Journal article
On the structure and self-similarity of rough-bed turbulent boundary layers over a mussel bed with active filtering
Journal of fluid mechanics, Vol.1007, A40
03/14/2025
DOI: 10.1017/jfm.2025.74
Appears in UI Libraries Support Open Access
Abstract
Three-dimensional eddy-resolving simulations are used to study the structure of turbulent boundary layers developing in an open channel where an array of sparse roughness elements in the form of partially burrowed mussels is placed on the smooth, flat channel bed starting at a certain streamwise location. The identical mussels are oriented with their major axis parallel to the mean flow. Their positions are randomised while making sure that the mussels are close to uniformly distributed inside the array. The turbulent flow approaching the leading edge of the array is fully developed. The protruding parts of the mussels play the role of sparse roughness elements and generate a rough-bed, internal boundary that is characterised by zero net flow exchange but non-zero local flow exchange due to active filtering. A double-averaging technique is used to obtain an equivalent, width- and time-averaged, boundary layer over a ‘flat’ rough surface containing no mussels. The paper discusses the effects of varying the mussel array density, protruding height of the mussels and filtering discharge on the spatial growth of the two-dimensional boundary layer. With proper scaling, the profiles of the (double-averaged) streamwise velocity are close to self-similar inside the inertial layer (e.g. for h
$\lt$
z
$\lt$
$\delta$
, where h is the height of the protruding part of the mussels and
$\delta$
is the boundary layer thickness) starting some distance from the leading edge of the array. The scaled turbulent kinetic energy and concentration profiles associated with the scalar advected through the excurrent syphons are also found to be self-similar above the vertical location where the maximum value is reached. An analytical model containing three subzones is proposed for the streamwise velocity in between the bed (z
$=$
0) and z
$=$
$\delta$
. The velocity profile inside the inertial region contains a law-of-the-wall component supplemented by a law-of-the-wake component. The scaling coefficient of the law-of-the-wake component is found to be larger than typical values used to describe velocity variation in turbulent boundary layers developing in a surrounding flow with close-to-uniform free stream velocity. The equivalent roughness height for this particular type of boundary layers developing over sparse roughness elements increases monotonically with h and the mussel array density,
$\rho$
N
. The paper also discusses the effect of the mussel bed density on the average refiltration fraction and the phytoplankton removal efficiency of the mussel bed.
Details
- Title: Subtitle
- On the structure and self-similarity of rough-bed turbulent boundary layers over a mussel bed with active filtering
- Creators
- Hao Wu - University of IowaGeorge Constantinescu - Department of Civil and Environmental Engineering and IIHR-Hydroscience and Engineering, The University of Iowa, Iowa, IA, USA
- Resource Type
- Journal article
- Publication Details
- Journal of fluid mechanics, Vol.1007, A40
- Publisher
- Cambridge University Press
- DOI
- 10.1017/jfm.2025.74
- ISSN
- 0022-1120
- eISSN
- 1469-7645
- Number of pages
- 40
- Grant note
- EAR Hydrologic Sciences Program of the US National Science Foundation under GRANT: 1659518
This work was supported by the EAR Hydrologic Sciences Program of the US National Science Foundation under GRANT No. 1659518. Any opinions, findings and conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the views of the U.S. National Science Foundation.
- Language
- English
- Date published
- 03/14/2025
- Academic Unit
- IIHR--Hydroscience and Engineering; Civil and Environmental Engineering
- Record Identifier
- 9984799686702771
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