Rate of Flow given Hydraulic Transmission Power Calculator

✖Power is the amount of energy liberated per second in a device.ⓘ Power [P]			+10% -10%
✖Specific Weight of Liquid is defined as weight per unit volume. It is the specific weight of the liquid for which the calculation is being done.ⓘ Specific Weight of Liquid [γ_l]			+10% -10%
✖Total Head at Entrance is the measure of fluid's potential at the entrance.ⓘ Total Head at Entrance [H_e]			+10% -10%
✖Head Loss of Fluid is a measure of the reduction in the total head (sum of elevation head, velocity head and pressure head) of the fluid as it moves through a fluid system.ⓘ Head Loss of Fluid [h_l]			+10% -10%

✖Rate of Flow is the rate at which a liquid or other substance flows through a particular channel, pipe, etc.ⓘ Rate of Flow given Hydraulic Transmission Power [Q_f]

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Rate of Flow given Hydraulic Transmission Power Solution

STEP 0: Pre-Calculation Summary

Formula Used

Rate of Flow = Power/(Specific Weight of Liquid*(Total Head at Entrance-Head Loss of Fluid))
Q_f = P/(γ_l*(H_e-h_l))
This formula uses 5 Variables

Variables Used

Rate of Flow - (Measured in Cubic Meter per Second) - Rate of Flow is the rate at which a liquid or other substance flows through a particular channel, pipe, etc.
Power - (Measured in Watt) - Power is the amount of energy liberated per second in a device.
Specific Weight of Liquid - (Measured in Newton per Cubic Meter) - Specific Weight of Liquid is defined as weight per unit volume. It is the specific weight of the liquid for which the calculation is being done.
Total Head at Entrance - (Measured in Meter) - Total Head at Entrance is the measure of fluid's potential at the entrance.
Head Loss of Fluid - (Measured in Meter) - Head Loss of Fluid is a measure of the reduction in the total head (sum of elevation head, velocity head and pressure head) of the fluid as it moves through a fluid system.

STEP 1: Convert Input(s) to Base Unit

Power: 3000 Watt --> 3000 Watt No Conversion Required
Specific Weight of Liquid: 310 Newton per Cubic Meter --> 310 Newton per Cubic Meter No Conversion Required
Total Head at Entrance: 1.595 Meter --> 1.595 Meter No Conversion Required
Head Loss of Fluid: 1.195 Meter --> 1.195 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Q_f = P/(γ_l*(H_e-h_l)) --> 3000/(310*(1.595-1.195))

Evaluating ... ...

Q_f = 24.1935483870968

STEP 3: Convert Result to Output's Unit

24.1935483870968 Cubic Meter per Second --> No Conversion Required

FINAL ANSWER

24.1935483870968 ≈ 24.19355 Cubic Meter per Second <-- Rate of Flow

(Calculation completed in 00.004 seconds)

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Osmania University (OU), Hyderabad

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Rate of Flow given Hydraulic Transmission Power Formula

LaTeX Go

Rate of Flow = Power/(Specific Weight of Liquid*(Total Head at Entrance-Head Loss of Fluid))
Q_f = P/(γ_l*(H_e-h_l))

Define Hydraullic Transmission of Power

Hydraulic transmission, device employing a liquid to transmit and modify linear or rotary motion and linear or turning force (torque). There are two main types of hydraulic power transmission systems: hydrokinetic, such as the hydraulic coupling and the hydraulic torque converter, which use the kinetic energy of the liquid; and hydrostatic, which use the pressure energy of the liquid.

How to Calculate Rate of Flow given Hydraulic Transmission Power?

Rate of Flow given Hydraulic Transmission Power calculator uses Rate of Flow = Power/(Specific Weight of Liquid*(Total Head at Entrance-Head Loss of Fluid)) to calculate the Rate of Flow, The Rate of Flow given Hydraulic Transmission Power formula is defined as the volumetric flow rate is the volume of fluid which passes per unit time. Rate of Flow is denoted by Q_f symbol.

How to calculate Rate of Flow given Hydraulic Transmission Power using this online calculator? To use this online calculator for Rate of Flow given Hydraulic Transmission Power, enter Power (P), Specific Weight of Liquid (γ_l), Total Head at Entrance (H_e) & Head Loss of Fluid (h_l) and hit the calculate button. Here is how the Rate of Flow given Hydraulic Transmission Power calculation can be explained with given input values -> 24.19355 = 3000/(310*(1.595-1.195)).

FAQ

What is Rate of Flow given Hydraulic Transmission Power?

The Rate of Flow given Hydraulic Transmission Power formula is defined as the volumetric flow rate is the volume of fluid which passes per unit time and is represented as Q_f = P/(γ_l*(H_e-h_l)) or Rate of Flow = Power/(Specific Weight of Liquid*(Total Head at Entrance-Head Loss of Fluid)). Power is the amount of energy liberated per second in a device, Specific Weight of Liquid is defined as weight per unit volume. It is the specific weight of the liquid for which the calculation is being done, Total Head at Entrance is the measure of fluid's potential at the entrance & Head Loss of Fluid is a measure of the reduction in the total head (sum of elevation head, velocity head and pressure head) of the fluid as it moves through a fluid system.

How to calculate Rate of Flow given Hydraulic Transmission Power?

The Rate of Flow given Hydraulic Transmission Power formula is defined as the volumetric flow rate is the volume of fluid which passes per unit time is calculated using Rate of Flow = Power/(Specific Weight of Liquid*(Total Head at Entrance-Head Loss of Fluid)). To calculate Rate of Flow given Hydraulic Transmission Power, you need Power (P), Specific Weight of Liquid (γ_l), Total Head at Entrance (H_e) & Head Loss of Fluid (h_l). With our tool, you need to enter the respective value for Power, Specific Weight of Liquid, Total Head at Entrance & Head Loss of Fluid 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 Rate of Flow?

In this formula, Rate of Flow uses Power, Specific Weight of Liquid, Total Head at Entrance & Head Loss of Fluid. We can use 2 other way(s) to calculate the same, which is/are as follows -

Rate of Flow = Cross Sectional Area*Average Velocity
Rate of Flow = Head Loss of Fluid*Specific Weight*pi*(Diameter of Pipe^4)/(128*Viscous Force*Length of Pipe)

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