As shown in the picture blew, a pump can deliver volume flow rate of of water through a vertical lift of . The inlet to the pump is just below the water surface and the discharge is to the atmosphere through a DN50 schedule 40 steel pipe. The energy loss . (2) Select the correct simplified general energy equation for point 1 and 2
As shown in the picture blew, a pump can deliver volume flow rate of of water through a vertical lift of . The inlet to the pump is just below the water surface and the discharge is to the atmosphere through a DN50 schedule 40 steel pipe. The energy loss . (2) Select the correct simplified general energy equation for point 1 and 2
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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As shown in the picture blew, a pump can deliver volume flow rate of of water through a vertical lift of . The inlet to the pump is just below the water surface and the discharge is to the atmosphere through a DN50 schedule 40 steel pipe. The energy loss . (2) Select the correct simplified general energy equation for point 1 and 2
Transcribed Image Text:As shown in the picture blew, a pump can deliver volume flow rate of Q = 3.6 × 10-³ m³/s of water through a vertical lift of h = 8.0m. The inlet
to the pump is just below the water surface and the discharge is to the atmosphere through a DN50 schedule 40 steel pipe. The energy loss h₁ = 1.0m.
(2) Select the correct simplified general energy equation for point 1 and 2
2
h
Pump
OA.
ML
hA=(Z₂-Z₁) +
P2
2g
OB P1 +2₁+ 2+ha-ha-h=2²3 +2₂+4
29
42-4174
O C.
P₂
¨nA= ( P² - P₁²) + (Z₂-Z
-Z₁)+(
2g
Y
an₁ = 22 + (2₂-2₁) + 1/2+₂
hA
2g
ثه أشه
) +hR+h₂
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