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

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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. Check FAQs

ν = \frac{13200 \cdot P l \cdot t}{π \cdot w^{2} \cdot ({r 2}^{4} - {r 1}^{4})}

ν - Kinematic Viscosity of Bush Seal Fluid?P_l - Power Loss For Seal?t - Thickness of Fluid Between Members?w - Nominal Packing Cross Section of Bush Seal?r₂ - Outer Radius of Rotating Member Inside Bush Seal?r₁ - Inner Radius of Rotating Member Inside Bush Seal?π - Archimedes' constant?

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

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Here is how the Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal equation looks like with Values.

Here is how the Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal equation looks like with Units.

Here is how the Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal equation looks like.

7.255 = \frac{13200 \cdot 7.9E-16 \cdot 1.92}{3.1416 \cdot {8.5}^{2} \cdot (20^{4} - 14^{4})}

7.255St = \frac{13200 \cdot 7.9E-16W \cdot 1.92mm}{3.1416 \cdot {8.5mm}^{2} \cdot ({20mm}^{4} - {14mm}^{4})}

7.255 = \frac{13200 \cdot 7.9E-16 \cdot 1.92}{3.1416 \cdot {8.5}^{2} \cdot (20^{4} - 14^{4})}

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

Follow our step by step solution on how to calculate Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal?

FIRST Step Consider the formula

ν = \frac{13200 \cdot P l \cdot t}{π \cdot w^{2} \cdot ({r 2}^{4} - {r 1}^{4})}

Next Step Substitute values of Variables

∴

ν = \frac{13200 \cdot 7.9E-16W \cdot 1.92mm}{π \cdot {8.5mm}^{2} \cdot ({20mm}^{4} - {14mm}^{4})}

Next Step Substitute values of Constants

∴

ν = \frac{13200 \cdot 7.9E-16W \cdot 1.92mm}{3.1416 \cdot {8.5mm}^{2} \cdot ({20mm}^{4} - {14mm}^{4})}

Next Step Convert Units

∴

ν = \frac{13200 \cdot 7.9E-16W \cdot 0.0019m}{3.1416 \cdot {0.0085m}^{2} \cdot ({0.02m}^{4} - {0.014m}^{4})}

Next Step Prepare to Evaluate

∴

ν = \frac{13200 \cdot 7.9E-16 \cdot 0.0019}{3.1416 \cdot {0.0085}^{2} \cdot ({0.02}^{4} - {0.014}^{4})}

Next Step Evaluate

∴

ν = 0.000725501141199053m²/s

Next Step Convert to Output's Unit

∴

ν = 7.25501141199053St

LAST Step Rounding Answer

∴

ν = 7.255St

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

Variables

Constants

Kinematic Viscosity of Bush Seal Fluid

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.

Symbol: ν

Measurement: Kinematic ViscosityUnit: St

Note: Value should be greater than 0.

Formulas to find Kinematic Viscosity of Bush Seal Fluid

Power Loss For Seal

Power Loss For Seal is the loss of power consumed due to leakage of fluid through face seal.

Symbol: P_l

Measurement: PowerUnit: W

Note: Value can be positive or negative.

Formulas to find Power Loss For Seal

Thickness of Fluid Between Members

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.

Symbol: t

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Thickness of Fluid Between Members

Nominal Packing Cross Section of Bush Seal

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.

Symbol: w

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Nominal Packing Cross Section of Bush Seal

Outer Radius of Rotating Member Inside Bush Seal

Outer Radius of Rotating Member Inside Bush Seal is the radius of the outer surface of the shaft rotating inside a bushed packing seal.

Symbol: r₂

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Outer Radius of Rotating Member Inside Bush Seal

Inner Radius of Rotating Member Inside Bush 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.

Symbol: r₁

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Inner Radius of Rotating Member Inside Bush Seal

Archimedes' constant

Archimedes' constant is a mathematical constant that represents the ratio of the circumference of a circle to its diameter.

Symbol: π

Value: 3.14159265358979323846264338327950288

Other formulas in Leakage through Bush Seals category

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

Q = \frac{2 \cdot π \cdot a \cdot (P s - \frac{P e}{10^{6}})}{l} \cdot q

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

Q = \frac{2 \cdot π \cdot a \cdot (P s - \frac{P e}{10^{6}})}{a - b} \cdot q

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

q = \frac{c^{3}}{12 \cdot μ} \cdot \frac{P s + P e}{P e}

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

q = \frac{c^{3}}{12 \cdot μ} \cdot \frac{a - b}{a \cdot \ln (\frac{a}{b})}

How to Evaluate 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 evaluator 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 evaluate 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 evaluate Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal using this online evaluator? To use this online evaluator 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.

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

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

The formula of Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal is expressed as 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)). Here is an example- 1.4E+21 = (13200*7.9E-16*0.00192)/(pi*0.0085^2*(0.02^4-0.014^4)).

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

With 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) we can find Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal using the formula - 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)). This formula also uses Archimedes' constant .

Can the Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal be negative?

No, the Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal, measured in Kinematic Viscosity cannot be negative.

Which unit is used to measure 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 is usually measured using the Stokes[St] for Kinematic Viscosity. Square Meter per Second[St], Square Meter per Hour[St], Square Centimeter per Second[St] are the few other units in which Kinematic Viscosity given Power Loss due to Leakage of Fluid through Face Seal can be measured.

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

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

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

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

Other formulas in Leakage through Bush Seals category

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

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

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