Q3: Define the friction losses in pipes, what are the parameters that effect on friction in the pipe? Then consider a pump of 4 m head sucks water from a large tank. The pipe diameter is 10 cm and discharge water to atmosphere via a nozzle of 5 cm diameter as shown in Fig.2. The flow is turbulent and the friction factor is 0.015. Determine the water velocity inside the pipe and at the nozzle exit. 20 m 2 Elbow Nozzle 2 m 71 6 m FIG.2 Pump
Q3: Define the friction losses in pipes, what are the parameters that effect on friction in the pipe? Then consider a pump of 4 m head sucks water from a large tank. The pipe diameter is 10 cm and discharge water to atmosphere via a nozzle of 5 cm diameter as shown in Fig.2. The flow is turbulent and the friction factor is 0.015. Determine the water velocity inside the pipe and at the nozzle exit. 20 m 2 Elbow Nozzle 2 m 71 6 m FIG.2 Pump
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Q3: Define the friction losses in pipes, what are the parameters that effect on friction in
the pipe? Then consider a pump of 4 m head sucks water from a large tank. The pipe
diameter is 10 cm and discharge water to atmosphere via a nozzle of 5 cm diameter as
shown in Fig.2. The flow is turbulent and the friction factor is 0.015. Determine the water
velocity inside the pipe and at the nozzle exit.
20 m
2
Elbow
Nozzle
2 m
71
6 m
FIG.2
Pump](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F70fad6c6-7340-43d3-9766-a3dafe612405%2Fb5f48d7a-e7ac-430b-adce-78abea911ea3%2Fx0znfkn_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q3: Define the friction losses in pipes, what are the parameters that effect on friction in
the pipe? Then consider a pump of 4 m head sucks water from a large tank. The pipe
diameter is 10 cm and discharge water to atmosphere via a nozzle of 5 cm diameter as
shown in Fig.2. The flow is turbulent and the friction factor is 0.015. Determine the water
velocity inside the pipe and at the nozzle exit.
20 m
2
Elbow
Nozzle
2 m
71
6 m
FIG.2
Pump
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