Experimental and numerical investigation of the effect of different shapes of collars on the reduction of scour around a single bridge pier.

Afshin Jahangirzadeh,Sareh Naji,Shatirah Akib,Shahaboddin Shamshirband,Hossein Basser,Hojat Karami,Vanesa Magar

doi:10.1371/journal.pone.0098592

Afshin Jahangirzadeh, Sareh Naji + Show 5 more

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https://doi.org/10.1371/journal.pone.0098592

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Abstract

The scour phenomenon around bridge piers causes great quantities of damages annually all over the world. Collars are considered as one of the substantial methods for reducing the depth and volume of scour around bridge piers. In this study, the experimental and numerical methods are used to investigate two different shapes of collars, i.e, rectangular and circular, in terms of reducing scour around a single bridge pier. The experiments were conducted in hydraulic laboratory at university of Malaya. The scour around the bridge pier and collars was simulated numerically using a three-dimensional, CFD model namely SSIIM 2.0, to verify the application of the model. The results indicated that although, both types of collars provides a considerable decrease in the depth of the scour, the rectangular collar, decreases scour depth around the pier by 79 percent, and has better performance compared to the circular collar. Furthermore, it was observed that using collars under the stream’s bed, resulted in the most reduction in the scour depth around the pier. The results also show the SSIIM 2.0 model could simulate the scour phenomenon around a single bridge pier and collars with sufficient accuracy. Using the experimental and numerical results, two new equations were developed to predict the scour depth around a bridge pier exposed to circular and rectangular collars.

Highlights

The collapse of bridges after a flood is a disaster resulting in irrevocable consequences such as interrupting transport systems, injuring and taking lives
The key factor in the development of a scour hole is the presence of complex vortex systems around the bridge piers (Figure 1)
The parameters obtained in the verification section were used to simulate the effects of circular and rectangular collars on the reduction of scour around a bridge pier

Summary

Introduction

The collapse of bridges after a flood is a disaster resulting in irrevocable consequences such as interrupting transport systems, injuring and taking lives. A downward flow is developed due to the downward negative stagnation pressure gradient of the logarithmic approach flow adjacent to the upstream face of the pier. This downward flow and its interaction with boundary layer separation close to the bed forms a vortex system [4]. This vortex system which has a shape similar to a horseshoe, is called the horseshoe vortex and known as the main local scouring mechanism at the base of the bridge piers [5]. The separation of the flow downstream from the pier forms wake vortices, which function as little ‘tornados,’ lift material from the streambed and generating an independent scour hole at downstream side of the pier [6]

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