Bernoulli modified the original equation to take into account the energy losses and additions in a system in terms of energy per unit weight of fluid flowing in the system. This is also known "head".

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Please can someone help me understand how to find the Hp, Hm, and HL for this equation. Like the steps. I don’t have problem for you to work with but you can come up with one if possible.
●
Bernoulli modified the original equation to take into account the energy losses and additions in a system in
terms of energy per unit weight of fluid flowing in the system. This is also known as "head".
Three terms will be added to the equation are:
➤ Hp (Pump Head): represent the energy added to the fluid by a pump.
> Hm (Motor Head): represent the energy removed from the fluid by a hydraulic motor (or turbine).
> H₁ (Head Loss): represent the energy losses due to friction as the fluid moves in the system.
General Energy Equation
P1
Y
v²
+Z₁ + + Hp - Hm - HL
2g
Hydraulic Powerp W,
ft. lb
S
= Y
=
N lb
m3.
P2
• The hydraulic power added by the pump to the fluid (Hydraulic Powerp), or taken from the
fluid by the motor (Hydraulic Powerlm) can be calculated using the following equation:
/m³
Hp (m, ft)
S
Y
ft3
+ Z₂ +
2g
Q
Hydraulic
Pump
S
Fluid Flow
Hydrwale
Cylinder
Transcribed Image Text:● Bernoulli modified the original equation to take into account the energy losses and additions in a system in terms of energy per unit weight of fluid flowing in the system. This is also known as "head". Three terms will be added to the equation are: ➤ Hp (Pump Head): represent the energy added to the fluid by a pump. > Hm (Motor Head): represent the energy removed from the fluid by a hydraulic motor (or turbine). > H₁ (Head Loss): represent the energy losses due to friction as the fluid moves in the system. General Energy Equation P1 Y v² +Z₁ + + Hp - Hm - HL 2g Hydraulic Powerp W, ft. lb S = Y = N lb m3. P2 • The hydraulic power added by the pump to the fluid (Hydraulic Powerp), or taken from the fluid by the motor (Hydraulic Powerlm) can be calculated using the following equation: /m³ Hp (m, ft) S Y ft3 + Z₂ + 2g Q Hydraulic Pump S Fluid Flow Hydrwale Cylinder
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