On the Values for the Turbulent Schmidt Number in Environmental Flows

Gualtieri, Carlo; Angeloudis, Athanasios; Bombardelli, Fabián A.; Jha, Sanjeev; Stoesser, Thorsten

doi:10.3390/fluids2020017

Cited by 171 publications

(115 citation statements)

References 86 publications

(233 reference statements)

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“…Arriaga and Leap [47] used Microsoft Excel Solver to obtain the optimum value of β which yielded the minimum value of F(β). [28,50] Sc T 1 -Von Kármán constant [51] κ 0.41 -Fall (settling) velocity [52] w s related to particle size m s −1 Roughness height [53] k s 0.003 m Finally, hyporheic exchange flux can be estimated as Equation (7). Table 1 lists the value of the parameters in Equation (7).…”

Section: Hyporheic Exchange Determinationmentioning

confidence: 99%

Effect of Hyporheic Exchange on Macroinvertebrate Community in the Weihe River Basin, China

Lin

Song

Gualtieri

et al. 2020

Water

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The effect of hyporheic exchange on macroinvertebrates is a significant topic in ecohydraulics. A field study was conducted during May and June 2017 to investigate the impacts of magnitude and patterns of hyporheic exchange on the sediment macroinvertebrate community in the Weihe River basin. The results demonstrate that upwelling flows cause resuspension of riverbed sediment, increasing the proportion of swimmer groups (such as Baetidae) in the macroinvertebrate community. However, large resuspension of river bed sediment results in a reduced abundance of macroinvertebrates. By controlling the transport processes of dissolved oxygen (DO), dissolved organic carbon (DOC), nutrients, temperature, and different patterns of hyporheic exchange strongly influence the structure of macroinvertebrate communities. Downwelling is more likely to produce rich invertebrate communities than upwelling. The magnitude for the hyporheic flux of 150-200 mm/d was optimal for the macroinvertebrate community in the Weihe River Basin. Above or below this rate results in a decline in community abundance and diversity. We suggest that research is conducted to better understand the effects of hyporheic exchange across bedforms on macroinvertebrate communities. The study supports any activities to preserve the ecological functions and health of rivers dominated by fine-grained sediments.

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Section: Hyporheic Exchange Determinationmentioning

confidence: 99%

Effect of Hyporheic Exchange on Macroinvertebrate Community in the Weihe River Basin, China

Lin

Song

Gualtieri

et al. 2020

Water

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“…where β t and β ν are the turbulent and viscous Schmidt numbers (or Prandtl numbers for temperature), here taken as constants. A typical value for liquids as well as gasses is β t = 0.7 (Gualtieri et al, 2017). For the molecular diffusivity, β ν can be estimated from the Stokes-Einstein relation:…”

Section: Scalar Transportmentioning

confidence: 99%

Dissolution instability and roughening transition

2017

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“…The velocity transects measured with an acoustic Doppler current profiler (ADCP) were used to estimate the shear velocities u * from the vertical velocity gradient through the fit of the logarithmic inner law (e.g., Sime et al, 2007;Gualtieri et al, 2018). An average of 30 ADCP "ensembles" (i.e., measurement verticals of velocity), corresponding to about 40 to 70 m in the cross-sectional direction, were required to obtain robust u * values.…”

Section: Shear Velocity Estimation From Adcp Transectsmentioning

confidence: 99%

An index concentration method for suspended load monitoring in large rivers of the Amazonian foreland

et al. 2019

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Abstract. Because increasing climatic variability and anthropic pressures have affected the sediment dynamics of large tropical rivers, long-term sediment concentration series have become crucial for understanding the related socioeconomic and environmental impacts. For operational and cost rationalization purposes, index concentrations are often sampled in the flow and used as a surrogate of the cross-sectional average concentration. However, in large rivers where suspended sands are responsible for vertical concentration gradients, this index method can induce large uncertainties in the matter fluxes. Assuming that physical laws describing the suspension of grains in turbulent flow are valid for large rivers, a simple formulation is derived to model the ratio (α) between the depth-averaged and index concentrations. The model is validated using an exceptional dataset (1330 water samples, 249 concentration profiles, 88 particle size distributions and 494 discharge measurements) that was collected between 2010 and 2017 in the Amazonian foreland. The α prediction requires the estimation of the Rouse number (P), which summarizes the balance between the suspended particle settling and the turbulent lift, weighted by the ratio of sediment to eddy diffusivity (β). Two particle size groups, fine sediments and sand, were considered to evaluate P. Discrepancies were observed between the evaluated and measured P, which were attributed to biases related to the settling and shear velocities estimations, but also to diffusivity ratios β≠1. An empirical expression taking these biases into account was then formulated to predict accurate estimates of β, then P (ΔP=±0.03) and finally α. The proposed model is a powerful tool for optimizing the concentration sampling. It allows for detailed uncertainty analysis on the average concentration derived from an index method. Finally, this model could likely be coupled with remote sensing and hydrological modeling to serve as a step toward the development of an integrated approach for assessing sediment fluxes in poorly monitored basins.

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On the Values for the Turbulent Schmidt Number in Environmental Flows

Cited by 171 publications

References 86 publications

Effect of Hyporheic Exchange on Macroinvertebrate Community in the Weihe River Basin, China

Effect of Hyporheic Exchange on Macroinvertebrate Community in the Weihe River Basin, China

Dissolution instability and roughening transition

An index concentration method for suspended load monitoring in large rivers of the Amazonian foreland

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