Turbulent eddies to create paths for safe downstream migration for salmonids and eel past hydropower intakes

Informations

Funding country

Norway

Acronym

-

URL

-

Start date

1/1/2021

End date

12/31/2026

Budget

1,857,300 EUR

Fundings

Abstract

Fish on their downstream migration in rivers often encounter hydropower dams and intakes and tend to follow the main flow into the turbines where they may be injured or killed. While fine-meshed racks and bypass constructions can prevent fish from entering, they are costly and challenging to construct and operate in larger systems. Thus, many hydropower facilities have no or poor protection systems for downstream migration fish. There is a need to develop alternative guiding systems that are cost-effective and easier to operate. Via their sensory systems, fish can detect turbulent movements (eddies) in the water and respond by avoiding them or by exploiting the eddies for swimming. In FishPath we are using these abilities to develop turbulent eddies based guiding structures for salmon, trout and eel. As a start we have developed and successfully validated a computer model system to study the eddies created by a reference cylinder. We proceeded to model the eddies created by a hydrofoil with different appendices (mounted on the hydrofoil) to check which configurations that provides the type of eddies that may guide the fish. Next the behavior of the eddies will tested in a small flume. In 2022 we will study how fish respond to such eddies in live-fish experiments. Next, we need to align the objects that produce the desired eddies to create a fish path that the fish will follow, also explored by modelling and experiments. Once the candidate guiding systems have been developed their ability to guide fish will be tested, first in a relatively small laboratory flume, next in a large flume and finally the most promising in a full-scale prototype test in a river with a relatively large hydropower intake. Results will be compiled in a practical guideline for eddy based guiding system, where we will also explore how the knowledge on turbulence and fish can be used in mitigation of other migration challenges (e.g., upstream migration).