A 90-cm ID pipeline (f = 0.020) of length 3000 m connects a reservoir whose water surface elevation is 540 m to a nozzle at elevation of 300m. The jet from the nozzle is used to drive an impulse turbine. If the head loss through the nozzle is expressible as 0.04 (a) Determine the jet diameter that will give a jet of maximum power. (b) Evaluate this maximum Jet power.
A 90-cm ID pipeline (f = 0.020) of length 3000 m connects a reservoir whose water surface elevation is 540 m to a nozzle at elevation of 300m. The jet from the nozzle is used to drive an impulse turbine. If the head loss through the nozzle is expressible as 0.04 (a) Determine the jet diameter that will give a jet of maximum power. (b) Evaluate this maximum Jet power.
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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Question
Fluid machinery
![PRELIMS DISCUSSION IN ME 3214
FLUID MACHINERY
PROBLEM:
A 90-cm ID pipeline (f = 0.020) of length 3000 m connects a reservoir whose water
surface elevation is 540 m to a nozzle at elevation of 300m. The jet from the nozzle
is used to drive an impulse turbine. If the head loss through the nozzle is expressible
as 0.04 i
29
(a) Determine the jet diameter that will give a jet of maximum power.
(b) Evaluate this maximum Jet power.
CNCD](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8194c680-17e1-4664-9acc-62b0126ae162%2F01b57e62-6071-4793-ab5c-a3c7fdca32d7%2Fx71zgp9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:PRELIMS DISCUSSION IN ME 3214
FLUID MACHINERY
PROBLEM:
A 90-cm ID pipeline (f = 0.020) of length 3000 m connects a reservoir whose water
surface elevation is 540 m to a nozzle at elevation of 300m. The jet from the nozzle
is used to drive an impulse turbine. If the head loss through the nozzle is expressible
as 0.04 i
29
(a) Determine the jet diameter that will give a jet of maximum power.
(b) Evaluate this maximum Jet power.
CNCD
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