ater with a total head of H= 12 m flows freely from a reservoir into a concrete trapezoid annel with two different longitudinal slopes of Sor=2.5% and So2= 0.3%. The channel w signed using the most hydraulically efficient cross-section method with a sidewall slope I:1V and n=0.013. ote: Assume an energy loss equal to 10% of the velocity head at the intake. 10 m Q
ater with a total head of H= 12 m flows freely from a reservoir into a concrete trapezoid annel with two different longitudinal slopes of Sor=2.5% and So2= 0.3%. The channel w signed using the most hydraulically efficient cross-section method with a sidewall slope I:1V and n=0.013. ote: Assume an energy loss equal to 10% of the velocity head at the intake. 10 m Q
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Water with a total head of H= 12 m flows freely from a reservoir into a concrete trapezoidal
channel with two different longitudinal slopes of Sol-2.5% and So2= 0.3%. The channel was
designed using the most hydraulically efficient cross-section method with a sidewall slope of
2H:1V and n=0.013.
Note: Assume an energy loss equal to 10% of the velocity head at the intake.
10 m
Sol 2.5 %
So2=0.3 %
a) Use the energy equation to calculate the total flow rate, Q
b) Design the entire channel cross-sections
c) Draw the GVF curve. Include all classifications and water levels
d) Calculate Fr1 and Fr2
e) Discuss about the possibility of a free jump formation, its classification
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Can you please answer d) and e) for the same question
d) Calculate Fr1 abd Fr2 ?
e) Discuss the possibility of a free jump formation and its classifications ?
Transcribed Image Text:Water with a total head of H= 12 m flows freely from a reservoir into a concrete trapezoidal
channel with two different longitudinal slopes of So1-2.5% and Soz - 0.3%. The channel was
designed using the most hydraulically efficient cross-section method with a sidewall slope of
2H:1V and n-0.013.
Note: Assume an energy loss equal to 10% of the velocity head at the intake.
10 m
Q
Sor=2.5%
Sa=0.3%
a) Use the energy equation to calculate the total flow rate.
b) Design the entire channel eross-sections
e) Draw the GVF eurve. Include all classifications and water levels
d) Calculate Frl and Fr2
e) Discuss about the possibility of a free jump formation, its classification
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