With the pipe system in the figure, the water taken from a very large reservoir is poured into the atmosphere. Pipe diameters are 0.3 m in wide parts and 0.25 m in narrow parts. Assuming ideal flow and absolute evaporation pressure of 0.02 kg/cm2; a-) When X=2.5 m, determine the flow rate of the system and the velocities in sections 2 and 4. b-) Calculate the pressures in parts 1,2 and 3. c-) Calculate the maximum value that X elevation can take without changing the flow of the system.
With the pipe system in the figure, the water taken from a very large reservoir is poured into the atmosphere. Pipe diameters are 0.3 m in wide parts and 0.25 m in narrow parts. Assuming ideal flow and absolute evaporation pressure of 0.02 kg/cm2; a-) When X=2.5 m, determine the flow rate of the system and the velocities in sections 2 and 4. b-) Calculate the pressures in parts 1,2 and 3. c-) Calculate the maximum value that X elevation can take without changing the flow of the system.
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter1: Introduction To Statics
Section: Chapter Questions
Problem 1.1P: A person weighs 30 lb on the moon, where g=5.32ft/s2. Determine (a) the mass of the person; and (b)...
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With the pipe system in the figure, the water taken from a very large reservoir is poured into the atmosphere. Pipe diameters are 0.3 m in wide parts and 0.25 m in narrow parts. Assuming ideal flow and absolute evaporation pressure of 0.02 kg/cm2;
a-) When X=2.5 m, determine the flow rate of the system and the velocities in sections 2 and 4.
b-) Calculate the pressures in parts 1,2 and 3.
c-) Calculate the maximum value that X elevation can take without changing the flow of the system.
Transcribed Image Text:TRANSLA TE
Hazne-Reservior
Transcribed Image Text:1.85 m
Hazne
0.00 m 3
deki b
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