InSTREAM traces turbulent flows from tank test to tidal channel

Illustration (Image: Rockland Scientific)

The recently completed InSTREAM project has found significant differences between the turbulence characteristics in the tank and in the field.

The three-year InSTREAM project, short for In-Situ Turbulence Replication, Evaluation And Measurement, was conducted by a research consortium comprising six commercial and academic entities in the UK and Canada.

The main goal of the InSTREAM project was to determine the appropriate scaling between the turbulent flow conditions in a tank and in a tidal channel, so that numerical simulations of such
flows can be used to estimate uncertainties on turbine performance.

The project included the development of a sensor system that combined acoustic (Doppler), and non-acoustic (electro-magnetic and shear probe) technology to create a system that could be used in both laboratory and field applications, according to Rockland Scientific – one of the companies participating in the project.

The system was successfully deployed at the FloWaveTT Energy Research Facility and in the Minas Passage, Bay of Fundy.

Numerical simulations – representing the measured tank and field conditions – were then performed, which can be seen in a video below.

As expected, the InSTREAM project found significant differences between the turbulence characteristics in the tank and in the field, Rockland Scientific informed.

The 3D eddies observed in the field were, in relative terms, about three times larger than those generated in the tank, resulting in considerable differences in power and fatigue loading.

A scaling method has been developed to allow direct comparison and translation between the two flow regimes.

“This scaling greatly increases the usefulness of tank testing and numerical modeling, and can be reproduced for other test tanks. It also allows site-specific field measurements to be translated to tank experiments, enabling numerical models (validated by tank experiments) to be used for reliable and realistic estimation of turbine and array performance,” Rockland Scientific said.

The project was given the EUREKA designation, and was co-funded by the Offshore Energy Research Association and InnovateUK.

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