SEDIMENT TRANSPORT AND EROSION 1075
fd=^8 (40)v 16 R^2 ^3 S^1 ^3 (41)PQ=267. (42)in which R hydraulic radius (ft.); d medium grain diam-
eter (inches); P wetted perimeter (ft.) Q dominant dis-
charge PR (cfs.).
The dominant discharge in the case of canal flow is the
design flow. In the case of a natural stream it is the channel
forming flow which is often taken to be the bankfull dis-
charge^3 which has an approximate return period of, between
1.25 and 2.33, years.Blench^43 advanced the work of Lacey and introduced
bed and side factors to better describe the depth and width of
a channel in regime. His equations are:f b v^2 y bed factor (43)
f s v^3 b side factor (44)andSff
gQ c= bs
+() ()
.(/),///
/56 112 14
161
3 63 1 2330(45)in which c is the concentration in ppm; b mean width
(ft—sec. units). The recommended f b isfdb=+9 6 in 1 0 012.()(. )c (46)1 2 4 6 1.0 2 4 6 1.0 2 4 6 1.0 2 4 6 1.0MEAN VELOCITY ft/sec0.1110100100010,000DISCHARGE OF SANDS, tons/day/foot of widthDEPTH
0.1 ftDEPTH
1.0 ftDEPTH
10 ftDEPTH
100 ftSand Size
0.1 m.m.
0.2
0.4
0.8FIGURE 12 Sand discharge (after Colby).C019_001_r03.indd 1075C019_001_r03.indd 1075 11/18/2005 11:06:01 AM11/18/2005 11:06:01 AM