Abstract:In this study, macro-rough flows over beds with different permeability values are simulated using the large-eddy simulation, and the results are analysed by applying the double-averaging (DA) methodology. Spheres of different sizes and arrangements were used to form the beds, which are deemed to be permeable granular beds. The influence of bed permeability on the turbulence dynamics and structure is investigated. It was observed that the scales of the spanwise vortical structures over more permeable beds are l… Show more
“…Interestingly, the friction coefficient strongly increases once the particle radius exceeds about twenty wall units, as a result of the increased advective momentum mixing seen earlier in figure 22. This observation is consistent with the work of Fang et al (2018) and Manes et al (2009), who investigated open channel pressure-driven flows over fixed beds of spheres, finding enhanced momentum mixing for larger bed permeabilities. Figure 23.( a ) Spanwise- and time-averaged streamwise velocity profiles, evaluated behind the front and scaled with wall units, cf.…”
Section: Analysis Of Mass and Momentum Transfersupporting
confidence: 92%
“…These flow properties, along with the mixing of current and ambient fluid, will be analysed as a function of the bed structure. Some preliminary guidance is provided by previous numerical (Fang et al 2018; Leonardi et al 2018) and experimental (Manes et al 2009; Pokrajac & Manes 2009) studies of constant-density flows over beds of fixed spherical particles. These demonstrate that the bed structure can significantly affect the flow resistance, consistent with findings by Nogueira et al (2013) and Jiang & Liu (2018) for gravity currents over gravel beds of different sizes.…”
“…Interestingly, the friction coefficient strongly increases once the particle radius exceeds about twenty wall units, as a result of the increased advective momentum mixing seen earlier in figure 22. This observation is consistent with the work of Fang et al (2018) and Manes et al (2009), who investigated open channel pressure-driven flows over fixed beds of spheres, finding enhanced momentum mixing for larger bed permeabilities. Figure 23.( a ) Spanwise- and time-averaged streamwise velocity profiles, evaluated behind the front and scaled with wall units, cf.…”
Section: Analysis Of Mass and Momentum Transfersupporting
confidence: 92%
“…These flow properties, along with the mixing of current and ambient fluid, will be analysed as a function of the bed structure. Some preliminary guidance is provided by previous numerical (Fang et al 2018; Leonardi et al 2018) and experimental (Manes et al 2009; Pokrajac & Manes 2009) studies of constant-density flows over beds of fixed spherical particles. These demonstrate that the bed structure can significantly affect the flow resistance, consistent with findings by Nogueira et al (2013) and Jiang & Liu (2018) for gravity currents over gravel beds of different sizes.…”
“…, κ is the equivalent von Kármán constant (Breugem et al, 2006;Fang et al, 2018), y + is the vertical distance above the cylinder crest, y 0 + is the zero-displacement height, and k s + is the equivalent roughness height, all normalized with viscous length scale…”
Despite an increasingly large body of work advancing our understanding of flow interactions occurring at the interface of a turbulent flow overlying a permeable bed, little is known concerning how such flow may be affected by the presence of biofilms, which exist in nearly all aquatic environments. This study quantifies the effects on flow exerted by biofilms grown over experimental laboratory permeable beds until biofilm detachment, and then compares this to the residual effects after its detachment. The investigation is conducted in a flow channel by immersing two‐dimensional permeable beds with idealized geometry and different porosities in order to explore different bed permeabilities. Sequences of increasingly higher flow velocity conditions, followed by lower flow, were considered to explore the effect of detachment. Measurements were performed using particle image velocimetry. The total wall shear stress and friction velocity were found to increase in the presence of pregrown biofilm, and decrease after biofilm detachment, when compared at the same pump frequency. The dimensionless Reynolds stresses, at constant pump frequency, collapsed for different bed configurations in the outer layer, while for the inner layer, the presence of biofilm led to a decrease in dimensionless Reynolds stress. Quadrant analysis shows that this decrease was primarily due to a reduction in strong Q2 contributions. These results suggest that models for flow and transport over permeable media in aquatic environments cannot neglect the role of biofilms in modifying turbulence.
“…The low-frame-rate data were used to determine the global flow parameters for each wall case. Due to the spanwise flow heterogeneity induced by the relatively large surface topography and the interface porosity of the current wall models, the boundary-layer parameters were assessed via a double-averaging approach (Manes et al 2007;Mignot, Barthélemy & Hurther 2009;Fang et al 2018;Kim et al 2018Kim et al , 2019. This method was originally proposed in vegetated flow studies (Wilson & Shaw 1977;Raupach & Shaw 1982) and has been applied more recently to flow over large roughness in uniform and periodic configurations (Nikora et al 2001).…”
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