Looking for the calculations / unit analysis for ... 1.) Inlet Potential Energy 2.) Outlet Potential Energy 3.) Pump Energy (Ep) 4.) Friction Loss in (1" dia pipe)
Looking for the calculations / unit analysis for ... 1.) Inlet Potential Energy 2.) Outlet Potential Energy 3.) Pump Energy (Ep) 4.) Friction Loss in (1" dia pipe)
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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Looking for the calculations / unit analysis for ...
1.) Inlet Potential Energy
2.) Outlet Potential Energy
3.) Pump Energy (Ep)
4.) Friction Loss in (1" dia pipe)
Thanks
Transcribed Image Text:Water is pumped at a rate of 60 GPM through a 2
inch diameter pipe at an elevation of 100 ft and a
pressure of 15 psig. The flow discharges
through a 1 inch diameter commerical steel pipe
at 800 psig and at an elevation of 500 ft. The
local g is 28 ft/sec^2. The total length of 1'" pipe
is 1000 Ft. The flow in 1" pipe also passes
500
FT
through (2) standard 90 degree elbows (K value
of .42). Assume no friction loss for the 2" pipe
and that the pump is 75% efficient.
g=28
· F7/sec
Pez
60GPM
800
100PT
Ps16
Inlet Velocity
6.13
Ft/Sec
tWATER
24.5
Discharge Velocity
Ft/Sec
PUMP
75%
EFFICCUNT
PS16
Pump Horsepower_
32.92
НР
8.33
Time to Fill 500 Gal Container
Min
0.671
Inlet Kinetic Energy
Ft-Lbf/Lbm
10.72
Outlet Kinetic Energy
Ft-Lbf/Lbm
Inlet Flow Energy
135.286
Ft-Lbf/Lbm
2356.87
Outlet Flow Energy
Ft-Lbf/Lbm
CALCULATE THE FOLLOWING...
1.) Inlet Potential Energy_
Ft-Lbf/Lbm
2.) Outlet Potential Energy_
Ft-Lbf/Lbm
3.) Pump Energy (Ep)_
Ft-Lbf/Lbm
4.) Friction Loss (1"Dia pipe)
Ft-Lbf/Lbm
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