Sagar S Kulkarni
Dayananda Sagar College of Engineering (DSCE), Bengaluru
Sagar S Kulkarni has created this Calculator and 200+ more calculators!
Chilvera Bhanu Teja
Institute of Aeronautical Engineering (IARE), Hyderabad
Chilvera Bhanu Teja has verified this Calculator and 200+ more calculators!

11 Other formulas that you can solve using the same Inputs

Area at Section 2 when Theoretical Discharge through pipe is Given
Cross-Sectional area at a point 2=sqrt(1/ ((1/(Cross Sectional area 1^2)-2* [g]*Venturi head/theoretical discharge))) GO
Venturi Head when Theoretical Discharge through pipe is Given
Venturi head=(theoretical discharge/2*[g])*(1/((Cross Sectional area 1)^2)-1/((Cross-Sectional area at a point 2)^2)) GO
Head of liquid above the V-notch
head of the liquid=(theoretical discharge/((8/15)*coefficient of discharging*(tan(Angle A/2))*sqrt(2*[g])))^0.4 GO
Head of liquid over the crest
head of the liquid=(theoretical discharge/((2/3)*coefficient of discharging*sqrt(2*[g])*Length))^(2/3) GO
Length of section for discharge over rectangle notch or weir
Length=theoretical discharge/((2/3)*coefficient of discharging*sqrt(2*[g])*(head of the liquid^1.5)) GO
Volumetric efficiency
Volumetric efficiency of a motor=(theoretical discharge/actual discharge)*100 GO
Volumetric efficiency
Volumetric efficiency of a pump=(actual discharge/theoretical discharge)*100 GO
Theoretical discharge given volumetric efficiency(%)
theoretical discharge=(volumetric efficiency*actual discharge)/100 GO
Co-efficient of discharge
coefficient of discharging=actual discharge/theoretical discharge GO
co-efficient of discharge (Cd) of the pump.
Coefficient of Discharge =actual discharge/theoretical discharge GO
slip of the pump
Pump slippage=theoretical discharge-actual discharge GO

3 Other formulas that calculate the same Output

Actual discharge in venturimeter
actual discharge=coefficient of discharging*((Area of cross section at the inlet*Area of cross section at the Throat)/(sqrt((Area of cross section at the inlet^2)-(Area of cross section at the Throat^2))))*sqrt(2*[g]*head of the liquid) GO
Actual Discharge from Backwater Effect on a Rating Curve-Normalized Curve
actual discharge=(Normalized Discharge*Actual Fall^Exponent on Rating Curve with a value close to 0.5)/Normalized Value of the Fall^Exponent on Rating Curve with a value close to 0.5 GO
Actual discharge given pump slippage
actual discharge=Theoretical discharge of a pump-Pump slippage GO

Actual discharge given volumetric efficiency(%) Formula

actual discharge=(theoretical discharge*100)/volumetric efficiency
Q=(Q th*100)/VE
More formulas
Theoretical torque developed GO
Theoretical volumetric displacement given torque and pressure GO
Pressure of the liquid entering the motor GO
Theoretical power GO
Theoretical power in terms of volumetric displacement and pressure GO
Theoretical discharge GO
Volumetric efficiency GO
Theoretical discharge given volumetric efficiency(%) GO
Mechanical efficiency(%) GO
Actual torque delivered GO
Overall efficiency(%) GO

What is minimum motor speed?

Minimum motor speed is the slowest, continuous, uninterrupted rotational speed available from the motor output shaft.

How to Calculate Actual discharge given volumetric efficiency(%)?

Actual discharge given volumetric efficiency(%) calculator uses actual discharge=(theoretical discharge*100)/volumetric efficiency to calculate the actual discharge, The Actual discharge given volumetric efficiency(%) formula is defined as the ratio of theoretical discharge to the volumetric efficiency. actual discharge and is denoted by Q symbol.

How to calculate Actual discharge given volumetric efficiency(%) using this online calculator? To use this online calculator for Actual discharge given volumetric efficiency(%), enter theoretical discharge (Q th) and volumetric efficiency (VE) and hit the calculate button. Here is how the Actual discharge given volumetric efficiency(%) calculation can be explained with given input values -> 2 = (0.01*100)/0.5.

FAQ

What is Actual discharge given volumetric efficiency(%)?
The Actual discharge given volumetric efficiency(%) formula is defined as the ratio of theoretical discharge to the volumetric efficiency and is represented as Q=(Q th*100)/VE or actual discharge=(theoretical discharge*100)/volumetric efficiency. The theoretical discharge is given by the theoretical area and velocity and volumetric efficiency is the ratio of the volume of air/charge drawn into the cylinder/s during the suction stroke to the total displacement of all the cylinder/s at the atmospheric pressure.
How to calculate Actual discharge given volumetric efficiency(%)?
The Actual discharge given volumetric efficiency(%) formula is defined as the ratio of theoretical discharge to the volumetric efficiency is calculated using actual discharge=(theoretical discharge*100)/volumetric efficiency. To calculate Actual discharge given volumetric efficiency(%), you need theoretical discharge (Q th) and volumetric efficiency (VE). With our tool, you need to enter the respective value for theoretical discharge and volumetric efficiency 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 actual discharge?
In this formula, actual discharge uses theoretical discharge and volumetric efficiency. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • actual discharge=Theoretical discharge of a pump-Pump slippage
  • actual discharge=coefficient of discharging*((Area of cross section at the inlet*Area of cross section at the Throat)/(sqrt((Area of cross section at the inlet^2)-(Area of cross section at the Throat^2))))*sqrt(2*[g]*head of the liquid)
  • actual discharge=(Normalized Discharge*Actual Fall^Exponent on Rating Curve with a value close to 0.5)/Normalized Value of the Fall^Exponent on Rating Curve with a value close to 0.5
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