Total head available at inlet of pipe for efficiency of power transmission Calculator

✖Head loss due to friction in Pipe is the loss in the head of the flowing fluid in the pipe due to friction present in the pipe and the fluid.ⓘ Head Loss Due to Friction in Pipe [h_f]			+10% -10%
✖Efficiency for Pipe is defined as the ratio of the power available at the outer of the pipe to the power supplied a t the inlet of the pipe.ⓘ Efficiency for Pipe [η_p]			+10% -10%

✖Total Head at Inlet of Pipe is the measure of fluid's potential at the entrance or the inlet of the pipe.ⓘ Total head available at inlet of pipe for efficiency of power transmission [H_in]

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Total head available at inlet of pipe for efficiency of power transmission Solution

STEP 0: Pre-Calculation Summary

Formula Used

Total Head at Inlet of Pipe = Head Loss Due to Friction in Pipe/(1-Efficiency for Pipe)
H_in = h_f/(1-η_p)
This formula uses 3 Variables

Variables Used

Total Head at Inlet of Pipe - (Measured in Meter) - Total Head at Inlet of Pipe is the measure of fluid's potential at the entrance or the inlet of the pipe.
Head Loss Due to Friction in Pipe - (Measured in Meter) - Head loss due to friction in Pipe is the loss in the head of the flowing fluid in the pipe due to friction present in the pipe and the fluid.
Efficiency for Pipe - Efficiency for Pipe is defined as the ratio of the power available at the outer of the pipe to the power supplied a t the inlet of the pipe.

STEP 1: Convert Input(s) to Base Unit

Head Loss Due to Friction in Pipe: 10.2 Meter --> 10.2 Meter No Conversion Required
Efficiency for Pipe: 0.73 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

H_in = h_f/(1-η_p) --> 10.2/(1-0.73)

Evaluating ... ...

H_in = 37.7777777777778

STEP 3: Convert Result to Output's Unit

37.7777777777778 Meter --> No Conversion Required

FINAL ANSWER

37.7777777777778 ≈ 37.77778 Meter <-- Total Head at Inlet of Pipe

(Calculation completed in 00.004 seconds)

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< Pressure and Flow Head Calculators

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LaTeX Go Difference in Liquid Level = (4*Coefficient of Friction of Pipe/(2*[g]))*((Length of Pipe*Velocity at Point 1^2/Diameter of Pipe)+(Length of Pipe*Velocity at Point 2^2/Diameter of Pipe)+(Length of Pipe*Velocity at Point 3^2/Diameter of Pipe))

Total head at inlet of pipe for head available at base of nozzle

LaTeX Go Total Head at Inlet of Pipe = Head at Base of Nozzle+(4*Coefficient of Friction of Pipe*Length of Pipe*(Flow Velocity through Pipe^2)/(Diameter of Pipe*2*[g]))

Head available at Base of Nozzle

LaTeX Go Head at Base of Nozzle = Total Head at Inlet of Pipe-(4*Coefficient of Friction of Pipe*Length of Pipe*(Flow Velocity through Pipe^2)/(Diameter of Pipe*2*[g]))

Total head available at inlet of pipe for efficiency of power transmission

LaTeX Go Total Head at Inlet of Pipe = Head Loss Due to Friction in Pipe/(1-Efficiency for Pipe)

Total head available at inlet of pipe for efficiency of power transmission Formula

LaTeX Go

Total Head at Inlet of Pipe = Head Loss Due to Friction in Pipe/(1-Efficiency for Pipe)
H_in = h_f/(1-η_p)

What is the condition for maximum power transmission in pipes?

The power transmitted through a pipe will be maximum when the head loss due to friction will be one-third of the total head at the inlet.

What is head loss due to friction?

The head loss is a measure of the reduction in the total head of the fluid as it moves through a pipeline. Head loss along the pipe wall is called friction loss or head loss due to the friction.

How to Calculate Total head available at inlet of pipe for efficiency of power transmission?

Total head available at inlet of pipe for efficiency of power transmission calculator uses Total Head at Inlet of Pipe = Head Loss Due to Friction in Pipe/(1-Efficiency for Pipe) to calculate the Total Head at Inlet of Pipe, The Total head available at inlet of pipe for efficiency of power transmission formula is known while considering the loss of head due to the friction in pipe and the efficiency of power transmission through pipes. Total Head at Inlet of Pipe is denoted by H_in symbol.

How to calculate Total head available at inlet of pipe for efficiency of power transmission using this online calculator? To use this online calculator for Total head available at inlet of pipe for efficiency of power transmission, enter Head Loss Due to Friction in Pipe (h_f) & Efficiency for Pipe (η_p) and hit the calculate button. Here is how the Total head available at inlet of pipe for efficiency of power transmission calculation can be explained with given input values -> 37.77778 = 10.2/(1-0.73).

FAQ

What is Total head available at inlet of pipe for efficiency of power transmission?

The Total head available at inlet of pipe for efficiency of power transmission formula is known while considering the loss of head due to the friction in pipe and the efficiency of power transmission through pipes and is represented as H_in = h_f/(1-η_p) or Total Head at Inlet of Pipe = Head Loss Due to Friction in Pipe/(1-Efficiency for Pipe). Head loss due to friction in Pipe is the loss in the head of the flowing fluid in the pipe due to friction present in the pipe and the fluid & Efficiency for Pipe is defined as the ratio of the power available at the outer of the pipe to the power supplied a t the inlet of the pipe.

How to calculate Total head available at inlet of pipe for efficiency of power transmission?

The Total head available at inlet of pipe for efficiency of power transmission formula is known while considering the loss of head due to the friction in pipe and the efficiency of power transmission through pipes is calculated using Total Head at Inlet of Pipe = Head Loss Due to Friction in Pipe/(1-Efficiency for Pipe). To calculate Total head available at inlet of pipe for efficiency of power transmission, you need Head Loss Due to Friction in Pipe (h_f) & Efficiency for Pipe (η_p). With our tool, you need to enter the respective value for Head Loss Due to Friction in Pipe & Efficiency for Pipe 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 Total Head at Inlet of Pipe?

In this formula, Total Head at Inlet of Pipe uses Head Loss Due to Friction in Pipe & Efficiency for Pipe. We can use 1 other way(s) to calculate the same, which is/are as follows -

Total Head at Inlet of Pipe = Head at Base of Nozzle+(4*Coefficient of Friction of Pipe*Length of Pipe*(Flow Velocity through Pipe^2)/(Diameter of Pipe*2*[g]))

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