Tangential Component of Inlet Velocity in Pelton Turbine Calculator

✖The Inlet Relative Velocity of Pelton Turbine is a vector quantity and is quantified as the rate of displacement.ⓘ Inlet Relative Velocity of Pelton Turbine [V_r1]			+10% -10%
✖Bucket velocity of Pelton turbine is a vector quantity and is quantified as the rate of displacement.ⓘ Bucket Velocity of Pelton Turbine [U]			+10% -10%

✖The tangential inlet velocity of Pelton is a vector quantity and is given as the rate of displacement.ⓘ Tangential Component of Inlet Velocity in Pelton Turbine [V_ti]

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Formula

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Tangential Component of Inlet Velocity in Pelton Turbine

Formula

`"V"_{"ti"} = "V"_{"r1"}+"U"`

Example

`"28m/s"="13.27m/s"+"14.73m/s"`

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Tangential Component of Inlet Velocity in Pelton Turbine Solution

STEP 0: Pre-Calculation Summary

Formula Used

Tangential Inlet Velocity of Pelton = Inlet Relative Velocity of Pelton Turbine+Bucket Velocity of Pelton Turbine
V_ti = V_r1+U
This formula uses 3 Variables

Variables Used

Tangential Inlet Velocity of Pelton - (Measured in Meter per Second) - The tangential inlet velocity of Pelton is a vector quantity and is given as the rate of displacement.
Inlet Relative Velocity of Pelton Turbine - (Measured in Meter per Second) - The Inlet Relative Velocity of Pelton Turbine is a vector quantity and is quantified as the rate of displacement.
Bucket Velocity of Pelton Turbine - (Measured in Meter per Second) - Bucket velocity of Pelton turbine is a vector quantity and is quantified as the rate of displacement.

STEP 1: Convert Input(s) to Base Unit

Inlet Relative Velocity of Pelton Turbine: 13.27 Meter per Second --> 13.27 Meter per Second No Conversion Required
Bucket Velocity of Pelton Turbine: 14.73 Meter per Second --> 14.73 Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_ti = V_r1+U --> 13.27+14.73

Evaluating ... ...

V_ti = 28

STEP 3: Convert Result to Output's Unit

28 Meter per Second --> No Conversion Required

FINAL ANSWER

28 Meter per Second <-- Tangential Inlet Velocity of Pelton

(Calculation completed in 00.004 seconds)

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Home » Physics » Fluid Mechanics » Fluid Machinery » Turbine » Pelton Turbine » Tangential Component of Inlet Velocity in Pelton Turbine

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Created by Suman Ray Pramanik

Indian Institute of Technology (IIT), Kanpur

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< 14 Pelton Turbine Calculators

Power of Pelton Turbine given Velocity

Go Power of Pelton Turbine = (1+K Factor for Pelton*cos(Outlet Bucket Angle of Pelton))*Mass Density*Volume Flow Rate for Pelton Turbine*Bucket Velocity of Pelton Turbine*(Velocity of Pelton Jet-Bucket Velocity of Pelton Turbine)

Wheel Efficiency of Pelton Turbine

Go Wheel Efficiency of Pelton Turbine = (2*(1+K Factor for Pelton*cos(Outlet Bucket Angle of Pelton))*(Velocity of Pelton Jet-Bucket Velocity of Pelton Turbine)*Bucket Velocity of Pelton Turbine)/(Velocity of Pelton Jet^2)

Power of Pelton Turbine

Go Power of Pelton Turbine = (1+K Factor for Pelton*cos(Outlet Bucket Angle of Pelton))*Mass Density*Volume Flow Rate for Pelton Turbine*Bucket Velocity of Pelton Turbine*Inlet Relative Velocity of Pelton Turbine

Energy per Unit Mass of Pelton Turbine

Go Energy per Unit Mass of Pelton Turbine = (Inlet Relative Velocity of Pelton Turbine+Outlet Relative Velocity of Pelton*cos(Outlet Bucket Angle of Pelton))*Bucket Velocity of Pelton Turbine

Tangential Component of Outlet Velocity in Pelton Turbine

Go Tangential Outlet Velocity of Pelton = Bucket Velocity of Pelton Turbine-Outlet Relative Velocity of Pelton*cos(Outlet Bucket Angle of Pelton)

