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Nusselt number for oils and water Formula

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The Nusselt Number is the ratio of convective to conductive heat transfer at a boundary in a fluid. Convection includes both advection and diffusion. Check FAQs

Nu = \frac{1.2 + 0.53 \cdot ({Re}^{0.54})}{({Pr}^{- 0.3}) \cdot {(\frac{μ w}{μ ∞})}^{0.25}}

Nu - Nusselt Number?Re - Reynolds Number?Pr - Prandtl Number?μ_w - Dynamic Viscosity at Wall Temperature?μ_∞ - Dynamic Viscosity at Free Stream Temperature?

Nusselt number for oils and water Example

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Here is how the Nusselt number for oils and water equation looks like with Values.

Here is how the Nusselt number for oils and water equation looks like with Units.

Here is how the Nusselt number for oils and water equation looks like.

425.0047 = \frac{1.2 + 0.53 \cdot (50000^{0.54})}{(19^{- 0.3}) \cdot {(\frac{0.0018}{0.0015})}^{0.25}}

425.0047 = \frac{1.2 + 0.53 \cdot (50000^{0.54})}{(19^{- 0.3}) \cdot {(\frac{0.0018}{0.0015})}^{0.25}}

425.0047 = \frac{1.2 + 0.53 \cdot (50000^{0.54})}{(19^{- 0.3}) \cdot {(\frac{0.0018}{0.0015})}^{0.25}}

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Nusselt number for oils and water Solution

Follow our step by step solution on how to calculate Nusselt number for oils and water?

FIRST Step Consider the formula

Nu = \frac{1.2 + 0.53 \cdot ({Re}^{0.54})}{({Pr}^{- 0.3}) \cdot {(\frac{μ w}{μ ∞})}^{0.25}}

Next Step Substitute values of Variables

∴

Nu = \frac{1.2 + 0.53 \cdot (50000^{0.54})}{(19^{- 0.3}) \cdot {(\frac{0.0018}{0.0015})}^{0.25}}

Next Step Prepare to Evaluate

∴

Nu = \frac{1.2 + 0.53 \cdot (50000^{0.54})}{(19^{- 0.3}) \cdot {(\frac{0.0018}{0.0015})}^{0.25}}

Next Step Evaluate

∴

Nu = 425.004712684767

LAST Step Rounding Answer

∴

Nu = 425.0047

Nusselt number for oils and water Formula Elements

Variables

Nusselt Number

The Nusselt Number is the ratio of convective to conductive heat transfer at a boundary in a fluid. Convection includes both advection and diffusion.

Symbol: Nu

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Nusselt Number

Reynolds Number

The Reynolds number is the ratio of inertial forces to viscous forces within a fluid which is subjected to relative internal movement due to different fluid velocities.

Symbol: Re

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Reynolds Number

Prandtl Number

The Prandtl number (Pr) or Prandtl group is a dimensionless number, named after the German physicist Ludwig Prandtl, defined as the ratio of momentum diffusivity to thermal diffusivity.

Symbol: Pr

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Prandtl Number

Dynamic Viscosity at Wall Temperature

Dynamic Viscosity at Wall Temperature is the external force offered by the fluid to the wall of the object at the temperature of its surface.

Symbol: μ_w

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Dynamic Viscosity at Wall Temperature

Dynamic Viscosity at Free Stream Temperature

Dynamic Viscosity at Free Stream Temperature is the resisting force offered by the adjacent layers of the fluid flowing with freestream velocity.

Symbol: μ_∞

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Dynamic Viscosity at Free Stream Temperature

Other Formulas to find Nusselt Number

Go Nusselt number

Nu = 0.37 \cdot {Re}^{0.6}

Go Nusselt number for gases

Nu = 2 + {(0.25 \cdot Re + (3 \cdot 10^{- 4}) \cdot ({Re}^{1.6}))}^{0.5}

Go Nusselt number for air

Nu = 430 + ((5 \cdot (10^{- 3})) \cdot (Re)) + ((0.025 \cdot (10^{- 9})) \cdot ({Re}^{2})) - ((3.1 \cdot (10^{- 17})) \cdot ({Re}^{3}))

Go Nusselt number for liquids for external flow

Nu = \frac{0.97 + 0.68 \cdot ({Re}^{0.5})}{{Pr}^{- 0.3}}

How to Evaluate Nusselt number for oils and water?

Nusselt number for oils and water evaluator uses Nusselt Number = (1.2+0.53*(Reynolds Number^0.54))/((Prandtl Number^-0.3)*(Dynamic Viscosity at Wall Temperature/Dynamic Viscosity at Free Stream Temperature)^0.25) to evaluate the Nusselt Number, Nusselt number for oils and water formula is defined as a dimensionless value that characterizes convective heat transfer between a sphere and a fluid, such as oil or water, in a flow over sphere context, providing a crucial parameter in understanding heat transfer mechanisms in various engineering applications. Nusselt Number is denoted by Nu symbol.

How to evaluate Nusselt number for oils and water using this online evaluator? To use this online evaluator for Nusselt number for oils and water, enter Reynolds Number (Re), Prandtl Number (Pr), Dynamic Viscosity at Wall Temperature (μ_w) & Dynamic Viscosity at Free Stream Temperature (μ_∞) and hit the calculate button.

FAQs on Nusselt number for oils and water

What is the formula to find Nusselt number for oils and water?

The formula of Nusselt number for oils and water is expressed as Nusselt Number = (1.2+0.53*(Reynolds Number^0.54))/((Prandtl Number^-0.3)*(Dynamic Viscosity at Wall Temperature/Dynamic Viscosity at Free Stream Temperature)^0.25). Here is an example- 425.0047 = (1.2+0.53*(50000^0.54))/((19^-0.3)*(0.0018/0.0015)^0.25).

How to calculate Nusselt number for oils and water?

With Reynolds Number (Re), Prandtl Number (Pr), Dynamic Viscosity at Wall Temperature (μ_w) & Dynamic Viscosity at Free Stream Temperature (μ_∞) we can find Nusselt number for oils and water using the formula - Nusselt Number = (1.2+0.53*(Reynolds Number^0.54))/((Prandtl Number^-0.3)*(Dynamic Viscosity at Wall Temperature/Dynamic Viscosity at Free Stream Temperature)^0.25).

What are the other ways to Calculate Nusselt Number?

Here are the different ways to Calculate Nusselt Number-

Nusselt Number=0.37*Reynolds Number^0.6
Nusselt Number=2+(0.25*Reynolds Number+(3*10^-4)*(Reynolds Number^1.6))^0.5
Nusselt Number=430+((5*(10^-3))*(Reynolds Number))+((0.025*(10^-9))*(Reynolds Number^2))-((3.1*(10^-17))*(Reynolds Number^3))

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Nusselt number for oils and water Formula

​GoNusselt number Formula

​GoNusselt number for gases Formula

Nusselt number for oils and water Example

Nusselt number for oils and water Solution

Nusselt number for oils and water Formula Elements

Other Formulas to find Nusselt Number

How to Evaluate Nusselt number for oils and water?

FAQs on Nusselt number for oils and water

Variable Name

GoNusselt number Formula

GoNusselt number for gases Formula