Reduction of Scour Around a Bridge Pier by Multiple Collar Plates

Garg, Vikas; Setia, Baldev; M.Ish, D. V. S. Verma

doi:10.1080/09715010.2005.10514802

Cited by 14 publications

(5 citation statements)

References 4 publications

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“…The pier modification countermeasures include the provision of collars, cables, opening slots, hooked collars, etc. Collars of different shapes and varying thicknesses are practiced by many researchers around the bridge piers as protective plates against sediment removal [11,26,[29][30][31][32][33]. According to Alabi [34], a collar that is thinner than 5 mm has no adverse effect on scour development.…”

Section: Introductionmentioning

confidence: 99%

Impact Assessment of Pier Shape and Modifications on Scouring around Bridge Pier

Farooq

Ghumman

2019

Water

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Previous experimental research on utilizing pier modifications as countermeasures against local scour has focused primarily on circular pier. It is of utmost importance to further investigate the most suitable pier shape for pier modification countermeasure separately and in combination. This experimental study aims to reduce the stagnation of the flow and vortex formation in front of the bridge pier by providing a collar, a hooked collar, a cable, and openings separately and in combination around a suitable pier shape. Therefore, six different pier shapes were utilized to find out the influence of pier shape on local scouring for a length-width ratio smaller than or equal to 3. A plain octagonal shape was shown as having more satisfactory results in reducing scour compared to other pier shapes. Furthermore, the efficiency of pier modification was then evaluated by testing different combinations of collar, hooked collar, cable, and openings within the octagonal bridge pier, which was compared to an unprotected octagonal pier without any modification. The results show that by applying such modifications, the scour depth reduced significantly. The best combination was found to be a hooked collar with cable and openings around an octagonal pier. It was revealed that the best combination reduced almost 53% of scour depth, as compared to an unprotected octagonal pier.

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Section: Introductionmentioning

confidence: 99%

Impact Assessment of Pier Shape and Modifications on Scouring around Bridge Pier

Farooq

Ghumman

2019

Water

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“…The scour hole around bridge elements typically occurs due to the primary vortex, which is caused by hydrodynamic lift and drag forces on sediments and carry them downstream of the structure (Choufu et al, 2019; Ghaderi and Abbasi, 2019; Hoffmans and Verhiej, 1997; Melville, 1997; Melville and Coleman, 2000; Pandey, Chen, et al, 2019; Pandey, Lam, et al, 2019). The scour mechanism, estimation, and prevention techniques at bridge elements have been widely studied by (Chiew, 1992; Choufu et al, 2019; Garg et al, 2005; Gaudio et al, 2012; Hoffmans and Verhiej, 1997; Kumar et al, 1999; Kothyari et al, 2002, 2007; Melville, 1997; Melville and Coleman, 2000; Pandey et al, 2018; Panici et al, 2018; Sheppard et al 2014). The scour depth is high in front of the pier, with the main scour hole size develops along the pier (Kothyari & Rangaraju, 2001; Pandey et al, 2018).…”

Section: Literature Reviewmentioning

confidence: 99%

“…They suggested the performance of the collar decreases with an increase in the angle of attacks. Garg et al (2005) studied the influence of three different collars with a diameter of 1.5 b , b is the pier diameter. For the same flow conditions, this approach reduced the maximum scour depth by approximately 80% as compared to a non‐protected pier.…”

Section: Literature Reviewmentioning

confidence: 99%

Reduction of scour around circular piers using collars

Pandey

Pourshahbaz

et al. 2022

J Flood Risk Management

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River dynamics and sediment transport play an important role in river bed morphology. Building a bridge pier along the river alters the cross-section of the river and causes the change in flow processes. These changes are mainly responsible for pier scour. In this paper, the usage of collars to reduce scour around circular piers has been investigated. The collars with different diameters and depth positions have been studied using previous data and additional data collected in the present study to assess their effectiveness in reducing scour. Using a wide range of measured data, an empirical equation to compute the maximum scour depth around the circular piers in the presence of collars has been proposed. The proposed equation has been validated and proven to be applicable to a wide range of pier layouts. It has been found that the maximum efficiency can be achieved by fixing the collar at bed level and adopting a collar diameter 1.5-2.5 times of pier diameter.

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“…Keshavarzi et al (2018) made experimental investigation of interaction of two piers (L/D) from zero to twelve where L spacing between two piers from center to center and D the diameter of the pier with different flow intensities, it was found that the scour depth when the spacing 1< L/D< 2.5 increases, in the same meaning when the spacing increases the scour depth at upstream of the front pier increases [20]. Vikas et al investigated experimentally of using a collar plate at bed level of different sizes, the larger size was three times the diameter of pier and gave zero scour depth, also it was studied the using of triple collar with different spacing between them, it was found when the spacing between collar (D/6) reduces the scour by 84 % comparing with the pier without any protection [21].…”

Section: Introductionmentioning

confidence: 99%

Optimum Design for Controlling the Scouring on Bridge Piers

Al-Shukur

Ali

2019

Civ Eng J

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The scouring around bridge pier can be considered the most important reasons of bridge failure. Therefore, we investigated by using physical models of piers and we used single pier with square collar , circular collar and interaction of two piers in laboratory channel, its width 1 m and applied three velocities (0.1, 0.08, and 0.07) m/sec. This experimental investigation was made to choose the optimum shape and location of collar of single pier and comparing it with the interaction of two piers, the results showed that both square and circular collar decrease the scour depth, but the square collar is more effective of reducing scouring and the best location at bed level for single pier, comparing the results of single pier with the interaction of two piers, the interaction of two piers without any countermeasure reduced scour depth about 58%.

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Reduction of Scour Around a Bridge Pier by Multiple Collar Plates

Cited by 14 publications

References 4 publications

Impact Assessment of Pier Shape and Modifications on Scouring around Bridge Pier

Impact Assessment of Pier Shape and Modifications on Scouring around Bridge Pier

Reduction of scour around circular piers using collars

Optimum Design for Controlling the Scouring on Bridge Piers

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