Sagar S Kulkarni
Dayananda Sagar College of Engineering (DSCE), Bengaluru
Sagar S Kulkarni has created this Calculator and 100+ more calculators!
Chilvera Bhanu Teja
Institute of Aeronautical Engineering (IARE), Hyderabad
Chilvera Bhanu Teja has verified this Calculator and 100+ more calculators!

11 Other formulas that you can solve using the same Inputs

Angular speed of vane pump given theoretical discharge
Angular speed of the driving member in rpm=(Theoretical discharge of a pump*2)/(pi*Eccentricity *Width of rotor*(Diameter of cam ring+Diameter of rotor)) GO
Width of vane pump given theoretical discharge
Width of rotor=(Theoretical discharge of a pump*2)/(pi*Eccentricity *Angular speed of the driving member in rpm*(Diameter of cam ring+Diameter of rotor)) GO
Pump slippage percentage
Pump slippage=((Theoretical discharge of a pump-Actual discharge of a pump)/Theoretical discharge of a pump)*100 GO
Angular speed given theoretical discharge and volumetric displacement
Angular speed of the driving member in rpm=Theoretical discharge of a pump/Theoretical volumetric displacement GO
Theoretical discharge given volumetric efficiency(%) and actual discharge
Theoretical discharge of a pump=(Actual discharge of a pump/Volumetric efficiency of a pump)*100 GO
Actual discharge given volumetric efficiency(%) and theoretical discharge
Actual discharge of a pump=(Volumetric efficiency of a pump*Theoretical discharge of a pump)/100 GO
Volumetric efficiency of gear pumps
Volumetric efficiency of a pump=(Actual discharge of a pump/Theoretical discharge of a pump)*100 GO
Volumetric efficiency
Volumetric efficiency of a pump=(Actual discharge of a pump/Theoretical discharge of a pump)*100 GO
Theoretical discharge given pump slippage
Theoretical discharge of a pump=Pump slippage+Actual discharge of a pump GO
Pump slippage
Pump slippage=Theoretical discharge of a pump-Actual discharge of a pump GO
Actual discharge given pump slippage
actual discharge=Theoretical discharge of a pump-Pump slippage GO

4 Other formulas that calculate the same Output

Overall efficiency in terms of manometric, volumetric and mechanical efficiencies
Overall efficiency =Manometric efficiency*Volumetric efficiency of a pump*Mechanical efficiency GO
Overall efficiency(%)
Overall efficiency =(Volumetric efficiency of a motor*Mechanical efficiency )/100 GO
Overall efficiency of piston pump
Overall efficiency =(Mechanical efficiency *Volumetric efficiency of a pump)/100 GO
Overall efficiency
Overall efficiency =(Specific Weight*Discharge*Manometric head)/Input Power GO

Overall efficiency given actual and theoretical discharge Formula

Overall efficiency =(Actual discharge of a pump/Theoretical discharge of a pump)*100
η<sub>o</sub>=(Q<sub>act</sub>/Q<sub>th</sub>)*100
More formulas
Stroke length of an axial piston pump GO
Theoretical volumetric displacement given area of piston and stroke length GO
Theoretical volumetric displacement given bore diameter and swash plate inclination GO
Piston pump constant K GO
Theoretical discharge GO
Volumetric efficiency GO
Theoretical torque developed GO
Actual torque developed GO
Mechanical efficiency GO
Mechanical efficiency in terms of theoretical and actual torque GO
Overall efficiency of piston pump GO
Theoretical power of piston pump GO
Swash plate inclination with the axis of cylinder GO
Tan of angle of inclination of swash plate GO
Stroke length of piston pump given volumetric displacement GO
Area of piston pump given volumetric displacement GO
Tan of angle of swash plate inclination given volumetric displacement GO
Angle of swash plate inclination given volumetric displacement GO

What are some applications of piston pumps?

Some applications of piston pumps are 1.High-Pressure Cleaning 2.Water Hydraulics 3.Oil Hydraulics 4.Descaling.

How to Calculate Overall efficiency given actual and theoretical discharge?

Overall efficiency given actual and theoretical discharge calculator uses Overall efficiency =(Actual discharge of a pump/Theoretical discharge of a pump)*100 to calculate the Overall efficiency , The Overall efficiency given actual and theoretical discharge formula is defined as the ratio of actual discharge to the theoretical discharge. Overall efficiency and is denoted by ηo symbol.

How to calculate Overall efficiency given actual and theoretical discharge using this online calculator? To use this online calculator for Overall efficiency given actual and theoretical discharge, enter Actual discharge of a pump (Qact) and Theoretical discharge of a pump (Qth) and hit the calculate button. Here is how the Overall efficiency given actual and theoretical discharge calculation can be explained with given input values -> 100 = (0.166666666666667/0.166666666666667)*100.

FAQ

What is Overall efficiency given actual and theoretical discharge?
The Overall efficiency given actual and theoretical discharge formula is defined as the ratio of actual discharge to the theoretical discharge and is represented as ηo=(Qact/Qth)*100 or Overall efficiency =(Actual discharge of a pump/Theoretical discharge of a pump)*100. Actual discharge of a pump is the actual amount of liquid pumped out in a minute and Theoretical discharge of a pump is the volume of liquid pumped out in unit time.
How to calculate Overall efficiency given actual and theoretical discharge?
The Overall efficiency given actual and theoretical discharge formula is defined as the ratio of actual discharge to the theoretical discharge is calculated using Overall efficiency =(Actual discharge of a pump/Theoretical discharge of a pump)*100. To calculate Overall efficiency given actual and theoretical discharge, you need Actual discharge of a pump (Qact) and Theoretical discharge of a pump (Qth). With our tool, you need to enter the respective value for Actual discharge of a pump and Theoretical discharge of a pump and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Overall efficiency ?
In this formula, Overall efficiency uses Actual discharge of a pump and Theoretical discharge of a pump. We can use 4 other way(s) to calculate the same, which is/are as follows -
  • Overall efficiency =(Mechanical efficiency *Volumetric efficiency of a pump)/100
  • Overall efficiency =(Volumetric efficiency of a motor*Mechanical efficiency )/100
  • Overall efficiency =Manometric efficiency*Volumetric efficiency of a pump*Mechanical efficiency
  • Overall efficiency =(Specific Weight*Discharge*Manometric head)/Input Power
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