2017
DOI: 10.1002/2016jf004152
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Effects of Bed Forms and Large Protruding Grains on Near‐Bed Flow Hydraulics in Low Relative Submergence Conditions

Abstract: In mountain rivers, bed forms, large relatively immobile grains, and bed texture and topographic variability can significantly alter local and reach‐averaged flow characteristics. The low relative submergence of large immobile grains causes highly three‐dimensional flow fields that may not be represented by traditional shear stress, flow velocity, and turbulence intensity equations. To explore the influence of large protruding grains and bed forms on flow properties, we conducted a set of experiments in which … Show more

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Cited by 28 publications
(26 citation statements)
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References 162 publications
(249 reference statements)
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“…These local changes in elevation and GSD did not correlate with slope or relative submergence, possibly because of the limited range of flow depths in our experiments. Relative submergence based on the flow depth upstream of the hemispheres (an alternative definition) may instead be important for bed morphology changes because it controls the extent of plunging flow over obstacles and this is discussed in Monsalve et al (). Given that most changes around the hemispheres were relatively similar between runs (see section 3.2 and Figures ), we now focus on how all runs together changed through time.…”
Section: Discussionmentioning
confidence: 99%
“…These local changes in elevation and GSD did not correlate with slope or relative submergence, possibly because of the limited range of flow depths in our experiments. Relative submergence based on the flow depth upstream of the hemispheres (an alternative definition) may instead be important for bed morphology changes because it controls the extent of plunging flow over obstacles and this is discussed in Monsalve et al (). Given that most changes around the hemispheres were relatively similar between runs (see section 3.2 and Figures ), we now focus on how all runs together changed through time.…”
Section: Discussionmentioning
confidence: 99%
“…Empirically, the best flow resistance relations are associated not with the D 50 but with grains much larger than average – typically D 84 (Hey, ) or D 90 (Bray, ) – as these grains most strongly influence the near‐bed channel hydraulics (Recking, ; Monsalve et al. ).…”
Section: Flow Resistancementioning
confidence: 99%
“…where C i is the correction factor corresponding to grain size D i , wherein i signifies the percentile of the cumulative GSD. Empirically, the best flow resistance relations are associated not with the D 50 but with grains much larger than average -typically D 84 (Hey, 1979) or D 90 (Bray, 1980) -as these grains most strongly influence the near-bed channel hydraulics (Recking, 2009;Monsalve et al, 2017). That a correction factor is necessary even when using D 84 or D 90 is attributable to the fact that roughness in natural channels is imparted not only from the surface of the bed but also from self-organizing bedforms and structures that develop within the channel (Clifford et al, 1992;Millar, 1999;Wilcox et al, 2006).…”
Section: Flow Resistancementioning
confidence: 99%
“…Only part of the flow power in mountain streams is available to entrain and transport sediments (Hohermuth & Weitbrecht, 2018; Rickenmann & Recking, 2011), as some energy is dissipated in various ways, including local hydraulic plunging and jumps over steps (Comiti et al, 2009; Green et al, 2013; Monsalve et al, 2017). In such complex hydraulic conditions, well‐known and established flow resistance approaches and empirical bed load formulas are unlikely to be reliable (e.g., Yager et al, 2018).…”
Section: Introductionmentioning
confidence: 99%