If water is pumped from reservoir 1 to reservoir 2 through a 20 cm pipe with a length L1=70 m, and flow rate of 150 L/s, determine the pump power. (take kinematic viscosity= 1.3 10°m /s, Ks=0.02 -6 2 mm)
If water is pumped from reservoir 1 to reservoir 2 through a 20 cm pipe with a length L1=70 m, and flow rate of 150 L/s, determine the pump power. (take kinematic viscosity= 1.3 10°m /s, Ks=0.02 -6 2 mm)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![If water is pumped from reservoir 1 to reservoir 2
through a 20 cm pipe with a length L1=70 m, and
flow rate of 150 L/s, determine the pump power.
-6' 2
(take kinematic viscosity= 1.3 10 m/s, Ks=0.02
mm)
Elevation =35 m
Elevation = 15 m
L1
.40 m-
Select one:
a. 46.32 kW
b. 45.13 kW
c. 43.93 kW
d. 41.55 kW](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F695dff92-b11c-4953-88ed-98d2969d1b82%2F9ca27a34-384a-4b23-bb96-ebafea9fd06e%2Ffsjc1ar_processed.jpeg&w=3840&q=75)
Transcribed Image Text:If water is pumped from reservoir 1 to reservoir 2
through a 20 cm pipe with a length L1=70 m, and
flow rate of 150 L/s, determine the pump power.
-6' 2
(take kinematic viscosity= 1.3 10 m/s, Ks=0.02
mm)
Elevation =35 m
Elevation = 15 m
L1
.40 m-
Select one:
a. 46.32 kW
b. 45.13 kW
c. 43.93 kW
d. 41.55 kW
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