Published February 15, 2021 | Version v1
Journal article Open

Field validation of an actuated convergent-beam acoustic Doppler profiler for high resolution flow mapping

  • 1. Energy and Environment Directorate, Pacific Northwest National Laboratory
  • 2. School of Engineering, The University of Edinburgh

Description

Energetic river and tidal flow environments feature complex hydrodynamic conditions. Conventional acoustic Doppler profiling instrumentation typically requires assumptions of flow homogeneity over the spatial scales of the divergent beam separation. This removes the ability to measure spatio-temporal variability within the flow. However, velocity variability within these spatial scales is often important in the design of structures and devices exposed to such flow, informing dynamic and peak hydrodynamic load predictions.

The research presented outlines the development and testing of a flow measurement instrument consisting of multiple spatially-separated single beam acoustic Doppler profilers converging on a remote focal point, the location of which can be programmatically adjusted through actuation. This increases the spatial resolution at which remote field measurements can be made in energetic flow environments. Field testing of the instrument was conducted in a tidal channel at Sequim Bay Inlet, WA, USA. Results are compared with independent reference measurements made by a co-located, motion-corrected acoustic Doppler velocimeter. This comparison, across tidal velocities of 0.4–0.7 m s−1, showed a mean velocity error of 0.5%–13.2% across nine sample locations within a 3.00 m × 2.25 m plane. To the authors' knowledge, this is the first publication of flow velocity results from non-intrusive acoustic measurements at an off-axis, focal point location that features 3D positional control.

Notes

This research was conducted under the Laboratory Directed Research and Development (LDRD) Program at the Pacific Northwest National Laboratory (PNNL), a national laboratory operated by Battelle for the U.S. Department of Energy. Mairi Dorward is part funded by an International Exchange Grant (2018) from the UK Energy Technology Partnership Scotland PECRE scheme and the Industrial Doctorate Centre for Offshore Renewable Energy (EP/J500847/1), funded by the ETI and the UKRC Energy Programme. All figures were produced using the MATLAB function export_fig. This work is also funded under the European Commission's Horizon 2020 programme via the RealTide project (Grant Agreement No. 727689).

Files

Harding_2021_Meas._Sci._Technol._32_045904.pdf

Files (2.9 MB)

Name Size Download all
md5:efff89da3d77ec6b4e5a4d1ce7101f82
2.9 MB Preview Download

Additional details

Funding

RealTide – Advanced monitoring, simulation and control of tidal devices in unsteady, highly turbulent realistic tide environments 727689
European Commission