SEDIMENT TRANSPORT AND EROSION 1065
significant quantities in alluvial beds; often wash
load is arbitrarily taken to be sediments finer than
0.062 mm, i.e. silts and clays.
2) Suspended bed material load which is the portion
of the suspended load derived primarily from the
channel bed; generally the bed material is assumed
to be the sediment coarser than 0.062 mm, i.e.
sands and gravels.Table 1 indicates the terminology used by the American
Geophysical Union in describing various sizes of sediment.Properties of SedimentsAn excellent review of the properties of sediments is presented
by Brown.^1 He discussed the determination and significance
of the following:a) properties of the individual particle,
b) particle size distribution and
c) bulk properties of sediments.Properties of the Particle Neglecting interaction effects, the
behavior of an individual particle in a stream depends on its
size, specific weight, shape, and the hydraulics of the stream.
Two commonly used methods of determining particle
size are: (1) mechanical sieve analysis and (2) the fall velocity
method. The sieve analysis method differentiates particle size
on the basis of whether or not the particle will pass through
a certain standard square opening in a sieve or mesh. This
method is applicable for sands or coarser particles. Except in
the case of spheres, “sieve size” will only be an approxima-
tion to the true equivalent diameter of the particle since the
results depend to some extent on the particle shape.The fall velocity method of determining the effective sedi-
ment size is gaining popularity in sediment transport research.
On the basis of the particle’s terminal velocity, in a specified
fluid (water) at a specified temperature, the particle is assigned
a fall or sedimentation diameter equal to the diameter of the
quartz sphere which has the same terminal velocity in the
same fluid at the same temperature.^1 This particle size inte-
grates the effects of grain size, specific weight and shape into
a single meaningful parameter for sediment transport studies.
Researchers at Colorado State University have developed a
Visual Accumulation Tube to aid in the determination of the
fall diameter distributions for sediment samples.
Particle Size Distribution On the basis of a sieve analysis
of fall diameter analysis, of a sediment sample, a cumulative
frequency curve for the particle size can be drawn. Figure 1
shows typical particle size frequency curves for a sample taken
from a sandy stream bed and for a sample of suspended load
over the same bed.^6 The frequency curves are usually plotted
on logarithmic-probability paper.TABLE 1
Sediment grade scaleGroup Particle size range, mmBoulders 4096–256
Cobbles 256–64
Gravel 64–2
Sand 2–0.062
Silt 0.62–0.004
Clay 0.004–0.00024FIGURE 1 Typical particle size frequencies curves for stream sediments (after Bishop et al.).GRAIN SIZE (mm.)IN TRANSPORT (by dunes)PERCENT FINER (by weight)ON THE
BED1.0.01 .05 .1 .2 .5 1 2 5 10 20 30 40 50 60 70 80 90 95 96 99 99.5 99.9 99.99.10
.08.20.30.40.50..60.80C019_001_r03.indd 1065C019_001_r03.indd 1065 11/18/2005 11:05:59 AM11/18/2005 11:05:59 AM