removable channel (tests with local widening) MODEL DESIGN 8 Physical modelling of sediment transport in mountain torrents upstream of open check dams Design aspects – Channel ► Roughness » channel bed composed of grains > D84 of mobile sediment ► Geometry »J=2/4/6% MODEL DESIGN Variable longitudinal slope 9 Physical modelling of sediment transport in mountain torrents upstream of open check dams Design aspects – Sediment feeding ► Used sediment mixture based on dimensionless curve for Alpine rivers established by Hersberger (2003) Percent by weight [%] 100 75 50 25 Alps Alps60(own study) Hersberger (2003) 2003) Alps (Hersberger, 0 0.00 Used Usedmixture mixture 1.00 2.00 3.00 Dimensionless grain diameter Di/Dm [-] MODEL DESIGN 4.00 10 Physical modelling of sediment transport in mountain torrents upstream of open check dams Design aspects – Sediment feeding ► Supply system: Release container + conveyor belts MODEL DESIGN 11 Physical modelling of sediment transport in mountain torrents upstream of open check dams Sediment output ► Measurement system: filter basket + scale suspended with a mobile crane wireless data transfer [1/s] MEASURING SYSTEM 12 Physical modelling of sediment transport in mountain torrents upstream of open check dams Water level recording probes Probe distance to surface [m] ► Ultrasonic MEASURING SYSTEM 13 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » industrial CMOS camera (SMX-160C) » wide lens opening (1.4-1.8) t t + Δt t MEASURING SYSTEM t + Δt 14 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » image abstraction Cropped region of interest Original image Flow direction: left to right Apply binary filter MEASURING SYSTEM 15 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » identification of particle movement t Flow direction: left to right t + Δt MEASURING SYSTEM 16 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » time average of image series Channel width [m] Stream wise velocity u [m/s] Channel length [m] MEASURING SYSTEM 17 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » time average of image series Channel width [m] Stream wise velocity u [m/s] Channel length [m] MEASURING SYSTEM 18 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » time average of image series Channel width [m] Horizontal velocity v [m/s] Channel length [m] MEASURING SYSTEM 19 Physical modelling of sediment transport in mountain torrents upstream of open check dams Surface flow velocity ► Particle image velocimetry » time average of image series Channel width [m] Horizontal velocity v [m/s] Channel length [m] MEASURING SYSTEM 20 Physical modelling of sediment transport in mountain torrents upstream of open check dams Sediment depositions ► Zenithal photography » same principal as for flow velocity » different time resolution (4 frames per minute) front velocity front velocity MEASURING SYSTEM 21 Physical modelling of sediment transport in mountain torrents upstream of open check dams Evaluation target ► Derivation of flow energy balance + energy losses … ► Derivation of transport capacity … … along the whole channel … … across obstacles (i.e. open check dam) … EVALUATION TARGET 22 Physical modelling of sediment transport in mountain torrents upstream of open check dams Acknowledgements… … to the Swiss Federal Office for the Environment (project funding) Partners: Swiss federal institute of aquatic science and technology Swiss federal institute for forest, snow and landscape research Laboratory of hydraulics, hydrology and glaciology ETH Zurich THANKS TO … 23 Physical modelling of sediment transport in mountain torrents upstream of open check dams Thank you for your attention. Questions? sebastian.schwindt@epfl.ch http://lch.epfl.ch Krimmler Wasserfälle (Austria)
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