The three tanks shown in the figure below are connected by new cast iron pipes (ɛ = 0.26 mm). The diameter and length of each pipe are stated in the figure below. The flowrate in channel 1 is 50 m/s. Determine the flowrate in pipes 2 and 3 and the required pump power. Neglect minor losses. Elevation = 0 m Elevation = 200 m (Datum) Dia = 0.8 m Pump Dia = 1.0 m L = 500 m L = 200 m (2) Elevation = 150 m (1) Dia = 1.2 m L= 300 m Clearly show your work and explain the setup of the Bernoulli equation and conservation of mass. State the solution of the pump power and flowrates in pipes 2 and 3 clearly.
The three tanks shown in the figure below are connected by new cast iron pipes (ɛ = 0.26 mm). The diameter and length of each pipe are stated in the figure below. The flowrate in channel 1 is 50 m/s. Determine the flowrate in pipes 2 and 3 and the required pump power. Neglect minor losses. Elevation = 0 m Elevation = 200 m (Datum) Dia = 0.8 m Pump Dia = 1.0 m L = 500 m L = 200 m (2) Elevation = 150 m (1) Dia = 1.2 m L= 300 m Clearly show your work and explain the setup of the Bernoulli equation and conservation of mass. State the solution of the pump power and flowrates in pipes 2 and 3 clearly.
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 three tanks shown in the figure below are connected by new cast iron pipes (ɛ = 0.26 mm).
The diameter and length of each pipe are stated in the figure below. The flowrate in channel 1 is 50
m/s. Determine the flowrate in pipes 2 and 3 and the required pump power. Neglect minor losses.
Elevation = 0 m
Elevation = 200 m
(Datum)
Dia = 0.8 m
Pump Dia = 1.0 m L = 500 m
L = 200 m
(2) Elevation = 150 m
(1)
Dia = 1.2 m
L = 300 m
Clearly show your work and explain the setup of the Bernoulli equation and conservation of mass. State
the solution of the pump power and flowrates in pipes 2 and 3 clearly.
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