(20%) A planned reservoir has a total capacity of 10 million cubic meters. The catchment drainage area is 200 km². The mean annual runoff in the basin is 500 mm. The sediment yield is 1350 Metric tons/km²/yr. The specific weight of sediment deposits is estimated at 13000 N/m³. The sediments are coarse grained. How long will it take the reservoir to fill up to 80% and 100% of capacity? Use ten (10) increments of reservoir capacity.

(20%) Calculate the diameter of a concrete culvert to pass the 50-yr flood, with Q₅₀ = 320 cfs. The inlet invert elevation is z₁ = 180 ft. The natural streambed slope is S_o = 0.01. The tailwater depth above the outlet invert is y₂ = 4.2 ft. The culvert length is L = 250 ft. The roadway shoulder elevation is E_s = 196 ft. Assume K_e = 0.5; K_E = 1. Assume a 2-ft freeboard. Assume a circular concrete culvert (n = 0.013), and square edge with headwalls. With the given flow conditions, would there a hydraulic jump or drop at the outlet?

(20%) What head ΔH (m) will be developed for an axial-flow pump of diameter D = 0.3 m operating at n = 900 rpm and discharging Q = 100 L/s? What power P (KW) will be required? The pump dimensionless performance curves are shown below.

(20%) Given the system sketched below, what is the discharge Q (m³/s) and corresponding head H (m) at the system operating point? Assume very smooth entrance losses, and sharp exit losses. Assume Manning's n = 0.013. The performance curve of the pump is given by the following equation:

H = 80 - 630 Q ²