A rough timber flume (n=0.016) with a cross section of a most efficient triangular section conveys...

2. (a)   A channel has a triangular cross section with equal sides, a bed slope of...

2. (a)   A channel has a triangular cross section with equal sides, a bed slope of 1 in 5000 and a Mannings, n, 0.025. When the flow is 50 cfs. Determine the normal depth of the channel.            (b) Determine the optimum dimensions (B, L, y, b) for the trapezoidal channel , if the flow rate in the channel is 0.55m3/s, the channel slope is 1:2500 and the Chezy coefficient is 85 m1/2 s-1.

A rectangular channel (n = 0.016 and b = 2.5m) that runs on a bed slope...

A rectangular channel (n = 0.016 and b = 2.5m) that runs on a bed slope of 0.004 has a flow depth of 1.2m. 1 Calculate flow rate for this channel 2. Decide whether the flow of this channel is supercritical or sub-critical 3. Compute critical depth and minimum specific energy for this channel 4. Compute critical bed slope and compare bed slope against the critical slope. Give a name to this slope type 5. Indicate given flow depth, critical...

a trapezoidal channel to carry 142 m³/minute of water is designed to have a minimum cross-section....

a trapezoidal channel to carry 142 m³/minute of water is designed to have a minimum cross-section. find the bottom width and depth if the bed slope is1 in 1200, the side slope at 45° and chezy's co-efficient =55

7. A) Find the depth of water flowing through a triangular channel having a bed slope...

7. A) Find the depth of water flowing through a triangular channel having a bed slope of 1 in 3500 and side slope of 1:1, when it carries 1.2 m3/s. Take Manning’s Coefficient N = 0.014 B) For a most economical trapezoidal section of side slope 2h: 5V, bed slope of 1 in 2000 and C = 50. Find the rate of flow if the bottom width of the channel is 5 m.

A steel pipeline conveys water (density 1000 kg/m3 , bulk modulus 2.05x109 N/m2 ) from an...

A steel pipeline conveys water (density 1000 kg/m3 , bulk modulus 2.05x109 N/m2 ) from an upper to a lower reservoir the pipeline material is steel with Young’s modulus 210x109 N/m2 . It is 611 m long, has an internal diameter 1.1m, wall thickness 25 mm and surface roughness 0.68 mm. The flow is controlled by a valve located at the entrance to the lower reservoir, 211 m below the surface level in the upper reservoir. (a) Under steady flow...