Determine the velocity in the discharge side. Determine the velocity on the suction side. Determine the pressure at Point 3 (the inlet to the pump). Determine the work required for the pump (which is 65% efficient). Determine the pressure at Point 4 (the discharge of the pump).
Determine the velocity in the discharge side. Determine the velocity on the suction side. Determine the pressure at Point 3 (the inlet to the pump). Determine the work required for the pump (which is 65% efficient). Determine the pressure at Point 4 (the discharge of the pump).
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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Transcribed Image Text:06:18
Liquid level
4.1 m
2. Consider the following piping system, which has a mass flowrate of 12 kg/s:
d.
e.
f.
project_1.pdf
8.
h.
Open to Atmosphere
Storage Tank
Duction 4.026-inch
T
0.6 m
Pump
et suction = 65J/kg
e discharge 555 J/kg
Didischarge 3.068-inch
2.1
1.2 m
@ A :
Determine the velocity in the discharge side.
Determine the velocity on the suction side.
Determine the pressure at Point 3 (the inlet to the pump).
Determine the work required for the pump (which is 65% efficient).
Determine the pressure at Point 4 (the discharge of the pump).
5.8 m
Pressure in Vessel = 3.4 bar = 3.4x10³ Pa
54
74
B/s
Process Vessel
כ
Liquid level
2.9 m
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