A Review of Methods for Assessing Incipient Motion of Sediments and the Factors Affecting it

Document Type : review paper

Authors

ferdowsi

Abstract

In erodible channels, a series of hydrodynamic forces are applied on the sediments in the waterways. With the increasing flow rate, the hydrodynamic forces also increase gradually. If hydrodynamic forces go beyond the critical value, the sediment particles begin to move. The onset of the sediment movement is commonly called "Incipient Motion", and the circumstances in which the particles move is referred to as the "Threshold or Critical Condition". The Shields Diagram seems to be the starting point for all research done in the field of sediment transport. Although some efforts were made before the Shields approach, they were mostly based on empirical formulae and did not have much use in practical applications. Many studies were conducted by Shields and the resulting diagram provided by Shields was used widely in practical issues. In spite of the widespread application of Shields Diagram, some studies indicate limitations on its use. One of the problems in the Shields Diagram is that shear stress and shear velocity are considered as independent variables, while these two variables are dependent. Moreover, it does not explicitly specified which method is used to determine the critical shear stress. The effect of the bed slope on the incipient motion is still not clear and researchers have achieved quite different results in this regard.

Keywords

References

Aksoy S. 1973. Fluid forces acting on a sphere near a solid boundary. Proc. 15th IAHR Congr., Istanbul, Turkey, 1: 217-224.
Bagnold R.A. 1974. Fluid forces on a body in shear flow; experimental use of stationary flow. Proc. R. Soc. London A, 340: 147-171.
Brayshaw A.C., Frostick L.E. and Reid I. 1983. The hydrodynamics of particle clusters and sediment entrainment in course alluvial channels. Sedimentology, 30: 137-143.
Carstens M.R. 1966. An analytical and experimental study of bed ripples under water waves. Quart. Rep. 8 and 9, Georgia Institute of Technology, School of Civil Engineering, Atlanta, USA.
Cheng N.Sh. and Chiew Y.M. 1999. Incipient sediment motion with upward seepage. Journal of Hydraulic Research, 37(5): 665-681
Coleman N.L. 1967. A theoretical and experimental study of drag and lift forces acting on a sphere resting on a hypothetical stream bed. Proc. 12th IAHR Congr., Fort Collins, Colorado, 3: 185-192.
Davies T.R.H. and Samad M.F.A. 1978. Fluid dynamic lift on a bed particle. J. Hydraul. Div., 104(8): 1171-1182.
Dey S. 1999. Sediment threshold. Appl. Math. Modelling, 23(5): 399-417.
Dey S. 2003. Threshold of sediment motion on combined transverse and longitudinal sloping beds. J. Hydraul. Res., 41(4): 405-415.
Dey, S. and Debnath, K. 2000. Influence of stream-wise bed slope on sediment threshold under stream flow. J. Irrig. and Drain. Eng., Vol. 126, No. 4, pp. 255-263.
Egiazaroff J.V. 1965. Calculation of non-uniform sediment concentrations. J. Hydraul. Div., 91(4): 225-247.
Einstein H.A. and El-Samni E.A. 1949. Hydrodynamic forces on rough wall. Rev. Modern Phys., 21(3): 520-524.
Einstein, H.A. 1950. The bed-load function for sediment transportation in open channel flows. Tech. Bulletin No. 1026, US Department of Agriculture.
Gilbert G.K. 1914. Transportation of debris by running water. Prof. Paper No. 86, United States Geological Survey, Washington DC, USA.
Gessler J. 1970. Self-stabilizing tendencies of alluvial channels. J. Waterways Harbors Div., 96(2): 235-249.
Goncharov V.N. 1964. Dynamics of channel flow. Israel Programme for Scientific Translation, Moscow, Russia.
Iwagaki, Y. 1956. Fundamental study on critical tractive force. Trans. Jap. Soc. Civ. Eng., 41: 1-21.
Jain R. and Kothyari U. 2008. Detachment and Transport of Clay-Sand-Gravel Mixtures by Channel Flow. River Flow Conference Proceedings, Izmir, Turkey, Sep. 3-5.
Jeffreys H. 1929. On the transport of sediments in stream. Proc. Camb. Phil. Soc., 25: 272 .
Julien P.Y. 1998. Erosion and sedimentation. Cambridge University Press, Cambridge, UK.
