The piping arrangement shown delivers a jet of water at location C. Water enters the pipe from ne reservoir at point A and flows to the 45° bend at point B. The minor loss coefficient between A and B (including entrance effects) is kAB = 7 based on the velocity in the pipe. The flow then oroceeds to the nozzle at C The minor loss coefficient kRC = 3. again based on the velocity in
The piping arrangement shown delivers a jet of water at location C. Water enters the pipe from ne reservoir at point A and flows to the 45° bend at point B. The minor loss coefficient between A and B (including entrance effects) is kAB = 7 based on the velocity in the pipe. The flow then oroceeds to the nozzle at C The minor loss coefficient kRC = 3. again based on the velocity in
Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Hydraulics
![The piping arrangement shown delivers a jet of water at location C. Water enters the
the reservoir at point A and flows to the 45° bend at point B. The minor loss coefficient between
A and B (including entrance effects) is kAB = 7 based on the velocity in the pipe. The flow then
proceeds to the nozzle at C. The minor loss coefficient kRC - 3, again based on the velocity in
the pipe. The pipe is of constant diameter d = 1 m. The jet diameter is 0.2 m and the velocity
coefficient of the nozzle, Cy, is 0.97. Density and unit weight of water are 1000 kg/m' and
9810 N/m, respectively. (g = 9.81 m/s-). [Use proper subscripts on your variable notations]
pipe
from
P.
Reservoir
45°
150 m
90 m
Nozzle
(a) Estimate the jet velocity, Vị. Consider all minor head losses including head loss
through the nozzle. Head loss through the nozzle = K(V²/2g) where K = [(1/C-v) -1].
(Hint: Can you relate pipe velocity with jet velocity?)
(b)
Estimate the pressure at B in kilo-Pascal (kPa). Consider minor head loss as appropriate.
100%
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: of 7
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Ph...
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12/8/2020
CVE.
Ya...
Gro..
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Transcribed Image Text:The piping arrangement shown delivers a jet of water at location C. Water enters the
the reservoir at point A and flows to the 45° bend at point B. The minor loss coefficient between
A and B (including entrance effects) is kAB = 7 based on the velocity in the pipe. The flow then
proceeds to the nozzle at C. The minor loss coefficient kRC - 3, again based on the velocity in
the pipe. The pipe is of constant diameter d = 1 m. The jet diameter is 0.2 m and the velocity
coefficient of the nozzle, Cy, is 0.97. Density and unit weight of water are 1000 kg/m' and
9810 N/m, respectively. (g = 9.81 m/s-). [Use proper subscripts on your variable notations]
pipe
from
P.
Reservoir
45°
150 m
90 m
Nozzle
(a) Estimate the jet velocity, Vị. Consider all minor head losses including head loss
through the nozzle. Head loss through the nozzle = K(V²/2g) where K = [(1/C-v) -1].
(Hint: Can you relate pipe velocity with jet velocity?)
(b)
Estimate the pressure at B in kilo-Pascal (kPa). Consider minor head loss as appropriate.
100%
D Focus
: of 7
457 words
2:34 PM
Ph...
Mc...
W CV.
12/8/2020
CVE.
Ya...
Gro..
Wh...
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