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High-resolution flow characterization close to the sediment-water interface in a run of the river reservoir

Water Resources Research. Bd. 53. H. 5. American Geophysical Union (AGU) 2017 S. 4286 - 4302

Erscheinungsjahr: 2017

ISBN/ISSN: 1944-7973

Publikationstyp: Zeitschriftenaufsatz

Sprache: Englisch

Doi/URN: 10.1002/2016wr020203

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Inhaltszusammenfassung


A bistatic high‐resolution acoustic profiler was used in order to characterize the lowermost boundary layer of a run of the river reservoir. The profiler allows determining the statistics of the three‐dimensional flow field at a single point (sweet spot) as well as the measurement of the time averaged flow velocity profiles at 1 mm resolution around the sweet spot. Therefore, in addition to the flow statistics provided by single point acoustic Doppler profilers, mixing coefficients as well as...A bistatic high‐resolution acoustic profiler was used in order to characterize the lowermost boundary layer of a run of the river reservoir. The profiler allows determining the statistics of the three‐dimensional flow field at a single point (sweet spot) as well as the measurement of the time averaged flow velocity profiles at 1 mm resolution around the sweet spot. Therefore, in addition to the flow statistics provided by single point acoustic Doppler profilers, mixing coefficients as well as production of turbulent kinetic energy can be calculated using a single device. Fitting of semiempirical relations to observed cospectra allowed eliminating artifacts as they result from coordinate system rotation during calculation of Reynolds stress profiles at millimeter resolution. While most parameters showed characteristics of a constant stress layer, length scales indicated anisotropy of the turbulent flow. Under these anisotropic near wall conditions, we found that the use of the commonly accepted Kolmogorov constants for the determination of dissipation rates using the inertial dissipation method is not valid any more. Instead, these constants vary with distance from the sediment water interface. We provide evidence that coefficients determined by numerical simulations are the appropriate choice also in field applications. In addition we resolved the viscous boundary layer close to the sediment‐water interface in high resolution (1 mm) profiles and identified a double logarithmic layer above 1.5 cm at one location. The discrepancy of the scales as well as the double logarithmic layer suggests the existence of roughness elements upstream of the measurement sites.» weiterlesen» einklappen

  • bottom boundary layer
  • sediment water interface
  • acoustic profiler
  • turbulence

Autoren


Brand, Andreas (Autor)

Klassifikation


DFG Fachgebiet:
Wasserforschung

DDC Sachgruppe:
Naturwissenschaften

Verknüpfte Personen


Christian Noss