Abstract
We present results Irom an experimental study of suspended particle (4.5–36.5 μm silicon carbide powder deposition from surface water to ‘clean’ equi-granular permeable beds in a small 12.5×12.5×15cm box and a re-circulating flume. Enhanced deposition rates of up to 5 times the accepted sediment deposition model (e.g., Einstein,1968 are explained by filtration of particles in the bed. Compared to this model depotiion increases with increasing surface fluid speed, decreasing suspended particle size and increasing bed particle size. These results can be explained by an increased ability of particles to penetrate into the bed with the pore water which increases the effective filter thickness. The predominant deposition mechanism within the bed pores appears to be settling. Enhanced deposition, evident in Einstein's (1968) experimental data, was previously attributed to flocculation but may be explained better by filtration. These enhanced deposition rates drop off to close to the accepted model predicted rate after a certain volume of sediment has entered the bed, which may be due to the stumping of deposits from the top of bed elements. This reduction in deposition rate occurs long before the bed is filled with fine sediment.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alonso, C.V. and Mendoza, C., 1992.Water Resour. Res.,28, 9, 2459–2468
Beschta, R.L., and Jackson W.L., 1979,Jour. of Fish. Res. Board Canula,36 204–210
Carling, P.A., 1984.Can. Jour. of Fish and Aquatic Sci.,41 263–270, 1984
Cunningham, M., Anderson, C.J., and Bouwer, H. 1987.Jour of Irr. and Dram. Eng., ASCE,113, 106–118
Diplas, P., 1986, Ph.D Dissertation, University of Minnesota, 194 pp.
Dobbins, W.E., 1944.Trans. ASCE,109, 629–656
Einstein, H.A.: 1968,Jour. Hydraul. Div., ASCE 94,HY5, 1197–1205.
Einstein, H.A.: 1970,Jour. Hydraul. Div., ASCE,96,HY2, 581–582.
Havis, R.N., Alonso, C.V., King, J.G., and Thurow, R.F.: 1993,Water Resour. Bull.,29, 3, 435–444
Hoyal, D.C.I.D., Atkinson, J.F., DePinto, J.V., and Taylor, S.W.: 1995,Jour. Hydraul. Res. 33, 349–360.
Jobson, H.E., and Carey, W.P.: 1989.Water Resour. Res.,25, 1, 135–140.
Martin, D., and Nokes, R.: 1988,Nature,332, 7, 534–536
Owen, M.W. 1969.Jour. Hydraul. Div., ASCE,95HY3, 1085–1086
Packman, A.L. and Brooks, N.H.: 1995,Marine and Freshwater Res.,46, 233–236
Schalchi, H. 1992.Hydrobiologica,235/236, 189–197
Tien, C.,Granular Filtration of Hydrosols and Aerosols, Butterworths Series in Chemical Engineering, London, 365 pp. 1989
Zain, A.F.E., and Smith, K.V.H. 1976.Jour. Hydraul. Div., ASCE,102,HY2, 207–223
Zippe, H.J., and Graf, W.H. 1983,Jour. Hydraul. Res.,21A, 51–64
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Royal, D.C.J.D., Bursik, M.I., Atkinson, J.F. et al. Filtration enhances suspended sediment deposition from surface water to granular permeable beds. Water Air Soil Pollut 99, 157–171 (1997). https://doi.org/10.1007/BF02406855
Issue Date:
DOI: https://doi.org/10.1007/BF02406855