Wheel Efficiency of Pelton Turbine given Power

Go Wheel Efficiency of Pelton Turbine = (2*Power of Pelton Turbine)/(Mass Density*Volume Flow Rate for Pelton Turbine*Velocity of Pelton Jet^2)

Energy per Unit Mass of Pelton

Go Energy per Unit Mass of Pelton = (Tangential Inlet Velocity of Pelton-Tangential Outlet Velocity of Pelton)*Bucket Velocity of Pelton Turbine

Coefficient of Velocity for Pelton Wheel

Go Coefficient of Velocity for Pelton = Velocity of Pelton Jet/sqrt(2*[g]*Pelton Head)

Absolute Velocity of Pelton Jet

Go Velocity of Pelton Jet = Coefficient of Velocity for Pelton*sqrt(2*[g]*Pelton Head)

Pelton Head

Go Pelton Head = Velocity of Pelton Jet^2/(2*[g]*Coefficient of Velocity for Pelton^2)

Tangential Component of Inlet Velocity in Pelton Turbine

Go Tangential Inlet Velocity of Pelton = Inlet Relative Velocity of Pelton Turbine+Bucket Velocity of Pelton Turbine

Inlet Relative Velocity of Pelton

Go Inlet Relative Velocity of Pelton Turbine = Velocity of Pelton Jet-Bucket Velocity of Pelton Turbine

Bucket Velocity of Pelton Turbine

Go Bucket Velocity of Pelton Turbine = Velocity of Pelton Jet-Inlet Relative Velocity of Pelton Turbine

Outlet Relative Velocity of Pelton

Go Outlet Relative Velocity of Pelton = K Factor for Pelton*Inlet Relative Velocity of Pelton Turbine

Tangential Component of Inlet Velocity in Pelton Turbine Formula

Tangential Inlet Velocity of Pelton = Inlet Relative Velocity of Pelton Turbine+Bucket Velocity of Pelton Turbine
V_ti = V_r1+U

What is the tangential velocity?

The tangential inlet velocity of the Pelton is a vector quantity and is given as the rate of displacement. The tangential velocity is the tangential component of the absolute jet velocity at the inlet. It decides the energy delivered by the fluid per unit mass.

How to Calculate Tangential Component of Inlet Velocity in Pelton Turbine?

Tangential Component of Inlet Velocity in Pelton Turbine calculator uses Tangential Inlet Velocity of Pelton = Inlet Relative Velocity of Pelton Turbine+Bucket Velocity of Pelton Turbine to calculate the Tangential Inlet Velocity of Pelton, The Tangential Component of Inlet Velocity in Pelton Turbine is a vector quantity and is given as the rate of displacement. Tangential Inlet Velocity of Pelton is denoted by V_ti symbol.

How to calculate Tangential Component of Inlet Velocity in Pelton Turbine using this online calculator? To use this online calculator for Tangential Component of Inlet Velocity in Pelton Turbine, enter Inlet Relative Velocity of Pelton Turbine (V_r1) & Bucket Velocity of Pelton Turbine (U) and hit the calculate button. Here is how the Tangential Component of Inlet Velocity in Pelton Turbine calculation can be explained with given input values -> 28.27 = 13.27+14.73.

FAQ

What is Tangential Component of Inlet Velocity in Pelton Turbine?

The Tangential Component of Inlet Velocity in Pelton Turbine is a vector quantity and is given as the rate of displacement and is represented as V_ti = V_r1+U or Tangential Inlet Velocity of Pelton = Inlet Relative Velocity of Pelton Turbine+Bucket Velocity of Pelton Turbine. The Inlet Relative Velocity of Pelton Turbine is a vector quantity and is quantified as the rate of displacement & Bucket velocity of Pelton turbine is a vector quantity and is quantified as the rate of displacement.

How to calculate Tangential Component of Inlet Velocity in Pelton Turbine?

The Tangential Component of Inlet Velocity in Pelton Turbine is a vector quantity and is given as the rate of displacement is calculated using Tangential Inlet Velocity of Pelton = Inlet Relative Velocity of Pelton Turbine+Bucket Velocity of Pelton Turbine. To calculate Tangential Component of Inlet Velocity in Pelton Turbine, you need Inlet Relative Velocity of Pelton Turbine (V_r1) & Bucket Velocity of Pelton Turbine (U). With our tool, you need to enter the respective value for Inlet Relative Velocity of Pelton Turbine & Bucket Velocity of Pelton Turbine and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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