Numerical Simulation and Experimental Verification of Downstream Fish migration in a Bulb turbine

Helmut Benigni; Josef Schneider; Walter Reckendorfer; Jürgen Schiffer; Jeffrey Tuhtan; Stefan Leithner; Gerald Zenz; Peter Meusburger

doi:10.1088/1755-1315/1079/1/012101

Numerical Simulation and Experimental Verification of Downstream Fish migration in a Bulb turbine

Helmut Benigni^*, Josef Schneider, Walter Reckendorfer, Jürgen Schiffer, Jeffrey Tuhtan, Stefan Leithner, Gerald Zenz, Peter Meusburger

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

Abstract

Downward migrating fish can be damaged when passing through turbines in the direction upstream to downstream. The overall influence on the fish population is not known yet. In recent decades, many publications with steady-state CFD calculations for the passage of fish have been published. However, transient CFD calculations show that the range in which fish pass the runner itself is not easily predictable but rather random, influenced by the current position of the runner, thus affecting the probability of survival. The pressures, which are also well represented by steady-state CFD calculations, are compared by applying “Live Fish” (typical types for the middle of Europe) as well as “Barotrauma Detections Sensors (BDS)” which were exposed to the area of the turbine intake at different heights and monitored during downstream migration.

Original language	English
Article number	012101
Number of pages	10
Journal	IOP Conference Series: Earth and Environmental Science
Volume	1079
DOIs	https://doi.org/10.1088/1755-1315/1079/1/012101
Publication status	Published - 1 Jul 2022
Event	31st IAHR Symposium on Hydraulic Machinery and Systems - NTNU, Trondheim, Norway Duration: 27 Jun 2022 → 1 Jul 2022

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10.1088/1755-1315/1079/1/012101Licence: CC BY 3.0

Cite this

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title = "Numerical Simulation and Experimental Verification of Downstream Fish migration in a Bulb turbine",

abstract = "Downward migrating fish can be damaged when passing through turbines in the direction upstream to downstream. The overall influence on the fish population is not known yet. In recent decades, many publications with steady-state CFD calculations for the passage of fish have been published. However, transient CFD calculations show that the range in which fish pass the runner itself is not easily predictable but rather random, influenced by the current position of the runner, thus affecting the probability of survival. The pressures, which are also well represented by steady-state CFD calculations, are compared by applying “Live Fish” (typical types for the middle of Europe) as well as “Barotrauma Detections Sensors (BDS)” which were exposed to the area of the turbine intake at different heights and monitored during downstream migration.",

author = "Helmut Benigni and Josef Schneider and Walter Reckendorfer and J{\"u}rgen Schiffer and Jeffrey Tuhtan and Stefan Leithner and Gerald Zenz and Peter Meusburger",

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TY - JOUR

T1 - Numerical Simulation and Experimental Verification of Downstream Fish migration in a Bulb turbine

AU - Benigni, Helmut

AU - Schneider, Josef

AU - Reckendorfer, Walter

AU - Schiffer, Jürgen

AU - Tuhtan, Jeffrey

AU - Leithner, Stefan

AU - Zenz, Gerald

AU - Meusburger, Peter

PY - 2022/7/1

Y1 - 2022/7/1

N2 - Downward migrating fish can be damaged when passing through turbines in the direction upstream to downstream. The overall influence on the fish population is not known yet. In recent decades, many publications with steady-state CFD calculations for the passage of fish have been published. However, transient CFD calculations show that the range in which fish pass the runner itself is not easily predictable but rather random, influenced by the current position of the runner, thus affecting the probability of survival. The pressures, which are also well represented by steady-state CFD calculations, are compared by applying “Live Fish” (typical types for the middle of Europe) as well as “Barotrauma Detections Sensors (BDS)” which were exposed to the area of the turbine intake at different heights and monitored during downstream migration.

AB - Downward migrating fish can be damaged when passing through turbines in the direction upstream to downstream. The overall influence on the fish population is not known yet. In recent decades, many publications with steady-state CFD calculations for the passage of fish have been published. However, transient CFD calculations show that the range in which fish pass the runner itself is not easily predictable but rather random, influenced by the current position of the runner, thus affecting the probability of survival. The pressures, which are also well represented by steady-state CFD calculations, are compared by applying “Live Fish” (typical types for the middle of Europe) as well as “Barotrauma Detections Sensors (BDS)” which were exposed to the area of the turbine intake at different heights and monitored during downstream migration.

U2 - 10.1088/1755-1315/1079/1/012101

DO - 10.1088/1755-1315/1079/1/012101

M3 - Conference article

VL - 1079

JO - IOP Conference Series: Earth and Environmental Science

JF - IOP Conference Series: Earth and Environmental Science

SN - 1755-1307

M1 - 012101

T2 - 31st IAHR Symposium on Hydraulic Machinery and Systems

Y2 - 27 June 2022 through 1 July 2022

ER -

Numerical Simulation and Experimental Verification of Downstream Fish migration in a Bulb turbine

Abstract

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