Abstract
Scouring is one of the most common potential causes of bridge pile foundation failure with loss of life, economic and environmental impacts. Comprehensive studies on the numerical simulation of local scour around pile groups are still limited. This paper presents a numerical simulation using Flow-3D software to calculate the maximum sediment scour depth and investigate the mechanism around the groups of three cylinders in a tandem arrangement. A validation using the experimental study was carried out to confirm the reliability of the present numerical model. By using the Van Rijn transport rate equation and RNG k-ε turbulence model, the results of time evolution of scour depth and bed elevation contour show good agreement with the experimental study. The numerical simulation of three cylinders in a tandem arrangement were conducted with pile spacing ratios, G/D of 2 and 3. The local scour is affected by the horseshoe vortex from the downflow driven by the downward pressure gradient and rotates in front of the pile and the high bed shear stress, triggered by flow acceleration. The deepest maximum local scour depth is always obtained by the front pile as a shield pile, followed by the piles behind. The trend of the maximum local scour depth in a tandem arrangement is in accordance with the experimental studies and has a better agreement than previous numerical studies with the same model setup. This means that the numerical model used to simulate pile groups is accurate and capable of calculating the depth of sediment scour.
Highlights
The use of offshore pile foundations has become commonplace [1,2,3], especially for bridge construction due to its structural efficiency, low cost, and ease of construction [4,5,6]
According to the results obtained, it can be concluded that Flow-3D is considered as effective software for simulating a numerical model of local scour around bridge piles since the result of the validation model has good agreement with the experimental study
This proves that the sediment scour model of Van Rijn equation as bed load transport rate equation and renormalized group (RNG) k-ε model as turbulence model used in this study are accurate and capable to calculate the sediment scour depth
Summary
The use of offshore pile foundations has become commonplace [1,2,3], especially for bridge construction due to its structural efficiency, low cost, and ease of construction [4,5,6]. Several issues, including the scour phenomenon, must be addressed to ensure the safety and stability of the offshore pile foundation which will directly affect the bridge structure [8,9,10]. In Taiwan, six lives were lost due to the collapse of one of the most extremely scour-critical bridges, the Houfeng Bridge, on 14 September 2008 during extreme weather conditions with strong winds and heavy rain [19]. This shows that scour is one of the most c(oam) mon potential causes of bridge pile found(bat)ion failure which causes loss of life, economic and environmental impacts.
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