Effects of Spur Dyke’s Orientation on Bed Variation in Channel Bend

Authors

  • Mohammad Athar Aligarh Muslim University, Aligarh, India
  • Talib Mansoor Aligarh Muslim University, Aligarh, India
  • Nishank Aggarwal Aligarh Muslim University, Aligarh, India

DOI:

https://doi.org/10.30564/hsme.v3i2.3834

Abstract

Spur dykes also known as Groynes are often used to either divert or attract the flow from the main structure to safeguard their life. Those structures may be bridge piers, abutments or any similar hydraulics structures. Spur dykes are also used to save the cutting of banks on concave side of stream. Lots of work have been done in recent past on spur dykes by many investigators in which various hydraulic and geometrical parameters of spur dykes such as discharge, sediment size, flow velocity, shear stress, spur dykes shape, size and submergence etc. are studied in detail. But mostly all the studies were pointed out in straight open channels. Very few studies were done in curved channel and only their similar effects were studied. In present thesis main emphasis is given to study the effect of orientation and location of spur dykes in meandering channel on the bed of downstream side. In the present study experimental work has been carried out in 80° bend and constant discharge (Q = 4.5 l/s) is allowed to pass in channel without spur dyke. It is found that maximum scouring occurs at angular displacement θ = 60° to 80° in the vicinity of outer bank. To minimize this scouring, spur dyke has been installed at angular displacement θ = 20°, 40° & 60° by changing the dyke angle α = 60°, 90° & 120° respectively. It is found that scouring at θ = 60° is reduced by installing spur dyke at angular displacement θ = 40° which is oriented at α = 60° and scouring at θ = 80° is reduced by installing spur dyke at angular displacement θ = 60° which is oriented at α = 60°.

Keywords:

Spur dykes; Inner bank; Outer bank; Bridge pier; Curved channel; Location

References

[1] M. Pandey, Z. Ahmad, P. K. Sharma, Scour around impermeable spur dikes: A review, ISH J. Hyd. Eng. (2017), 24:25-44.

[2] H. Zhang, H. Nakagawa, H. Mizutani,Bed morphology and grain size characteristics around a spur dyke, Int. J. Sediment Res., (2012), 27:141-157.

[3] M. F. M. Yossef, H. J. D.Vriend, Flow details near river groynes: Experimental investigation, J. of Hyd. Engg, (2011), 137:193-210.

[4] S. Karki, Y. Hasegawa, M. Hashimoto, H. Nakagawa,K. Kawaike, Short-term evolution of flow & morphology in an erodible meandering channel with & without groynes, Annu. J. Hyd. Eng., JSCE, (2018), 74:1147-1152.

[5] H. Zhang, H. Nakagawa, Characteristics of local flow and bed deformation at impermeable and permeable spur dykes, Annu. J. Hyd. Eng., JSCE, (2009), 53:145-150.

[6] Przedwojski, Bed topography and local scour in rivers with banks protected by groynes, J. Hyd. Res., (2015), 33:257-273.

[7] R.J. Garde, K.S. Subramanya, K.D. Nambudripad, Study of scour around spur dikes,J. Hyd. Eng., (1961), 87:23-27.

[8] M.A. Gill, Erosion of sand beds around spur-dikes, J. Hyd. Div. ASCE,(1972), 98:1587-1602.

[9] N.A. Zaghloul, Local scour around spur-dikes, J. Hydrol., (1983), 60:123-140.

[10] R. Kuhnle, C. Alonso,F.D. Shields, Geometry of scour holes associated with 90° spur dikes, J. Hyd. Eng. ASCE, (1999), 125:972-978.

[11] IS 8408: 1994, Planning and design of groynes in alluvial river-Guidelines, Bureau of Indian Standards Manak Bhavan, 9 Bahadur Shah Zafar Marg, New Delhi 110002.

[12] H. Zhang, Study on flow and bed evolution in channels with spur dykes, PhD thesis, Kyoto University, 2005.

[13] E. Elawady, M. Michiue, O. Hinokidani, Movable bed scour around submerged spur- dikes, Proc. of Hyd. Eng., (2001), 45:373-378.

[14] A. Parashar, N.K. Tiwari, M.Tech dissertation, Experimental study of spur dykes, Deptt of Civil Eng., NIT Kurukshetra, 2014.

[15] A. Masjedi, M. Bejestan, A. Moradi,Experimental study on scour depth in around a T-shape spur dike in a 180 degree bend,J. Am. Sci., (2010), 6:886-892.

[16] M. Vaghefi, M. Ghodsian,SalehiNeyshaboori,S.A.A, Experimental study on the effect of a T-shaped spur dike length on scour in a 90° channel bend.” Arab. J. Sci. Eng., (2009), 34:337.

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Vol. 3 , Iss. 2 (October 2021)

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