The force that drives the flow of fluids is the pressure difference; a pump works by raising the pressure of a fluid (converting it into mechanical work of its axis and energy of flow). It is determined that A gasoline pump consumes 3.8 KW of electrical power when it is working. If the difference of pressures between pump discharge and suction is 7 KPa, and the changes in speed and head are despicable. Determine the maximum possible volumetric flow rate of the gasoline.
The force that drives the flow of fluids is the pressure difference; a pump works by raising the pressure of a fluid (converting it into mechanical work of its axis and energy of flow). It is determined that A gasoline pump consumes 3.8 KW of electrical power when it is working. If the difference of pressures between pump discharge and suction is 7 KPa, and the changes in speed and head are despicable. Determine the maximum possible volumetric flow rate of the gasoline.
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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The force that drives the flow of fluids is the pressure difference; a pump works by raising the
pressure of a fluid (converting it into
A gasoline pump consumes 3.8 KW of electrical power when it is working. If the difference of
pressures between pump discharge and suction is 7 KPa, and the changes in speed and head are
despicable.
Determine the maximum possible volumetric flow rate of the gasoline.
(see img)
Transcribed Image Text:3.8 kw
Bomba
Motor
|Entrada
bomba
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