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Terminal Velocity of Fluids for Irregular Shaped Particles Formula

GoTerminal Velocity of Fluid for Spherical Particles Formula

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Terminal Velocity of Fluid is the Velocity achieved when the Fluid exceeds its Actual Velocity. Check FAQs

u t = {((\frac{18}{{(d' p)}^{2}}) + (\frac{2.335 - (1.744 \cdot Φ p)}{\sqrt{d' p}}))}^{- 1}

u_t - Terminal Velocity of Fluid?d'_p - Dimensionless Diameter?Φ_p - Sphericity of Particle?

Terminal Velocity of Fluids for Irregular Shaped Particles Example

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Here is how the Terminal Velocity of Fluids for Irregular Shaped Particles equation looks like with Values.

Here is how the Terminal Velocity of Fluids for Irregular Shaped Particles equation looks like with Units.

Here is how the Terminal Velocity of Fluids for Irregular Shaped Particles equation looks like.

0.3742 = {((\frac{18}{{(3.2)}^{2}}) + (\frac{2.335 - (1.744 \cdot 0.401)}{\sqrt{3.2}}))}^{- 1}

0.3742m/s = {((\frac{18}{{(3.2)}^{2}}) + (\frac{2.335 - (1.744 \cdot 0.401)}{\sqrt{3.2}}))}^{- 1}

0.3742 = {((\frac{18}{{(3.2)}^{2}}) + (\frac{2.335 - (1.744 \cdot 0.401)}{\sqrt{3.2}}))}^{- 1}

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Terminal Velocity of Fluids for Irregular Shaped Particles Solution

Follow our step by step solution on how to calculate Terminal Velocity of Fluids for Irregular Shaped Particles?

FIRST Step Consider the formula

u t = {((\frac{18}{{(d' p)}^{2}}) + (\frac{2.335 - (1.744 \cdot Φ p)}{\sqrt{d' p}}))}^{- 1}

Next Step Substitute values of Variables

∴

u t = {((\frac{18}{{(3.2)}^{2}}) + (\frac{2.335 - (1.744 \cdot 0.401)}{\sqrt{3.2}}))}^{- 1}

Next Step Prepare to Evaluate

∴

u t = {((\frac{18}{{(3.2)}^{2}}) + (\frac{2.335 - (1.744 \cdot 0.401)}{\sqrt{3.2}}))}^{- 1}

Next Step Evaluate

∴

u t = 0.374227407383948m/s

LAST Step Rounding Answer

∴

u t = 0.3742m/s

Terminal Velocity of Fluids for Irregular Shaped Particles Formula Elements

Variables

Functions

Terminal Velocity of Fluid

Terminal Velocity of Fluid is the Velocity achieved when the Fluid exceeds its Actual Velocity.

Symbol: u_t

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Terminal Velocity of Fluid

Dimensionless Diameter

The Dimensionless Diameter is a parameter used to characterize the size of solid particles relative to the flow conditions of the Gas Phase.

Symbol: d'_p

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Dimensionless Diameter

Sphericity of Particle

Sphericity of Particle is a Measure of how closely the Shape of an Object resembles that of a Perfect Sphere.

Symbol: Φ_p

Measurement: NAUnit: Unitless

Note: Value should be between 0 to 1.

Formulas to find Sphericity of Particle

sqrt

A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.

Syntax: sqrt(Number)

Other Formulas to find Terminal Velocity of Fluid

Go Terminal Velocity of Fluid for Spherical Particles

u t = {((\frac{18}{{(d' p)}^{2}}) + (\frac{0.591}{\sqrt{d' p}}))}^{- 1}

Other formulas in Various Fluidized Reactors category

Go Dimensionless Diameter for Fluidized Reactors at G/S Contacting Regime

d' p = d p \cdot ({(\frac{ρ gas \cdot (ρ solids - ρ gas) \cdot [g]}{{(μ L)}^{2}})}^{\frac{1}{3}})

Go Dimensionless Velocity for Fluidized Reactors at G/S Contacting Regime

u' = u \cdot {(\frac{{ρ gas}^{2}}{μ L \cdot (ρ solids - ρ gas) \cdot [g]})}^{\frac{1}{3}}

Go Rise Velocity of Bubble

u br = 0.711 \cdot \sqrt{[g] \cdot d b}

Go Rate Constant of Phase between Bubble and Cloud

K bc = 4.50 \cdot (\frac{u mf}{d b}) + 5.85 \cdot \frac{{(D f R)}^{\frac{1}{2}} \cdot {([g])}^{\frac{1}{4}}}{{d b}^{\frac{5}{4}}}

How to Evaluate Terminal Velocity of Fluids for Irregular Shaped Particles?

Terminal Velocity of Fluids for Irregular Shaped Particles evaluator uses Terminal Velocity of Fluid = ((18/(Dimensionless Diameter)^2)+((2.335-(1.744*Sphericity of Particle))/sqrt(Dimensionless Diameter)))^(-1) to evaluate the Terminal Velocity of Fluid, Terminal Velocity of Fluids for Irregular Shaped Particles formula is defined as Terminal velocity is defined as the highest Velocity attained by an Non Spherical Object falling through a Fluid. Terminal Velocity of Fluid is denoted by u_t symbol.

How to evaluate Terminal Velocity of Fluids for Irregular Shaped Particles using this online evaluator? To use this online evaluator for Terminal Velocity of Fluids for Irregular Shaped Particles, enter Dimensionless Diameter (d'_p) & Sphericity of Particle (Φ_p) and hit the calculate button.

FAQs on Terminal Velocity of Fluids for Irregular Shaped Particles

What is the formula to find Terminal Velocity of Fluids for Irregular Shaped Particles?

The formula of Terminal Velocity of Fluids for Irregular Shaped Particles is expressed as Terminal Velocity of Fluid = ((18/(Dimensionless Diameter)^2)+((2.335-(1.744*Sphericity of Particle))/sqrt(Dimensionless Diameter)))^(-1). Here is an example- 0.374091 = ((18/(3.2)^2)+((2.335-(1.744*0.401))/sqrt(3.2)))^(-1).

How to calculate Terminal Velocity of Fluids for Irregular Shaped Particles?

With Dimensionless Diameter (d'_p) & Sphericity of Particle (Φ_p) we can find Terminal Velocity of Fluids for Irregular Shaped Particles using the formula - Terminal Velocity of Fluid = ((18/(Dimensionless Diameter)^2)+((2.335-(1.744*Sphericity of Particle))/sqrt(Dimensionless Diameter)))^(-1). This formula also uses Square Root (sqrt) function(s).

What are the other ways to Calculate Terminal Velocity of Fluid?

Here are the different ways to Calculate Terminal Velocity of Fluid-

Terminal Velocity of Fluid=((18/(Dimensionless Diameter)^2)+(0.591/sqrt(Dimensionless Diameter)))^(-1)

Can the Terminal Velocity of Fluids for Irregular Shaped Particles be negative?

No, the Terminal Velocity of Fluids for Irregular Shaped Particles, measured in Speed cannot be negative.

Which unit is used to measure Terminal Velocity of Fluids for Irregular Shaped Particles?

Terminal Velocity of Fluids for Irregular Shaped Particles is usually measured using the Meter per Second[m/s] for Speed. Meter per Minute[m/s], Meter per Hour[m/s], Kilometer per Hour[m/s] are the few other units in which Terminal Velocity of Fluids for Irregular Shaped Particles can be measured.

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