July 18, 2019
Journal Article

Fish response to turbulence generated using multiple random actuated synthetic jet arrays

Abstract

Hydroelectric power stations generate turbulent flow conditions, which represent a potentially significant hydraulic stressor to fish passing through the turbine system. A test facility has been developed using two randomly actuated synthetic jet arrays (RASJAs) of 25 independent submersible pumps to generate a turbulent flow field for biological dose-response testing. The novel elements of this approach include the ability to control the exposure duration within a test volume due to low mean flow velocity as well as the capacity to scale the turbulence levels as a function of pump capacity. Juvenile Chinook salmon (Oncorhynchus tshawytscha) were subjected to the turbulent flow regime with average turbulence kinetic energy per unit mass of 0.089 m^2/s^2 for periods of 2~min and 10 min. No significant loss of equilibrium or disorientation was observed after exposure for either duration at the level of turbulence achieved in this prototype. Further scaling of this approach is required to generate a complete dose-response relationship.

Revised: December 3, 2020 | Published: July 18, 2019

Citation

Harding S.F., R.P. Mueller, M.C. Richmond, P. Romero-Gomez, and A. Colotelo. 2019. Fish response to turbulence generated using multiple random actuated synthetic jet arrays. Water 11, no. 8:1715. PNNL-SA-122952. doi:10.3390/w11081715