4.5.4 The pressure at point 1 in the parallel pipe system shown in the figure below is 750 kPa. If the flow rate through the system is 0.50 m3/s, what is the pressure at point 2? Neglect minor losses. All the pipes are steel with roughness value of 0.046 mm. Also, determine the fraction of the flow in each of the parallel pipes and check your solution. Take the Kinematic viscosity, v = 1.141 x 10^6 m2/s.

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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4.5.4 The pressure at point 1 in the parallel pipe system shown in the figure below is 750 kPa. If the
flow rate through the system is 0.50 m3/s, what is the pressure at point 2? Neglect minor losses. All the
pipes are steel with roughness value of 0.046 mm. Also, determine the fraction of the flow in each of the
parallel pipes and check your solution. Take the Kinematic viscosity, v = 1.141 x 10^6 m2 /s.
300 mm dia
1.
600 m, 240 mm dia
A
450 m, 200 mm dia
B
C
720 m, 220 mm dia
D
200 m, 300 mm dia
2.
Transcribed Image Text:4.5.4 The pressure at point 1 in the parallel pipe system shown in the figure below is 750 kPa. If the flow rate through the system is 0.50 m3/s, what is the pressure at point 2? Neglect minor losses. All the pipes are steel with roughness value of 0.046 mm. Also, determine the fraction of the flow in each of the parallel pipes and check your solution. Take the Kinematic viscosity, v = 1.141 x 10^6 m2 /s. 300 mm dia 1. 600 m, 240 mm dia A 450 m, 200 mm dia B C 720 m, 220 mm dia D 200 m, 300 mm dia 2.
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