Effects of flow intensity on local scour around a submerged square pile in a steady current

Du, Shengtao; Wang, Zhenlü; Wang, Risheng; Liang, Bingchen; Pan, Xinying

doi:10.1063/5.0103556

Cited by 13 publications

(2 citation statements)

References 42 publications

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“…In particular, such trend agreed well with a sinusoidal wave function marked as a black line. Similar profiles of scour holes have also been observed downstream of square cylinder obstacles [34,60]. The results indicated that despite the variation of hydrodynamic load magnitudes across AR and Re, the mechanisms of wake flows produced by deformable plates in modulating bed topography are similar across all cases.…”

Section: Sediment Bed Morphology Patternssupporting

confidence: 65%

Sediment bed morphology in the wake of wall mounted deformable plate

Suresh,

Wood,

Jin

2023

Preprint

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The distinctive sediment bed morphology modulated by the wake flow of a wall-mounted deformable plate across various structural aspect ratio and incoming flow speeds was investigated experimentally in a water channel. A surface scanner was implemented to quantify bed topography, and a tomographic particle image velocimetry system was used to characterize the three-dimensional wake flows. Results show that due to the deflection of incoming flow, the velocity magnitude enhanced at lateral sides of the plate, which produced distinctive scour holes in these regions. The level of velocity magnitude enhancement was highly correlated to postures of deformable plate. At a given flow speed, plate with lower aspect ratio exhibited smaller deformation, which produced more distinctive near-bed velocity enhancement in wake deflection zone and therefore led to higher erosion volume. Further inspection indicated that when deformation of the plate was small, the larger velocity enhancement close to bed can be attributed to higher plate drag coefficient and stronger flow mixing with high momentum flows away from bed. Supported with measurements, a basic formulation was established to quantify the shear stress acting on sedimentary bed as a function of incoming flow speed and plate aspect ratio.

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Section: Sediment Bed Morphology Patternssupporting

confidence: 65%

Sediment bed morphology in the wake of wall mounted deformable plate

Suresh,

Wood,

Jin

2023

Preprint

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“…In spite of extensive study, designers find it difficult to identify reliable scour depth estimation methodology. Flow intensity is also one of the most important factors affecting the maximum scour depth in local scour [18]. They found that scour depth is depending on many parameters and exactly proportional to the approach flow velocity.…”

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confidence: 99%

Experimental, Analytical, and Numerical Evaluation of Bridge Pier Scouring

Kadam,

Dawari

2024

Civil and Environmental Engineering

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Due to the rising number of incidents of bridge failure, scouring around bridges has received a lot of attention. Accurate scour depth prediction is a challenge for researchers and experts, despite massive global research efforts. Estimation the scour depth is crucial for both a safety and economy. Numerous factors affect the scour depth. In this work, the scour depth of three distinct pier geometries – circular, oblong, and rectangular – is thoroughly investigated, and the effect of water depth and discharge on the scour depth of a given geometry is evaluated. Three pier shapes were the subject of a total of 27 trials, nine of which combined three discharges with varying flume water depth. Experimental observation of scour depth shows good agreement with analytical and numerical scour depth values. A comparative examination of analytical, experimental, and numerical findings indicates that numerical models can effectively estimate scour depth, offering a cost-effective and time-saving methodology. Results showed that circular and oblong pier geometry shows lesser scour depth than rectangular pier geometry for a specific combination of flow depth and discharge. Scour depth decreased with increasing flume water depth for the same discharge. For the constant flume water depth, higher discharge results in greater scour depth.

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Experimental Study of Submergence Ratio on Local Scour Around a Square Pile in Steady Flow

Liang

et al. 2023

J. Ocean Univ. China

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Effects of flow intensity on local scour around a submerged square pile in a steady current

Cited by 13 publications

References 42 publications

Sediment bed morphology in the wake of wall mounted deformable plate

Sediment bed morphology in the wake of wall mounted deformable plate

Experimental, Analytical, and Numerical Evaluation of Bridge Pier Scouring

Experimental Study of Submergence Ratio on Local Scour Around a Square Pile in Steady Flow

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