Water with a temperature of 15° C flows continuously through a 5 cm diameter horizontal stainless steel pipe with a flow rate of 0.005 m / s. (water = 1.138 x 10-3 kg/ms, pu = 1000 kg/^3 a) Find the head loss, pressure drop and pumping power required to sustain this flow in 60 m section of the pipe. %3D
Water with a temperature of 15° C flows continuously through a 5 cm diameter horizontal stainless steel pipe with a flow rate of 0.005 m / s. (water = 1.138 x 10-3 kg/ms, pu = 1000 kg/^3 a) Find the head loss, pressure drop and pumping power required to sustain this flow in 60 m section of the pipe. %3D
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![Water with a temperature of 15 °
C flows continuously through a 5
cm diameter horizontal stainless
steel pipe with a flow rate of
0.005 m / s. (water = 1.138 x
10-3 kg/ms, pu
a) Find the head loss,
drop and pumping power
required to sustain this flow in
60 m section of the pipe.
b) What will be the new flow rate
of the water passing through the
pipe when you incline the pipe
25° upwards at the same
pressure drop? For the new
situation, is the flow laminar or
turbulent? c) a. When the flow
rate of the fluid is increased 10
times under the conditions in the
above, find the head loss,
pressure drop and the pumping
power required to maintain this
flow in the 60 m section of the
1000 kg/^3
%D
pressure
pipe for this new situation.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F287d51cf-b2b5-4460-8aa4-fac07dbafae5%2F1a3dd735-30fb-4f43-bdbc-7dece4e8c5e7%2Fxcrr13c_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Water with a temperature of 15 °
C flows continuously through a 5
cm diameter horizontal stainless
steel pipe with a flow rate of
0.005 m / s. (water = 1.138 x
10-3 kg/ms, pu
a) Find the head loss,
drop and pumping power
required to sustain this flow in
60 m section of the pipe.
b) What will be the new flow rate
of the water passing through the
pipe when you incline the pipe
25° upwards at the same
pressure drop? For the new
situation, is the flow laminar or
turbulent? c) a. When the flow
rate of the fluid is increased 10
times under the conditions in the
above, find the head loss,
pressure drop and the pumping
power required to maintain this
flow in the 60 m section of the
1000 kg/^3
%D
pressure
pipe for this new situation.
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