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Application of Ultrasound Image Velocimetry (UIV) to cohesive sediment (fluid mud) flows
Brouwers, B.; van Beeck, J.; Lataire, E. (2024). Application of Ultrasound Image Velocimetry (UIV) to cohesive sediment (fluid mud) flows.

Discover Applied Sciences 6: 124. https://dx.doi.org/10.1007/s42452-024-05747-y

In:

Discover Applied Sciences. Springer Nature Switzerland AG. e-ISSN 3004-9261, more

Peer reviewed article  

Available in  Authors | Dataset 

Keywords
    Hydraulics and sediment > Sediment > Cohesive sediment
    Hydraulics and sediment > Sediment > Nautical bottom
    Physical modelling
Author keywords
    Ultrasound imaging velocimetry; Cohesive sediments; Fluid mud; Rheology; Sedimentation; Nautical bottom

Project Top | Authors | Dataset 
  • Ontwikkeling van onderzoeksinfrastructuur ter ondersteuning van nautisch onderzoek, more

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Abstract
    Ultrasound image velocimetry (UIV) is a technique that enables non-intrusive whole-fow feld velocimetry measure?ments in opaque fuids. It gained interest in experimental fuid dynamics to study the fow mechanics of, amongst others, sediment-laden fuids. Further customisation of this technique is required to make it a reliable asset for experimental research involving high density cohesive sediments (fuid mud). Potential applications include rheological or settling experiments or experiments serving nautical research on the interaction between a ship, water and fuid mud forming the bottom of the navigation channel. This study presents experiments to validate the applicability of UIV in such dense cohesive sediments exhibiting non-Newtonian and thixotropic behaviour. During these experiments, an ultrasound transducer was moved through stationary mud at known velocities. Due to the viscosity of the mud, the zone of infu?ence of the moving transducer is limited in depth. This enables the recording of the relative velocity between moving transducer and the undisturbed mud at greater depths. Medical ultrasound imaging equipment was used, as such equip?ment allows ultrasound imaging in the required frequency range and frame rate. A good correlation (accuracy > 95 %) was found between the imposed motion velocity of the transducer and the output of UIV. However, limitations were found in both depth and velocity, caused by the equipment, settings and mud properties

Dataset
  • Brouwers, B. (2024). Validation experiments of Ultrasound Image Velocimetry (UIV) applied in cohesive sediments (fluid mud) [Data set]. Flanders Hydraulics, more

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