CIV E 530 - OPEN-CHANNEL HYDRAULICS
FALL 2013
LAB No. 13: SEDIMENTATION ENGINEERING
- A 480-ac watershed is above a proposed flood-water retaining structure.
The watershed is divided into two subwatersheds of areas: (1) 200 ac, and (2) 280 ac.
The characteristics are:
- Pasture (tall grass, with weeds), 75% canopy cover, 20% ground cover,
Shelby loam, 6% slopes, 200 ft long;
- Pasture (tall grass), 50% canopy cover, 60% ground cover, Mexico silt loam,
13% slopes, 100 ft long.
Assume R = 200.
Use ONLINE USLE2 to calculate the watershed soil loss.
- Use ONLINE SHIELDS to
determine whether a particle of 4 mm diameter is at rest under a 0.8 m flow depth
with a channel slope equal to 0.00035.
Assume T = 17oC. Under what flow depth (with accuracy to the mm) will
the particle start to move?
- Use ONLINE COLBY to calculate the discharge
of sands by the
Colby 1964 method given the following flow data: mean velocity = 4 fps, mean
flow depth = 5 ft, channel width = 80 ft,
water temperature = 70oF, bed material size = 0.4 mm, and wash load
concentration = 500 ppm.
- Use ONLINE RESERVOIR LIFE to
calculate the design life of a reservoir, given the following data:
reservoir capacity 58 million cubic meters, catchment area 825 km2,
mean annual runoff at the site 145 mm.
Assume fine grained sediment deposits with specific weight of 1400 kg/m3.
Determine how long will it take for the reservoir to lose 20%, 80% and 100%
of its storage volume. Set n = 10 (default value).
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