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Self-formed straight rivers with equilibrium banks and mobile bed. Part 1. The sand-silt river

Published online by Cambridge University Press:  19 April 2006

Gary Parker
Gary Parker
Affiliation:
Department of Civil Engineering, University of Alberta, Edmonton, Canada T6G 2G7
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Abstract

Rivers and canals with perimeters composed of non-cohesive sand and silt have self-formed active beds and banks. They thus provide a most interesting fluid flow problem, for which one must determine the container as well as the flow. If bed load alone occurs across the perimeter of a wide channel, gravity will pull particles down the lateral slope of the banks; bank erosion is accomplished and the channel widens. In order to maintain equilibrium, this export of material from the banks must be countered by an import of sediment from the channel centre.

The mechanism postulated for this import is lateral diffusion of suspended sediment, which overloads the flow near the banks and causes deposition. The model is formulated analytically with the aid of a series of approximate but reasonable assumptions. Singular perturbation techniques are used to define the channel geometry and obtain rational regime relations for straight channels. A comparison with data lends credence to the model.

It is hoped that a first step has been made towards a more general treatment, which would include various complicating factors that are important features of natural rivers but are not essential to the maintenance of channel width. Among these factors are meandering, sediment sorting and seepage.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 89 , Issue 1 , 14 November 1978 , pp. 109 - 125
Copyright
© 1978 Cambridge University Press

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References

Brice, J. C. 1974 Evolution of meander loops. Geol. Soc. Am. Bull. 85, 581586.Google Scholar
Bridge, J. S. & Jarvis, J. 1976 Flow and sedimentary processes in the meandering River South Esk, Glen Cova, Scotland. Earth Surface Processes 1, 303336.Google Scholar
Brundrett, E. & Baines, W. D. 1964 The production and diffusion of vorticity in duct flow. J. Fluid Mech. 19, 375394.Google Scholar
Chien, N. 1956 The present status of research on sediment transport. Trans. A.S.C.E. 121, 833868.Google Scholar
Colby, B. R. & Hembree, C. H. 1955 Computations of total sediment discharge Niobara River near Cody, Nebraska U.S. Geol. Survey Water Supply Paper no. 1357.Google Scholar
Einstein, H. A. 1950 The bed-load function for sediment transportation in open channel flows. U.S. Dept Agric. Tech. Bull. no. 1026.Google Scholar
Einstein, H. A. 1972 Sedimentation. In River Ecology and Man (ed. R. Oglesby), pp. 309318. Academic Press.
Engelund, F. 1970 Instability of erodible beds. J. Fluid Mech. 42, 225244.Google Scholar
Engelund, F. 1974 Flow and bed topography in channel bends. Proc. A.S.C.E., J. Hydraul. Div. 100 (HY 11), 1631–1648.Google Scholar
Engelund, F. 1975 Instability of flow in curved alluvial channels. J. Fluid Mech. 72, 145160.Google Scholar
Engelund, F. & Fredsoe, J. 1976 A sediment transport model for straight alluvial channels. Nordic Hydrol. 7, 293306.Google Scholar
Engelund, F. & Hansen, E. 1967 A Monograph on Sediment Transport in Alluvial Streams. Copenhagen: Teknisk Vorlag.
Engelund, F. & Skovgaard, O. 1973 On the origin of meandering and braiding in alluvial streams. J. Fluid Mech. 57, 289302.Google Scholar
Fischer, H. B. 1973 Longitudinal dispersion and turbulent mixing in open-channel flow. Ann. Rev. Fluid Mech. 5, 5978.Google Scholar
Fredsøe, J. 1974 On the development of dunes in erodible channels. J. Fluid Mech. 64, 116.Google Scholar
Hirano, M. 1973 River-bed variation with bank erosion. Proc. Japan Soc. Civil Engrs no. 210, pp. 1320.Google Scholar
Hooke, R. Leb. 1974 Shear-stress and sediment distribution in a meander bend. Dept Phys. Geogr., Univ. Uppsala, Ungi Rep. no. 30.Google Scholar
Hubbell, D. W. & Matejka, D. Q. 1959 Investigations of sediment transportation Middle Loup River at Dunning, Nebraska. U.S. Geol. Survey Water Supply Paper no. 1476.Google Scholar
Kennedy, J. F. 1963 The mechanics of dunes and antidunes in erodible bed channels. J. Fluid Mech. 16, 521544.Google Scholar
Kennedy, J. F. 1975 Hydraulic relations for alluvial streams. In Sedimentation Engineering. A.S.C.E. Manual no. 54, pp. 114154.
Kikkawa, H., Ikeda, S. & Kitagawa, A. 1976 Flow and bed topography in curved open channels. Proc. A.S.C.E., J. Hydraul. Div. 102 (HY 9), 1327–1342.Google Scholar
Luque, R. F. & Van beek, R. 1976 Erosion and transport of bed-load sediment. J. Hydraul. Res. 14 (2), 127–144.Google Scholar
Meyer-Peter, E. & MÜLLER, R. 1948 Formulas for bed-load transport. Proc. 2nd Conf. Int. Ass. Hydraul. Res. p. 39.Google Scholar
Okoye, J. K. 1970 Characteristics of transverse mixing in open-channel flow. W.M. Keck Lab. Hydraul. Water Resources, Calif. Inst. Tech., Rep. KH-R-23.Google Scholar
Parker, G. 1978 Self-formed rivers with stable banks and mobile bed. Part 2. The gravel river. J. Fluid Mech. 89, 127147.Google Scholar
Shen, H. W. & Komura, S. 1968 Meandering tendencies in straight alluvial channels. Proc. A.S.C.E., J. Hydraul. Div. 94 (HY 4), 997–1017.Google Scholar
Simons, D. B. 1957 Theory and design of stable channels in alluvial material. M.Sc. thesis, Colorado State University.
Simons, D. B. & Albertson, M. L. 1963 Uniform water conveyance channels in alluvial material. Trans. A.S.C.E. 128, 65105.Google Scholar
Smith, T. R. 1974 A derivation of the hydraulic geometry of steady-state channels from conservation principles and sediment transport laws. J. Geol. 82, 98104.Google Scholar
Vanoni, V. A. 1975 Fundamentals of sediment transportation. In Sedimentation Engineering. A.S.C.E. Manual no. 54, pp. 154189.
White, W. R., Milli, H. & Crabbe, A. D. 1973 Sediment transport: an appraisal of available methods. Hydraul. Res. Station, Wallingford, Berks, Rep. INT 119, vols. 1 and 2.Google Scholar
Wilson, I. G. 1973 Equilibrium cross-sections of meandering and braided rivers. Nature 241, 393394.Google Scholar