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Frictional Power Loss in Terms of Pumping Power and Total Power Required Formula

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Frictional Power Loss in Bearing is the value of power lost due to friction. Check FAQs

kW f = kW t - kW p

kW_f - Frictional Power Loss in Bearing?kW_t - Total Power Required for Bearing Oil?kW_p - Pumping Power for Bearing?

Frictional Power Loss in Terms of Pumping Power and Total Power Required Example

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Here is how the Frictional Power Loss in Terms of Pumping Power and Total Power Required equation looks like with Values.

Here is how the Frictional Power Loss in Terms of Pumping Power and Total Power Required equation looks like with Units.

Here is how the Frictional Power Loss in Terms of Pumping Power and Total Power Required equation looks like.

5.55 = 7.5 - 1.95

5.55kW = 7.5kW - 1.95kW

5.55 = 7.5 - 1.95

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Frictional Power Loss in Terms of Pumping Power and Total Power Required Solution

Follow our step by step solution on how to calculate Frictional Power Loss in Terms of Pumping Power and Total Power Required?

FIRST Step Consider the formula

kW f = kW t - kW p

Next Step Substitute values of Variables

∴

kW f = 7.5kW - 1.95kW

Next Step Convert Units

∴

kW f = 7500W - 1950W

Next Step Prepare to Evaluate

∴

kW f = 7500 - 1950

Next Step Evaluate

∴

kW f = 5550W

LAST Step Convert to Output's Unit

∴

kW f = 5.55kW

Frictional Power Loss in Terms of Pumping Power and Total Power Required Formula Elements

Variables

Frictional Power Loss in Bearing

Frictional Power Loss in Bearing is the value of power lost due to friction.

Symbol: kW_f

Measurement: PowerUnit: kW

Note: Value should be greater than 0.

Formulas to find Frictional Power Loss in Bearing

Total Power Required for Bearing Oil

The Total Power Required for Bearing Oil is the value of the total amount of power required to pump the oil to the bearing.

Symbol: kW_t

Measurement: PowerUnit: kW

Note: Value should be greater than 0.

Formulas to find Total Power Required for Bearing Oil

Pumping Power for Bearing

The Pumping Power for Bearing is defined as the product of the flow of lubricant and the difference between inlet and outlet pressure.

Symbol: kW_p

Measurement: PowerUnit: kW

Note: Value should be greater than 0.

Formulas to find Pumping Power for Bearing

Other formulas in Power category

Go Pumping Power given Inlet and Outlet Pressure

kW p = Q sb \cdot (P i - P o)

Go Flow of Lubricant in Terms of Pumping Power

Q sb = \frac{kW p}{P i - P o}

Go Pumping Power in Terms of Total Power Required and Frictional Power Loss

kW p = kW t - kW f

Go Total Power Required in Terms of Pumping Power and Frictional Power Loss

kW t = kW f + kW p

How to Evaluate Frictional Power Loss in Terms of Pumping Power and Total Power Required?

Frictional Power Loss in Terms of Pumping Power and Total Power Required evaluator uses Frictional Power Loss in Bearing = Total Power Required for Bearing Oil-Pumping Power for Bearing to evaluate the Frictional Power Loss in Bearing, The Frictional Power Loss in Terms of Pumping Power and Total Power Required formula is defined as the difference between total power required and pumping power. Frictional Power Loss in Bearing is denoted by kW_f symbol.

How to evaluate Frictional Power Loss in Terms of Pumping Power and Total Power Required using this online evaluator? To use this online evaluator for Frictional Power Loss in Terms of Pumping Power and Total Power Required, enter Total Power Required for Bearing Oil (kW_t) & Pumping Power for Bearing (kW_p) and hit the calculate button.

FAQs on Frictional Power Loss in Terms of Pumping Power and Total Power Required

What is the formula to find Frictional Power Loss in Terms of Pumping Power and Total Power Required?

The formula of Frictional Power Loss in Terms of Pumping Power and Total Power Required is expressed as Frictional Power Loss in Bearing = Total Power Required for Bearing Oil-Pumping Power for Bearing. Here is an example- 0.00555 = 7500-1950.

How to calculate Frictional Power Loss in Terms of Pumping Power and Total Power Required?

With Total Power Required for Bearing Oil (kW_t) & Pumping Power for Bearing (kW_p) we can find Frictional Power Loss in Terms of Pumping Power and Total Power Required using the formula - Frictional Power Loss in Bearing = Total Power Required for Bearing Oil-Pumping Power for Bearing.

Can the Frictional Power Loss in Terms of Pumping Power and Total Power Required be negative?

No, the Frictional Power Loss in Terms of Pumping Power and Total Power Required, measured in Power cannot be negative.

Which unit is used to measure Frictional Power Loss in Terms of Pumping Power and Total Power Required?

Frictional Power Loss in Terms of Pumping Power and Total Power Required is usually measured using the Kilowatt[kW] for Power. Watt[kW], Milliwatt[kW], Microwatt[kW] are the few other units in which Frictional Power Loss in Terms of Pumping Power and Total Power Required can be measured.

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Frictional Power Loss in Terms of Pumping Power and Total Power Required Formula

Frictional Power Loss in Terms of Pumping Power and Total Power Required Example

Frictional Power Loss in Terms of Pumping Power and Total Power Required Solution

Frictional Power Loss in Terms of Pumping Power and Total Power Required Formula Elements

Other formulas in Power category

How to Evaluate Frictional Power Loss in Terms of Pumping Power and Total Power Required?

FAQs on Frictional Power Loss in Terms of Pumping Power and Total Power Required

Variable Name