Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal Calculator

✖Power Loss For Seal is the loss of power consumed due to leakage of fluid through face seal.ⓘ Power Loss For Seal [P_l]			+10% -10%
✖Thickness of Fluid Between Members refers to how resistant a fluid is to moving through it. For example, Water has a low or "thin" viscosity, while honey has a "thick" or high viscosity.ⓘ Thickness of Fluid Between Members [t]			+10% -10%
✖Nominal Packing Cross Section of Bush Seal is a surface or shape exposed by making a straight cut through something, especially at right angles to an axis.ⓘ Nominal Packing Cross Section of Bush Seal [w]			+10% -10%
✖Outer Radius of Rotating Member Inside Bush Seal is the radius of the outer surface of the shaft rotating inside a bushed packing seal.ⓘ Outer Radius of Rotating Member Inside Bush Seal [r₂]			+10% -10%
✖Inner Radius of Rotating Member Inside Bush Seal is the radius of the inner surface of the shaft rotating inside a bushed packing seal.ⓘ Inner Radius of Rotating Member Inside Bush Seal [r₁]			+10% -10%

✖Kinematic Viscosity of Bush Seal Fluid is an atmospheric variable defined as the ratio between the dynamic viscosity μ and the density ρ of the fluid.ⓘ Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal [ν]

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Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal Solution

STEP 0: Pre-Calculation Summary

Formula Used

Kinematic Viscosity of Bush Seal Fluid = (13200*Power Loss For Seal*Thickness of Fluid Between Members)/(pi*Nominal Packing Cross Section of Bush Seal^2*(Outer Radius of Rotating Member Inside Bush Seal^4-Inner Radius of Rotating Member Inside Bush Seal^4))
ν = (13200*P_l*t)/(pi*w^2*(r₂^4-r₁^4))
This formula uses 1 Constants, 6 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Kinematic Viscosity of Bush Seal Fluid - (Measured in Square Meter per Second) - Kinematic Viscosity of Bush Seal Fluid is an atmospheric variable defined as the ratio between the dynamic viscosity μ and the density ρ of the fluid.
Power Loss For Seal - (Measured in Watt) - Power Loss For Seal is the loss of power consumed due to leakage of fluid through face seal.
Thickness of Fluid Between Members - (Measured in Meter) - Thickness of Fluid Between Members refers to how resistant a fluid is to moving through it. For example, Water has a low or "thin" viscosity, while honey has a "thick" or high viscosity.
Nominal Packing Cross Section of Bush Seal - (Measured in Meter) - Nominal Packing Cross Section of Bush Seal is a surface or shape exposed by making a straight cut through something, especially at right angles to an axis.
Outer Radius of Rotating Member Inside Bush Seal - (Measured in Meter) - Outer Radius of Rotating Member Inside Bush Seal is the radius of the outer surface of the shaft rotating inside a bushed packing seal.
Inner Radius of Rotating Member Inside Bush Seal - (Measured in Meter) - Inner Radius of Rotating Member Inside Bush Seal is the radius of the inner surface of the shaft rotating inside a bushed packing seal.

STEP 1: Convert Input(s) to Base Unit

Power Loss For Seal: 7.9E-16 Watt --> 7.9E-16 Watt No Conversion Required
Thickness of Fluid Between Members: 1.92 Millimeter --> 0.00192 Meter (Check conversion here)
Nominal Packing Cross Section of Bush Seal: 8.5 Millimeter --> 0.0085 Meter (Check conversion here)
Outer Radius of Rotating Member Inside Bush Seal: 20 Millimeter --> 0.02 Meter (Check conversion here)
Inner Radius of Rotating Member Inside Bush Seal: 14 Millimeter --> 0.014 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ν = (13200*P_l*t)/(pi*w^2*(r₂^4-r₁^4)) --> (13200*7.9E-16*0.00192)/(pi*0.0085^2*(0.02^4-0.014^4))

Evaluating ... ...

ν = 0.000725501141199053

STEP 3: Convert Result to Output's Unit

0.000725501141199053 Square Meter per Second -->7.25501141199053 Stokes (Check conversion here)

FINAL ANSWER

7.25501141199053 ≈ 7.255011 Stokes <-- Kinematic Viscosity of Bush Seal Fluid

(Calculation completed in 00.020 seconds)

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Home » Physics » Design of Machine Elements » Design of Coupling » Seals » Mechanical » Leakage through Bush Seals » Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal

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< Leakage through Bush Seals Calculators

Volumetric Flow Rate under Laminar Flow Condition for Radial Bush Seal for Incompressible Fluid

LaTeX Go Volumetric Flow Rate Per Unit Pressure = (Radial Clearance For Seals^3)/(12*Absolute Viscosity of Oil in Seals)*(Outer Radius of Plain Bush Seal-Inner Radius of Plain Bush Seal)/(Outer Radius of Plain Bush Seal*ln(Outer Radius of Plain Bush Seal/Inner Radius of Plain Bush Seal))

