The 150 mm pipeline as shown conducts water from a reservoir and discharges at a lower elevation through a nozzle which has a discharge diameter of 50 mm. The water surface in the reservoir (1) is at elevation 30 m and the pipe intake ( 2 and 3) at elevation 24 m and the nozzle ( 4 and 5) at elevation 0 m. The head losses are: from 1 to 2, 0 m; from 2 to 3, 0.60 m; from 3 to 4, 10 m; from 4 to 5, 0.30 m. Compute the discharge and make a table showing elevation head, velocity head, pressure head and total head at each of the five points.
The 150 mm pipeline as shown conducts water from a reservoir and discharges at a lower elevation through a nozzle which has a discharge diameter of 50 mm. The water surface in the reservoir (1) is at elevation 30 m and the pipe intake ( 2 and 3) at elevation 24 m and the nozzle ( 4 and 5) at elevation 0 m. The head losses are: from 1 to 2, 0 m; from 2 to 3, 0.60 m; from 3 to 4, 10 m; from 4 to 5, 0.30 m. Compute the discharge and make a table showing elevation head, velocity head, pressure head and total head at each of the five points.
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:The 150 mm pipeline as shown conducts water from a reservoir and discharges at a lower elevation
through a nozzle which has a discharge diameter of 50 mm. The water surface in the reservoir (1) is at
elevation 30 m and the pipe intake ( 2 and 3) at elevation 24 m and the nozzle ( 4 and 5) at elevation
0 m. The head losses are: from 1 to 2, 0 m; from 2 to 3, 0.60 m; from 3 to 4, 10 m; from 4 to 5, 0.30 m.
Compute the discharge and make a table showing elevation head, velocity head, pressure head and total
head at each of the five points.
4
EL 30m.
LE
2.
EL: 24m
150 mm pipe
50 mm
jet
EL O
Transcribed Image Text:Table of Heads
V²
2g
P
Z
E
2
3
4
E
5
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