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Tangential Component of Outlet Velocity in Pelton Turbine Formula

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Tangential Outlet Velocity of Pelton is a vector quantity and is quantified as the rate of displacement. Check FAQs

V w = U - V r2 \cdot \cos (β 2)

V_w - Tangential Outlet Velocity of Pelton?U - Bucket Velocity of Pelton Turbine?V_r2 - Outlet Relative Velocity of Pelton?β₂ - Outlet Bucket Angle of Pelton?

Tangential Component of Outlet Velocity in Pelton Turbine Example

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Here is how the Tangential Component of Outlet Velocity in Pelton Turbine equation looks like with Values.

Here is how the Tangential Component of Outlet Velocity in Pelton Turbine equation looks like with Units.

Here is how the Tangential Component of Outlet Velocity in Pelton Turbine equation looks like.

2.8899 = 14.73 - 12.6 \cdot \cos (20)

2.8899m/s = 14.73m/s - 12.6m/s \cdot \cos (20°)

2.8899 = 14.73 - 12.6 \cdot \cos (20)

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Tangential Component of Outlet Velocity in Pelton Turbine Solution

Follow our step by step solution on how to calculate Tangential Component of Outlet Velocity in Pelton Turbine?

FIRST Step Consider the formula

V w = U - V r2 \cdot \cos (β 2)

Next Step Substitute values of Variables

∴

V w = 14.73m/s - 12.6m/s \cdot \cos (20°)

Next Step Convert Units

∴

V w = 14.73m/s - 12.6m/s \cdot \cos (0.3491rad)

Next Step Prepare to Evaluate

∴

V w = 14.73 - 12.6 \cdot \cos (0.3491)

Next Step Evaluate

∴

V w = 2.88987297809727m/s

LAST Step Rounding Answer

∴

V w = 2.8899m/s

Tangential Component of Outlet Velocity in Pelton Turbine Formula Elements

Variables

Functions

Tangential Outlet Velocity of Pelton

Tangential Outlet Velocity of Pelton is a vector quantity and is quantified as the rate of displacement.

Symbol: V_w

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Tangential Outlet Velocity of Pelton

Bucket Velocity of Pelton Turbine

Bucket Velocity of Pelton Turbine is a vector quantity and is quantified as the rate of displacement.

Symbol: U

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Bucket Velocity of Pelton Turbine

Outlet Relative Velocity of Pelton

Outlet Relative Velocity of Pelton is a vector quantity and is quantified as the rate of displacement.

Symbol: V_r2

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Outlet Relative Velocity of Pelton

Outlet Bucket Angle of Pelton

Outlet Bucket Angle of Pelton is the angle the bucket makes with the relative velocity at the outlet.

Symbol: β₂

Measurement: AngleUnit: °

Note: Value should be greater than 0.

Formulas to find Outlet Bucket Angle of Pelton

cos

Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.

Syntax: cos(Angle)

Other formulas in Pelton Turbine category

Go Absolute Velocity of Pelton Jet

V 1 = C v \cdot \sqrt{2 \cdot [g] \cdot H}

Go Coefficient of Velocity for Pelton Wheel

C v = \frac{V 1}{\sqrt{2 \cdot [g] \cdot H}}

Go Pelton Head

H = \frac{{V 1}^{2}}{2 \cdot [g] \cdot {C v}^{2}}

Go Inlet Relative Velocity of Pelton

V r1 = V 1 - U

How to Evaluate Tangential Component of Outlet Velocity in Pelton Turbine?

Tangential Component of Outlet Velocity in Pelton Turbine evaluator uses Tangential Outlet Velocity of Pelton = Bucket Velocity of Pelton Turbine-Outlet Relative Velocity of Pelton*cos(Outlet Bucket Angle of Pelton) to evaluate the Tangential Outlet Velocity of Pelton, Tangential Component of Outlet Velocity in Pelton Turbine is the part of the water jet velocity that is parallel to the direction of the turbine bucket's motion at the outlet. It is essential for the effective transfer of kinetic energy from the water jet to the turbine, contributing to the turbine's rotational speed and efficiency. Tangential Outlet Velocity of Pelton is denoted by V_w symbol.

How to evaluate Tangential Component of Outlet Velocity in Pelton Turbine using this online evaluator? To use this online evaluator for Tangential Component of Outlet Velocity in Pelton Turbine, enter Bucket Velocity of Pelton Turbine (U), Outlet Relative Velocity of Pelton (V_r2) & Outlet Bucket Angle of Pelton (β₂) and hit the calculate button.

FAQs on Tangential Component of Outlet Velocity in Pelton Turbine

What is the formula to find Tangential Component of Outlet Velocity in Pelton Turbine?

The formula of Tangential Component of Outlet Velocity in Pelton Turbine is expressed as Tangential Outlet Velocity of Pelton = Bucket Velocity of Pelton Turbine-Outlet Relative Velocity of Pelton*cos(Outlet Bucket Angle of Pelton). Here is an example- 2.889873 = 14.73-12.6*cos(0.3490658503988).

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

With Bucket Velocity of Pelton Turbine (U), Outlet Relative Velocity of Pelton (V_r2) & Outlet Bucket Angle of Pelton (β₂) we can find Tangential Component of Outlet Velocity in Pelton Turbine using the formula - Tangential Outlet Velocity of Pelton = Bucket Velocity of Pelton Turbine-Outlet Relative Velocity of Pelton*cos(Outlet Bucket Angle of Pelton). This formula also uses Cosine function(s).

Can the Tangential Component of Outlet Velocity in Pelton Turbine be negative?

No, the Tangential Component of Outlet Velocity in Pelton Turbine, measured in Speed cannot be negative.

Which unit is used to measure Tangential Component of Outlet Velocity in Pelton Turbine?

Tangential Component of Outlet Velocity in Pelton Turbine is usually measured using the Meter per Second[m/s] for Speed. Meter per Minute[m/s], Meter per Hour[m/s], Kilometer per Hour[m/s] are the few other units in which Tangential Component of Outlet Velocity in Pelton Turbine can be measured.

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Tangential Component of Outlet Velocity in Pelton Turbine Formula

Tangential Component of Outlet Velocity in Pelton Turbine Example

Tangential Component of Outlet Velocity in Pelton Turbine Solution

Tangential Component of Outlet Velocity in Pelton Turbine Formula Elements

Other formulas in Pelton Turbine category

How to Evaluate Tangential Component of Outlet Velocity in Pelton Turbine?

FAQs on Tangential Component of Outlet Velocity in Pelton Turbine

Variable Name