For the water pump shown in the figure below, p1 = 13.3 psia and p2 = 49.5 psia. The temperature of water is 60 °F. P2 Patm = 14.7 psia d2 = 4.0 in. dį = 6.0 in-- (P1 16.0 ft 8.0 in. Determine the volume flow rate. Q = i ! ft/s Determine the minimum power input to the water pump. w, = ! hp Determine the actual power if the hydraulic efficiency is 75% and losses in the motor and bearings are negligible. W. hn

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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For the water pump shown in the figure below, p1 = 13.3 psia and p2 = 49.5 psia. The temperature of water is 60 °F.
P2)
Patm = 14.7 psia
d2 = 4.0 in.
di = 6.0 in
(P1
16.0 ft
8.0 in.
Determine the volume flow rate.
ft3/s
Q =
Determine the minimum power input to the water pump.
w, = i
! hp
Determine the actual power if the hydraulic efficiency is 75% and losses in the motor and bearings are negligible.
W actual
i
! hp
Transcribed Image Text:%3D For the water pump shown in the figure below, p1 = 13.3 psia and p2 = 49.5 psia. The temperature of water is 60 °F. P2) Patm = 14.7 psia d2 = 4.0 in. di = 6.0 in (P1 16.0 ft 8.0 in. Determine the volume flow rate. ft3/s Q = Determine the minimum power input to the water pump. w, = i ! hp Determine the actual power if the hydraulic efficiency is 75% and losses in the motor and bearings are negligible. W actual i ! hp
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