Kho K., Valentine E. and Glendinning S. 2004. An Experimental Study of Local Scour around Circular Bridge Piers in Cohesive Soils. 2nd International Conference on Scour and Erosion, Singapore, November.
Kramer H. 1935. Sand mixtures and sand movement in fluvial models. Trans., ASCE, 100(1909): 798–838.
Kuti E. and Yen C. 1976. Scouring of Cohesive Soils. Journal of Hydraulic Research, 14(3): 195-206.
Lamb M.P., W.E. Dietrich and Venditti J.G. 2008. Is the critical Shields stress for incipient sediment motion dependent on channel-bed slope? J. Geophys. Res., 113: 1-20.
Leliavsky S. 1966. An introduction to fluvial hydraulics. Dover, New York.
Ling C.H. 1995. Criteria for incipient motion of spherical sediment particles. J. Hydraul. Eng., 121(6): 472-478.
Mantz P.A. 1977. Incipient transport of fine grains and flanks by fluids-extended Shields diagram. J. Hydraul. Div., 103(6): 601-615.
Mitchener H. and Torfs H. 1996. Erosion of Mud/Sand Mixtures. Coastal Engineering, (29): 1-25.
Neill, C. R., and Yalin, S. (1969). ‘‘Quantitative definition of beginning of bed movement.’’ J. Hydr. Div., ASCE, 95(1), 585–588.
Panagiotopoulos I., Voulgaris G. and Collins M. 1997. The Influence of Clay on the Threshold of Movement of Fine Sandy Beds. Coastal Engineering. (32): 19-43.
Partheniades E. 2007. Engineering Properties and Hydraulic Behavior of Cohesive Sediments. CRC Press, Taylor and Francis Group, p.338.
Rouse H. 1939. An analysis of sediment transportation in light of fluid turbulence. Rep. No. SCS-TP-25, Sediment Division, U.S. Dept. of Agr., Soil Conservation Service, Washington, D.C.
Shvidchenko AB. and Pender G. (2000). Flume study of the effect of relative depth on the incipient motion of coarse uniform sediments. Water Resource. Res. 36 (2) 619-628.
Shields A. 1936. Application of similarity principles and turbulence research to bed-load movement. Hydrodynamics Laboratory Publ. No. 167, W. P. Ott, and J. C. van Uchelen, trans., U.S. Dept. of Agr., Soil Conservation Service Cooperative Laboratory, California Institute of Technology, Pasadena, Calif (Cited in Buffington 1999)
Soulsby R.L. and Whitehouse R.J.S. 1997. Threshold of sediment motion in coastal Environments. Proc. Combined Australasian Coastal Eng. and Port Conf., Christchurch, New Zealand, pp. 149-154.
USWES. 1935. Study of riverbed material and their use with special reference to the Lower Mississippi River. Paper 17, U.S. Waterways Experiment Station, Vicksburg, Miss. (Cited in Buffington 1999)
Van Rijn L.C. 1984. Sediment transport, part I: bed-load transport. J. Hydraul. Eng., 110(10): 1431-1456.
Vanoni V.A. 1964. Measurements of critical shear stress for entraining fine sediments in a boundary layer. Rep. No. KH-R-7,W. M. Keck Laboratory of Hydraulics and Water Resources, Division of Engineering and Applied Science, California Institute of Technology, Pasadena, Calif.
Velikanov M.A. 1955. Dynamics of alluvial stream. Vol. 2, State Publishing House of Theoretical and Technical Literature, Russia (in Russian).
White C.M. 1940. The equilibrium of grains on the bed of a stream. Phil. Trans. Royal Soc., 174A: 322-338.
Wiberg P.L. and Smith J.D. 1987. Calculations of the critical shear stress for motion of uniform and heterogeneous sediments. Wat. Resour. Res., 23(8): 1471-1480.
Wu W., Wang S.S.Y. and Jia Y. 2000. Nonuniform sediment transport in alluvial rivers. J. Hydr. Res., IAHR, 38(6): 427–434.
Yalin M.S. 1963. An expression of bed-load transportation.” J. Hydraul. Div., 89(3): 221-250.
Yalin M.S. and Karahan E. 1979. Inception of sediment transport. J. Hydraul. Div., 105(11): 1433-1443.
Yang C.T. 1973. Incipient motion and sediment transport. J. Hydraul. Div., 99(10): 1679-1704.
Zreik D., Krishnappan B., Geramine J., Madsen O. and Ladd C. 1998. Erosional and Mechanical Strengths of Deposited Cohesive Sediments. Journal of Hydraulic Engineering, 124(11): 1076-1085.
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Journal of Water and Sustainable Development
Volume 4, Issue 1 - Serial Number 8
Agricultural water efficiency and balancing water resources
September 2017
Pages 47-56

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  • Receive Date: 20 April 2016
  • Accept Date: 20 April 2016

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