Exercise 1. In a rectangular xsection canal of 4 m wide, there is a free surface...

Exercise 4. A rectangular xsect canal of 10 m wıdth, carries a uniform flow at a...

Exercise 4. A rectangular xsect canal of 10 m wıdth, carries a uniform flow at a rate of 30 m3/s with 1,2 m depth. A drainage pipe of 50 cm diameter is constructed at the bottom of the canal. Investigate the new flow conditions and draw the flow surface variation at the pipe xsect vicinity.

A 10-m wide, rectangular, concrete-lined canal (n=0.013) has a bottom slope of 0.01 and a constant-level...

A 10-m wide, rectangular, concrete-lined canal (n=0.013) has a bottom slope of 0.01 and a constant-level lake at the upstream end. The steep canal carries a flow of is 250 m3/s and the critical and normal depths are 4m and 2.37m, respectively. The water level in the lake is 6.0 m above the bottom of the canal at the entrance. If the entrance losses are negligible, using Direct Step Method determine; i. The flow depth 812 m downstream of the...

The bed of a rectangular canal is raised by a 0.1 m step. Upstream of the...

The bed of a rectangular canal is raised by a 0.1 m step. Upstream of the step, the canal width is 10 m and downstream the width contracts to 8 m. The energy head loss across the contraction is equal to 20% of the downstream velocity head. For a steady flow rate of 10 m3 /s, the flow depth upstream of the contraction is 1.6 m. Find the flow depth downstream of the contraction

A 3‐m wide prismatic rectangular channel (S=0.005m/m) collects stormwater runoff in Jackson, MS. During a storm...

A 3‐m wide prismatic rectangular channel (S=0.005m/m) collects stormwater runoff in Jackson, MS. During a storm event the flow discharge reaches 15‐m3/s and a depth of 3.6‐m. If the channel bottom is 1‐ft above the reference datum, determine the total energy head for the specified flow conditions.

Water flows in a 4-m wide rectangular open channel that has an n = 0.022, a...

Water flows in a 4-m wide rectangular open channel that has an n = 0.022, a slope of 0.005 m/m, and the flow rate is 10 m3/s.   A flow depth of 0.92 m is located at a particular location in the channel. What type of flow profile occurs at that location? Given the roughness value, what is the likely channel material?    (Water surface profile classification problem) Hydraulic Engineering

1. The channel is a rectangular shape with the wide 0.5 m Specific discharge Q/w=0.01 m2s-1....

1. The channel is a rectangular shape with the wide 0.5 m Specific discharge Q/w=0.01 m2s-1. upstream is 2.0 cm step in the channel bottom flow depth is 6 cm Question: is the flow subcritical or supercritical? Find the elevation of the free surface of the flow and velocity downstream of the step ( within 1 mm). Hint: using an iterative approach. 2. A city had big precipitation which dropped 80 mm of rainfall within 6 hours period. What is...

A vertical sluice gate in a long rectangular channel 5 m wide is lowered to produce...

A vertical sluice gate in a long rectangular channel 5 m wide is lowered to produce an opening of 1.0 m. Assuming that free flow conditions exist at the vena contracta downstream of the gate verify that the flow in the vena contracta is supercritical when the discharge is 15 m3/s, and determine the depth just upstream of the gate. Cv = 0.98; Cc = 0.6. Take the upstream velocity energy coefficient (Coriolis) to be 1.0 and that at the...

A vertical sluice gate in a long rectangular channel 5 m wide is lowered to produce...

A vertical sluice gate in a long rectangular channel 5 m wide is lowered to produce an opening of 1.0 m. Assuming that the free flow conditions exist at the vena contracta downstream of the gate verify that the flow in the vena contracta is supercritical when the discharge is 15 m3/s and determine the depth just upstream of the gate, Cv = 0.98; Cc = 0.6. Take the upstream velocity energy coefficient to be 1 and that at the...

Find critical depth of a 2 m wide rectangular channel if the flow rate passing through...

Find critical depth of a 2 m wide rectangular channel if the flow rate passing through it is 3 m3/s.

The discharge through a rectangular channel 4.4 m wide is 16 m3/s. The Manning’s coefficient n...

The discharge through a rectangular channel 4.4 m wide is 16 m3/s. The Manning’s coefficient n is 0.003. Determine the normal depth when the slope is 0.008. Check whether the flow is sub or supercritical. If the normal depth is to be kept at 2 m, determine the slope.