Pump transfers water from tank A to tank D as shown in the figure in question A differential pressure gauge is installed on the pump data: - Suction pipe length: 5 m Supply pipe length: 20 m - Pipe diameter (uniform): 100 mm Longitudinal coefficient of friction: 0.03 -Differential pressure gauge shows:] 2.5 [bar The angles have a short radius - The kinematic viscosity of water: vw = 10-6 m2 / sec A. Calculate the pump capacity in units [. [Liter / sec B. Calculate the pressures p1 and p2 at the inlet and outlet of the pump in units [. [Bar C. Calculate the roughness of the piping in mm units.

Pump transfers water from tank A to tank D as shown in the figure in question A differential pressure gauge is installed on the pump data: - Suction pipe length: 5 m Supply pipe length: 20 m - Pipe diameter (uniform): 100 mm Longitudinal coefficient of friction: 0.03 -Differential pressure gauge shows:] 2.5 [bar The angles have a short radius - The kinematic viscosity of water: vw = 10-6 m2 / sec A. Calculate the pump capacity in units [. [Liter / sec B. Calculate the pressures p1 and p2 at the inlet and outlet of the pump in units [. [Bar C. Calculate the roughness of the piping in mm units.

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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Fluid Dynamics

The study of the flow of gases and liquids, usually in and around solid surfaces, is known as fluid dynamics in physics and engineering. Fluid dynamics, for example, can be used to evaluate the movement of air through an airplane wing or the surface of a vehicle. It can also be used in ship design to increase the speed at which ships pass through water.

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Step 1: determine the pump capacity, pressures p1 and p2 and roughness of the pipe.

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Step 3: Calculate Pressures p1 and p2

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