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Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Formula

GoWork Done per Second on Runner by Water for Acute Angled Outlet Blade Formula

GoWork Done per sec on Runner by Water for Obtuse Angled Outlet Blade Formula

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Work Done Per Second by Francis Turbine is defined as the amount of work that is done by the Francis turbine in a given unit of time. Check FAQs

W = ρ f \cdot Q f \cdot u 1 \cdot V w1

W - Work Done Per Second by Francis Turbine?ρ_f - Density of Fluid in Francis Turbine?Q_f - Volume Flow Rate For Francis Turbine?u₁ - Velocity of Vane at Inlet For Francis Turbine?V_w1 - Whirl Velocity at Inlet of Francis Turbine?

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Example

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Here is how the Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle equation looks like with Values.

Here is how the Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle equation looks like with Units.

Here is how the Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle equation looks like.

183.2827 = 1000 \cdot 1.5 \cdot 9.45 \cdot 12.93

183.2827kW = 1000kg/m³ \cdot 1.5m³/s \cdot 9.45m/s \cdot 12.93m/s

183.2827 = 1000 \cdot 1.5 \cdot 9.45 \cdot 12.93

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Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Solution

Follow our step by step solution on how to calculate Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle?

FIRST Step Consider the formula

W = ρ f \cdot Q f \cdot u 1 \cdot V w1

Next Step Substitute values of Variables

∴

W = 1000kg/m³ \cdot 1.5m³/s \cdot 9.45m/s \cdot 12.93m/s

Next Step Prepare to Evaluate

∴

W = 1000 \cdot 1.5 \cdot 9.45 \cdot 12.93

Next Step Evaluate

∴

W = 183282.75W

Next Step Convert to Output's Unit

∴

W = 183.28275kW

LAST Step Rounding Answer

∴

W = 183.2827kW

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Formula Elements

Variables

Work Done Per Second by Francis Turbine

Work Done Per Second by Francis Turbine is defined as the amount of work that is done by the Francis turbine in a given unit of time.

Symbol: W

Measurement: PowerUnit: kW

Note: Value should be greater than 0.

Formulas to find Work Done Per Second by Francis Turbine

Density of Fluid in Francis Turbine

Density of Fluid in Francis Turbine is the corresponding density of the fluid at the given conditions in the franchise turbine.

Symbol: ρ_f

Measurement: DensityUnit: kg/m³

Note: Value should be greater than 0.

Formulas to find Density of Fluid in Francis Turbine

Volume Flow Rate For Francis Turbine

Volume Flow Rate For Francis Turbine is the volume of fluid that passes per unit of time.

Symbol: Q_f

Measurement: Volumetric Flow RateUnit: m³/s

Note: Value should be greater than 0.

Formulas to find Volume Flow Rate For Francis Turbine

Velocity of Vane at Inlet For Francis Turbine

Velocity of Vane at Inlet For Francis Turbine is defined as the velocity of the vane at the inlet of the turbine.

Symbol: u₁

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Velocity of Vane at Inlet For Francis Turbine

Whirl Velocity at Inlet of Francis Turbine

Whirl Velocity at Inlet of Francis Turbine is the tangential component of absolute velocity at the blade inlet.

Symbol: V_w1

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Whirl Velocity at Inlet of Francis Turbine

Other Formulas to find Work Done Per Second by Francis Turbine

Go Work Done per Second on Runner by Water for Acute Angled Outlet Blade

W = ρ f \cdot Q f \cdot (V w1 \cdot u 1 + V w2 \cdot u 2)

Go Work Done per sec on Runner by Water for Obtuse Angled Outlet Blade

W = ρ f \cdot Q f \cdot (V w1 \cdot u 1 - V w2 \cdot u 2)

Other formulas in Francis Turbine category

Go Francis Turbine Speed Ratio

K u = \frac{u 1}{\sqrt{2 \cdot g \cdot H i}}

Go Velocity of Vane at Inlet given Speed Ratio Francis Turbine

u 1 = K u \cdot \sqrt{2 \cdot g \cdot H i}

Go Pressure Head given Speed Ratio in Francis Turbine

H i = \frac{{(\frac{u 1}{K u})}^{2}}{2 \cdot g}

Go Francis Turbine Flow Ratio

K f = \frac{V f1}{\sqrt{2 \cdot g \cdot H i}}

How to Evaluate Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle?