Oil Flow through Plain Radial Bush Seal due to Leakage under Laminar Flow Condition

LaTeX Go Oil Flow From Bush Seal = (2*pi*Outer Radius of Plain Bush Seal*(Minimum Percentage Compression-Exit Pressure/10^6))/(Outer Radius of Plain Bush Seal-Inner Radius of Plain Bush Seal)*Volumetric Flow Rate Per Unit Pressure

Oil Flow through Plain Axial Bush Seal due to Leakage under Laminar Flow Condition

LaTeX Go Oil Flow From Bush Seal = (2*pi*Outer Radius of Plain Bush Seal*(Minimum Percentage Compression-Exit Pressure/10^6))/(Depth of U Collar)*Volumetric Flow Rate Per Unit Pressure

Volumetric Flow Rate under Laminar Flow Condition for Axial Bush Seal for Compressible Fluid

LaTeX Go Volumetric Flow Rate Per Unit Pressure = (Radial Clearance For Seals^3)/(12*Absolute Viscosity of Oil in Seals)*(Minimum Percentage Compression+Exit Pressure)/(Exit Pressure)

Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal Formula

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What is kinematic viscosity?

Kinematic viscosity is a quantity representing the dynamic viscosity of a fluid per unit density.The kinematic viscosity of a fluid is the ratio of the viscosity of the fluid to the fluid's density.

How to Calculate Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal?

Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal calculator uses Kinematic Viscosity of Bush Seal Fluid = (13200*Power Loss For Seal*Thickness of Fluid Between Members)/(pi*Nominal Packing Cross Section of Bush Seal^2*(Outer Radius of Rotating Member Inside Bush Seal^4-Inner Radius of Rotating Member Inside Bush Seal^4)) to calculate the Kinematic Viscosity of Bush Seal Fluid, The Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal formula is defined as a quantity representing the dynamic viscosity of a fluid per unit density. Kinematic Viscosity of Bush Seal Fluid is denoted by ν symbol.

How to calculate Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal using this online calculator? To use this online calculator for Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal, enter Power Loss For Seal (P_l), Thickness of Fluid Between Members (t), Nominal Packing Cross Section of Bush Seal (w), Outer Radius of Rotating Member Inside Bush Seal (r₂) & Inner Radius of Rotating Member Inside Bush Seal (r₁) and hit the calculate button. Here is how the Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal calculation can be explained with given input values -> 1.4E+21 = (13200*7.9E-16*0.00192)/(pi*0.0085^2*(0.02^4-0.014^4)).

FAQ

What is Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal?

The Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal formula is defined as a quantity representing the dynamic viscosity of a fluid per unit density and is represented as ν = (13200*P_l*t)/(pi*w^2*(r₂^4-r₁^4)) or Kinematic Viscosity of Bush Seal Fluid = (13200*Power Loss For Seal*Thickness of Fluid Between Members)/(pi*Nominal Packing Cross Section of Bush Seal^2*(Outer Radius of Rotating Member Inside Bush Seal^4-Inner Radius of Rotating Member Inside Bush Seal^4)). Power Loss For Seal is the loss of power consumed due to leakage of fluid through face seal, Thickness of Fluid Between Members refers to how resistant a fluid is to moving through it. For example, Water has a low or "thin" viscosity, while honey has a "thick" or high viscosity, Nominal Packing Cross Section of Bush Seal is a surface or shape exposed by making a straight cut through something, especially at right angles to an axis, Outer Radius of Rotating Member Inside Bush Seal is the radius of the outer surface of the shaft rotating inside a bushed packing seal & Inner Radius of Rotating Member Inside Bush Seal is the radius of the inner surface of the shaft rotating inside a bushed packing seal.

How to calculate Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal?

The Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal formula is defined as a quantity representing the dynamic viscosity of a fluid per unit density is calculated using Kinematic Viscosity of Bush Seal Fluid = (13200*Power Loss For Seal*Thickness of Fluid Between Members)/(pi*Nominal Packing Cross Section of Bush Seal^2*(Outer Radius of Rotating Member Inside Bush Seal^4-Inner Radius of Rotating Member Inside Bush Seal^4)). To calculate Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal, you need Power Loss For Seal (P_l), Thickness of Fluid Between Members (t), Nominal Packing Cross Section of Bush Seal (w), Outer Radius of Rotating Member Inside Bush Seal (r₂) & Inner Radius of Rotating Member Inside Bush Seal (r₁). With our tool, you need to enter the respective value for Power Loss For Seal, Thickness of Fluid Between Members, Nominal Packing Cross Section of Bush Seal, Outer Radius of Rotating Member Inside Bush Seal & Inner Radius of Rotating Member Inside Bush Seal 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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