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

✖The Total Power Required for Bearing Oil is the value of the total amount of power required to pump the oil to the bearing.ⓘ Total Power Required for Bearing Oil [kW_t]			+10% -10%
✖Frictional Power Loss in Bearing is the value of power lost due to friction.ⓘ Frictional Power Loss in Bearing [kW_f]			+10% -10%

✖The Pumping Power for Bearing is defined as the product of the flow of lubricant and the difference between inlet and outlet pressure.ⓘ Pumping Power in Terms of Total Power Required and Frictional Power Loss [kW_p]

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

STEP 0: Pre-Calculation Summary

Formula Used

Pumping Power for Bearing = Total Power Required for Bearing Oil-Frictional Power Loss in Bearing
kW_p = kW_t-kW_f
This formula uses 3 Variables

Variables Used

Pumping Power for Bearing - (Measured in Watt) - The Pumping Power for Bearing is defined as the product of the flow of lubricant and the difference between inlet and outlet pressure.
Total Power Required for Bearing Oil - (Measured in Watt) - The Total Power Required for Bearing Oil is the value of the total amount of power required to pump the oil to the bearing.
Frictional Power Loss in Bearing - (Measured in Watt) - Frictional Power Loss in Bearing is the value of power lost due to friction.

STEP 1: Convert Input(s) to Base Unit

Total Power Required for Bearing Oil: 7.5 Kilowatt --> 7500 Watt (Check conversion here)
Frictional Power Loss in Bearing: 5.55 Kilowatt --> 5550 Watt (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

kW_p = kW_t-kW_f --> 7500-5550

Evaluating ... ...

kW_p = 1950

STEP 3: Convert Result to Output's Unit

1950 Watt -->1.95 Kilowatt (Check conversion here)

FINAL ANSWER

1.95 Kilowatt <-- Pumping Power for Bearing

(Calculation completed in 00.004 seconds)

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Created by Vaibhav Malani

National Institute of Technology (NIT), Tiruchirapalli

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< Power Calculators

Pumping Power given Inlet and Outlet Pressure

LaTeX Go Pumping Power for Bearing = Flow of lubricant from step bearing*(Inlet Pressure for Bearing-Outlet Pressure for Bearing)

Flow of Lubricant in Terms of Pumping Power

LaTeX Go Flow of lubricant from step bearing = Pumping Power for Bearing/(Inlet Pressure for Bearing-Outlet Pressure for Bearing)

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

LaTeX Go Pumping Power for Bearing = Total Power Required for Bearing Oil-Frictional Power Loss in Bearing

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

LaTeX Go Total Power Required for Bearing Oil = Frictional Power Loss in Bearing+Pumping Power for Bearing

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

LaTeX Go

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

What is Sliding Contact Bearing?

The sliding contact bearings in which the sliding action is along the circumference of a circle or an arc of a circle and carrying radial loads are known as journal or sleeve bearings.

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

Pumping Power in Terms of Total Power Required and Frictional Power Loss calculator uses Pumping Power for Bearing = Total Power Required for Bearing Oil-Frictional Power Loss in Bearing to calculate the Pumping Power for Bearing, The Pumping Power in Terms of Total Power Required and Frictional Power Loss formula is defined as the difference between the total power required and frictional power loss. Pumping Power for Bearing is denoted by kW_p symbol.

How to calculate Pumping Power in Terms of Total Power Required and Frictional Power Loss using this online calculator? To use this online calculator for Pumping Power in Terms of Total Power Required and Frictional Power Loss, enter Total Power Required for Bearing Oil (kW_t) & Frictional Power Loss in Bearing (kW_f) and hit the calculate button. Here is how the Pumping Power in Terms of Total Power Required and Frictional Power Loss calculation can be explained with given input values -> 0.00195 = 7500-5550.

FAQ

What is Pumping Power in Terms of Total Power Required and Frictional Power Loss?

The Pumping Power in Terms of Total Power Required and Frictional Power Loss formula is defined as the difference between the total power required and frictional power loss and is represented as kW_p = kW_t-kW_f or Pumping Power for Bearing = Total Power Required for Bearing Oil-Frictional Power Loss in Bearing. The Total Power Required for Bearing Oil is the value of the total amount of power required to pump the oil to the bearing & Frictional Power Loss in Bearing is the value of power lost due to friction.

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

The Pumping Power in Terms of Total Power Required and Frictional Power Loss formula is defined as the difference between the total power required and frictional power loss is calculated using Pumping Power for Bearing = Total Power Required for Bearing Oil-Frictional Power Loss in Bearing. To calculate Pumping Power in Terms of Total Power Required and Frictional Power Loss, you need Total Power Required for Bearing Oil (kW_t) & Frictional Power Loss in Bearing (kW_f). With our tool, you need to enter the respective value for Total Power Required for Bearing Oil & Frictional Power Loss in Bearing 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 Pumping Power for Bearing?

In this formula, Pumping Power for Bearing uses Total Power Required for Bearing Oil & Frictional Power Loss in Bearing. We can use 2 other way(s) to calculate the same, which is/are as follows -

Pumping Power for Bearing = Flow of lubricant from step bearing*(Inlet Pressure for Bearing-Outlet Pressure for Bearing)
Pumping Power for Bearing = Flow of lubricant from step bearing*Pressure of Lubricating Oil

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