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle evaluator uses Work Done Per Second by Francis Turbine = Density of Fluid in Francis Turbine*Volume Flow Rate For Francis Turbine*Velocity of Vane at Inlet For Francis Turbine*Whirl Velocity at Inlet of Francis Turbine to evaluate the Work Done Per Second by Francis Turbine, The work done per second on runner by water for right angled outlet blade angle formula can be used to evaluate the work done by the water on the runner in a second which is a measure of the capacity of the turbine. Work Done Per Second by Francis Turbine is denoted by W symbol.

How to evaluate Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle using this online evaluator? To use this online evaluator for Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle, enter Density of Fluid in Francis Turbine (ρ_f), Volume Flow Rate For Francis Turbine (Q_f), Velocity of Vane at Inlet For Francis Turbine (u₁) & Whirl Velocity at Inlet of Francis Turbine (V_w1) and hit the calculate button.

FAQs on Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle

What is the formula to find Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle?

The formula of Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle is expressed as Work Done Per Second by Francis Turbine = Density of Fluid in Francis Turbine*Volume Flow Rate For Francis Turbine*Velocity of Vane at Inlet For Francis Turbine*Whirl Velocity at Inlet of Francis Turbine. Here is an example- 0.183283 = 1000*1.5*9.45*12.93.

How to calculate Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle?

With Density of Fluid in Francis Turbine (ρ_f), Volume Flow Rate For Francis Turbine (Q_f), Velocity of Vane at Inlet For Francis Turbine (u₁) & Whirl Velocity at Inlet of Francis Turbine (V_w1) we can find Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle using the formula - Work Done Per Second by Francis Turbine = Density of Fluid in Francis Turbine*Volume Flow Rate For Francis Turbine*Velocity of Vane at Inlet For Francis Turbine*Whirl Velocity at Inlet of Francis Turbine.

What are the other ways to Calculate Work Done Per Second by Francis Turbine?

Here are the different ways to Calculate Work Done Per Second by Francis Turbine-

Work Done Per Second by Francis Turbine=Density of Fluid in Francis Turbine*Volume Flow Rate For Francis Turbine*(Whirl Velocity at Inlet of Francis Turbine*Velocity of Vane at Inlet For Francis Turbine+Whirl Velocity at Outlet of Francis Turbine*Velocity of Vane at Outlet For Francis Turbine)
Work Done Per Second by Francis Turbine=Density of Fluid in Francis Turbine*Volume Flow Rate For Francis Turbine*(Whirl Velocity at Inlet of Francis Turbine*Velocity of Vane at Inlet For Francis Turbine-Whirl Velocity at Outlet of Francis Turbine*Velocity of Vane at Outlet For Francis Turbine)

Can the Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle be negative?

No, the Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle, measured in Power cannot be negative.

Which unit is used to measure Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle?

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle is usually measured using the Kilowatt[kW] for Power. Watt[kW], Milliwatt[kW], Microwatt[kW] are the few other units in which Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle can be measured.

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Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Formula

​GoWork Done per Second on Runner by Water for Acute Angled Outlet Blade Formula

​GoWork Done per sec on Runner by Water for Obtuse Angled Outlet Blade Formula

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Example

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Solution

Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle Formula Elements

Other Formulas to find Work Done Per Second by Francis Turbine

Other formulas in Francis Turbine category

How to Evaluate Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle?

FAQs on Work Done per Second on Runner by Water for Right Angled Outlet Blade Angle

Variable Name

GoWork Done per Second on Runner by Water for Acute Angled Outlet Blade Formula

GoWork Done per sec on Runner by Water for Obtuse Angled Outlet Blade Formula