Improving the accuracy of four‐receiver acoustic Doppler velocimeter (ADV) measurements in turbulent boundary layer flows

Doroudian, Bahareh; Bagherimiyab, Fereshteh; Lemmin, Ulrich

doi:10.4319/lom.2010.8.0575

Cited by 23 publications

(15 citation statements)

References 27 publications

(66 reference statements)

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“…Due to their sampling geometry, the Vectrino+ ADVs provide very accurate measurements of vertical velocity ( w ), compared to the horizontal components. Theoretically, the noise level of the vertical velocity components is 13.9 times lower than the noise level of the horizontal velocity component in a four‐beam ADV [ Doroudian et al ., ]. While the accuracy of horizontal velocities is quoted as ± 1 mm s −1 [ Nortek, ], the vertical velocity has been estimated to have an accuracy of at least 10 times better, i.e., ±0.1 mm s −1 [ Devi and Kumar, ].…”

Section: Methodsmentioning

confidence: 99%

Enhanced sedimentation beneath particle‐laden flows in lakes and the ocean due to double‐diffusive convection

Jazi

Wells

2016

Geophysical Research Letters

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The transport rate of particles beneath sediment‐laden overflows and interflows in lakes and the ocean can be enhanced by double‐diffusive and settling‐driven convection. In previous experiments with sediment‐laden fluid overlaying a saline layer, visual measurements could only be made in the optically clear lower layer. Hence, there was difficulty distinguishing the two processes, hindering predictions of when enhanced sedimentation occurs. We used an Acoustic Doppler Velocimeter to measure velocities and turbulence above and below the initial sediment/salt interface. The velocity of the sediment fingers in the lower layer were always larger than the Stokes settling velocity of the particles, leading to an asymmetry in the flow field of the two convective layers. Sediment fingers only dominated when there were marginal density differences between the two layers. We conclude that double‐diffusive sediment fingers control sedimentation beneath interflows in most lakes, whereas settling‐driven convection is dominant in most oceanic overflows.

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Section: Methodsmentioning

confidence: 99%

Enhanced sedimentation beneath particle‐laden flows in lakes and the ocean due to double‐diffusive convection

Jazi

Wells

2016

Geophysical Research Letters

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“…The ADV data were initially filtered using a correlation threshold of 0.4 [Martin et al, 2002;Strom and Papanicolaou, 2007], a signal-to-noise (SNR) ratio of 10 [Wahl, 2000;Strom and Papanicolaou, 2007], and the expected measurement range. Further removal of spikes caused by aliasing was achieved by removing all velocity measurements that fell outside 3 standard deviations of the mean and then recalculating and repeating this step once [Buffin-Bélanger et al, 2006;Doroudian et al, 2010].…”

Section: Velocity Datamentioning

confidence: 99%

A Froude‐scaled model of a bedrock‐alluvial channel reach: 1. Hydraulics

Hodge

Hoey

2016

JGR Earth Surface

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Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details. Abstract The controls on hydraulics in bedrock-alluvial rivers are relatively poorly understood, despite the importance of the flow in determining rates and patterns of sediment transport and consequent erosion. To measure hydraulics within a bedrock-alluvial channel, we developed a 1:10 Froude-scaled laboratory model of an 18 × 9 m bedrock-alluvial river reach using terrestrial laser scanning and 3-D printing. In the reported experiments, water depth and velocity were recorded at 18 locations within the channel at each of five different discharges. Additional data from runs with sediment cover in the flume were used to evaluate the hydraulic impact of sediment cover; the deposition and erosion of sediment patches in these runs are analyzed in the companion paper. In our data (1) spatial variation in both flow velocity and Froude number increases with discharge; (2) bulk flow resistance and Froude number become independent of discharge at higher discharges; (3) local flow velocity and Reynolds stress are correlated to the range of local bed topography at some, but not most, discharges; (4) at lower discharges, local topography induces vertical flow structures and slower velocities, but these effects decrease at higher discharges; and (5) there is a relationship between the linear combination of bed and sediment roughness and local flow velocity. These results demonstrate the control that bedrock topography exerts over both local and reach-scale flow conditions, but spatially distributed hydraulic data from bedrock-alluvial channels with different topographies are needed to generalize these findings.

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“…Turbulence measurements are not only affected by Doppler noise, but also by random spikes. In contrast with Doppler noise, random spikes are not inherent to the measurement technique and occur mostly in poor measurement environments (Doroudian et al, 2010). To reduce the effect of noise resulting from random spikes, several post-processing filters have been proposed with the aim of improving the turbulence statistics measured by ADVs.…”

Section: Introduction and Literature Reviewmentioning

confidence: 99%

“…It was shown that the modified method improved the spectrum over all frequencies compared to the original despiking method. Spike-removal, however, depends on the flow conditions and caution should be taken when proposing universal guidelines (Doroudian et al, 2010). Chanson et al (2008) used an ADV for high-frequency velocity measurements in a small estuary.…”

Section: Introduction and Literature Reviewmentioning

confidence: 99%

Noise in Turbulence Measurements Using Acoustic Doppler Velocimetry

2012

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To validate the use of acoustic Doppler velocimeters (ADVs) for the measurement of turbulent flows, experiments were conducted in i) an axisymmetric turbulent jet, and ii) approximately homogenous isotropic turbulence with zero mean flow. The jet experiments show that the horizontal RMS velocities measured by the ADV were overestimated when compared to both flying hot-film anemometry measurements and 1

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Improving the accuracy of four‐receiver acoustic Doppler velocimeter (ADV) measurements in turbulent boundary layer flows

Cited by 23 publications

References 27 publications

Enhanced sedimentation beneath particle‐laden flows in lakes and the ocean due to double‐diffusive convection

Enhanced sedimentation beneath particle‐laden flows in lakes and the ocean due to double‐diffusive convection

A Froude‐scaled model of a bedrock‐alluvial channel reach: 1. Hydraulics

Noise in Turbulence Measurements Using Acoustic Doppler Velocimetry

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