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Condensation Number when Turbulence is Encountered in Film Formula

GoCondensation Number Formula

GoCondensation Number for Vertical Plate Formula

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Condensation Number is defined as the dimensionless number which helps us to resolve equation in terms of film Reynolds number, which is important in determining condensation behavior. Check FAQs

Co = 0.0077 \cdot ({(Re f)}^{0.4})

Co - Condensation Number?Re_f - Reynolds Number of Film?

Condensation Number when Turbulence is Encountered in Film Example

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Here is how the Condensation Number when Turbulence is Encountered in Film equation looks like with Values.

Here is how the Condensation Number when Turbulence is Encountered in Film equation looks like with Units.

Here is how the Condensation Number when Turbulence is Encountered in Film equation looks like.

0.0754 = 0.0077 \cdot ({(300)}^{0.4})

0.0754 = 0.0077 \cdot ({(300)}^{0.4})

0.0754 = 0.0077 \cdot ({(300)}^{0.4})

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Heat Transfer » fx Condensation Number when Turbulence is Encountered in Film

Condensation Number when Turbulence is Encountered in Film Solution

Follow our step by step solution on how to calculate Condensation Number when Turbulence is Encountered in Film?

FIRST Step Consider the formula

Co = 0.0077 \cdot ({(Re f)}^{0.4})

Next Step Substitute values of Variables

∴

Co = 0.0077 \cdot ({(300)}^{0.4})

Next Step Prepare to Evaluate

∴

Co = 0.0077 \cdot ({(300)}^{0.4})

Next Step Evaluate

∴

Co = 0.0753944239017952

LAST Step Rounding Answer

∴

Co = 0.0754

Condensation Number when Turbulence is Encountered in Film Formula Elements

Variables

Condensation Number

Condensation Number is defined as the dimensionless number which helps us to resolve equation in terms of film Reynolds number, which is important in determining condensation behavior.

Symbol: Co

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Condensation Number

Reynolds Number of Film

Reynolds Number of Film is the ratio of Inertial force to the viscous force.

Symbol: Re_f

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Reynolds Number of Film

Other Formulas to find Condensation Number

Go Condensation Number

Co = (h ̅) \cdot ({(\frac{{(μ f)}^{2}}{(k^{3}) \cdot (ρ f) \cdot (ρ f - ρ v) \cdot [g]})}^{\frac{1}{3}})

Go Condensation Number for Vertical Plate

Co = 1.47 \cdot ({(Re f)}^{- \frac{1}{3}})

Go Condensation Number for Horizontal Cylinder

Co = 1.514 \cdot ({(Re f)}^{- \frac{1}{3}})

Go Condensation Number given Reynolds Number

Co = ({(C)}^{\frac{4}{3}}) \cdot ({(\frac{4 \cdot \sin (Φ) \cdot ((\frac{A cs}{P}))}{L})}^{\frac{1}{3}}) \cdot ({(Re f)}^{- \frac{1}{3}})

Other formulas in Important Formulas of Condensation Number, Average Heat Transfer Coefficient and Heat Flux category

Go Film Thickness given Mass Flow of Condensate

δ = {(\frac{3 \cdot μ f \cdot ṁ}{ρ L \cdot (ρ L - ρ v) \cdot [g]})}^{\frac{1}{3}}

Go Heat Transfer Rate for Condensation of Superheated Vapors

q = h ̅ \cdot A plate \cdot (T s' - T w)

Go Average Heat Transfer Coefficient for Condensation Inside Horizontal Tubes for Low Vapor Velocity

h ̅ = 0.555 \cdot {(\frac{ρ f \cdot (ρ f - ρ v) \cdot [g] \cdot h' fg \cdot ({k f}^{3})}{L \cdot D Tube \cdot (T Sat - T w)})}^{0.25}

Go Film Thickness in Film Condensation

δ = {(\frac{4 \cdot μ f \cdot k \cdot x \cdot (T Sat - T w)}{[g] \cdot h fg \cdot (ρ L) \cdot (ρ L - ρ v)})}^{0.25}

How to Evaluate Condensation Number when Turbulence is Encountered in Film?

Condensation Number when Turbulence is Encountered in Film evaluator uses Condensation Number = 0.0077*((Reynolds Number of Film)^(0.4)) to evaluate the Condensation Number, Condensation Number when Turbulence is Encountered in Film is a function of reynolds number when Reynolds number of film is greater than 1800. Condensation Number is denoted by Co symbol.

How to evaluate Condensation Number when Turbulence is Encountered in Film using this online evaluator? To use this online evaluator for Condensation Number when Turbulence is Encountered in Film, enter Reynolds Number of Film (Re_f) and hit the calculate button.

FAQs on Condensation Number when Turbulence is Encountered in Film

What is the formula to find Condensation Number when Turbulence is Encountered in Film?

The formula of Condensation Number when Turbulence is Encountered in Film is expressed as Condensation Number = 0.0077*((Reynolds Number of Film)^(0.4)). Here is an example- 0.075394 = 0.0077*((300)^(0.4)).

How to calculate Condensation Number when Turbulence is Encountered in Film?

With Reynolds Number of Film (Re_f) we can find Condensation Number when Turbulence is Encountered in Film using the formula - Condensation Number = 0.0077*((Reynolds Number of Film)^(0.4)).

What are the other ways to Calculate Condensation Number?

Here are the different ways to Calculate Condensation Number-

Condensation Number=(Average Heat Transfer Coefficient)*((((Viscosity of Film)^2)/((Thermal Conductivity^3)*(Density of Liquid Film)*(Density of Liquid Film-Density of Vapor)*[g]))^(1/3))
Condensation Number=1.47*((Reynolds Number of Film)^(-1/3))
Condensation Number=1.514*((Reynolds Number of Film)^(-1/3))

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