Settling Velocity given Ratio of Removal with respect to Settling Velocity Calculator

✖The Falling Speed refers to the constant speed at which a particle falls through a fluid when the force of gravity is balanced by the drag force and buoyant force acting on the particle.ⓘ Falling Speed [v^']			+10% -10%
✖Removal Ratio is the total amount of sludge removed from the sedimentation tank.ⓘ Removal Ratio [R_r]			+10% -10%

✖Settling Velocity of particles refers to the rate at which a particle sinks through a fluid under the influence of gravity.ⓘ Settling Velocity given Ratio of Removal with respect to Settling Velocity [v_s]

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Settling Velocity given Ratio of Removal with respect to Settling Velocity Solution

STEP 0: Pre-Calculation Summary

Formula Used

Settling Velocity of Particles = Falling Speed/Removal Ratio
v_s = v^'/R_r
This formula uses 3 Variables

Variables Used

Settling Velocity of Particles - (Measured in Meter per Second) - Settling Velocity of particles refers to the rate at which a particle sinks through a fluid under the influence of gravity.
Falling Speed - (Measured in Meter per Second) - The Falling Speed refers to the constant speed at which a particle falls through a fluid when the force of gravity is balanced by the drag force and buoyant force acting on the particle.
Removal Ratio - Removal Ratio is the total amount of sludge removed from the sedimentation tank.

STEP 1: Convert Input(s) to Base Unit

Falling Speed: 0.1 Meter per Second --> 0.1 Meter per Second No Conversion Required
Removal Ratio: 0.08 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

v_s = v^'/R_r --> 0.1/0.08

Evaluating ... ...

v_s = 1.25

STEP 3: Convert Result to Output's Unit

1.25 Meter per Second --> No Conversion Required

FINAL ANSWER

1.25 Meter per Second <-- Settling Velocity of Particles

(Calculation completed in 00.020 seconds)

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Created by Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

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Birsa Institute of Technology (BIT), Sindri

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< Settling Velocity Calculators

Settling Velocity

LaTeX Go Settling Velocity of Particles = sqrt((4*[g]*(Mass Density of Particles-Mass Density of Fluid)*Diameter of a Spherical Particle)/(3*Drag Coefficient*Mass Density of Fluid))

Settling Velocity with respect to Specific Gravity of Particle

LaTeX Go Settling Velocity of Particles = sqrt((4*[g]*(Specific Gravity of Spherical Particle-1)*Diameter of a Spherical Particle)/(3*Drag Coefficient))

Settling Velocity given Frictional Drag

LaTeX Go Settling Velocity of Particles = sqrt((2*Drag Force)/(Projected Area of A Particle*Drag Coefficient*Mass Density of Fluid))

Settling Velocity given Particle Reynold's Number

LaTeX Go Settling Velocity of Particles = (Dynamic Viscosity*Reynold Number)/(Mass Density of Fluid*Diameter of a Spherical Particle)

Settling Velocity given Ratio of Removal with respect to Settling Velocity Formula

LaTeX Go

Settling Velocity of Particles = Falling Speed/Removal Ratio
v_s = v^'/R_r

What is Removal Ratio ?

The Removal Ratio is defined as the amount of sludge being discharged from the sedimentation tank in a given time.

How to Calculate Settling Velocity given Ratio of Removal with respect to Settling Velocity?

Settling Velocity given Ratio of Removal with respect to Settling Velocity calculator uses Settling Velocity of Particles = Falling Speed/Removal Ratio to calculate the Settling Velocity of Particles, The Settling Velocity given Ratio of Removal with respect to Settling Velocity formula is defined as the speed at which a particle falls through a fluid under the influence of gravity. Settling Velocity of Particles is denoted by v_s symbol.

How to calculate Settling Velocity given Ratio of Removal with respect to Settling Velocity using this online calculator? To use this online calculator for Settling Velocity given Ratio of Removal with respect to Settling Velocity, enter Falling Speed (v^') & Removal Ratio (R_r) and hit the calculate button. Here is how the Settling Velocity given Ratio of Removal with respect to Settling Velocity calculation can be explained with given input values -> 1.25 = 0.1/0.08.

FAQ

What is Settling Velocity given Ratio of Removal with respect to Settling Velocity?

The Settling Velocity given Ratio of Removal with respect to Settling Velocity formula is defined as the speed at which a particle falls through a fluid under the influence of gravity and is represented as v_s = v^'/R_r or Settling Velocity of Particles = Falling Speed/Removal Ratio. The Falling Speed refers to the constant speed at which a particle falls through a fluid when the force of gravity is balanced by the drag force and buoyant force acting on the particle & Removal Ratio is the total amount of sludge removed from the sedimentation tank.

How to calculate Settling Velocity given Ratio of Removal with respect to Settling Velocity?

The Settling Velocity given Ratio of Removal with respect to Settling Velocity formula is defined as the speed at which a particle falls through a fluid under the influence of gravity is calculated using Settling Velocity of Particles = Falling Speed/Removal Ratio. To calculate Settling Velocity given Ratio of Removal with respect to Settling Velocity, you need Falling Speed (v^') & Removal Ratio (R_r). With our tool, you need to enter the respective value for Falling Speed & Removal Ratio and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Settling Velocity of Particles?

In this formula, Settling Velocity of Particles uses Falling Speed & Removal Ratio. We can use 3 other way(s) to calculate the same, which is/are as follows -

Settling Velocity of Particles = sqrt((2*Drag Force)/(Projected Area of A Particle*Drag Coefficient*Mass Density of Fluid))
Settling Velocity of Particles = sqrt((4*[g]*(Mass Density of Particles-Mass Density of Fluid)*Diameter of a Spherical Particle)/(3*Drag Coefficient*Mass Density of Fluid))
Settling Velocity of Particles = sqrt((4*[g]*(Specific Gravity of Spherical Particle-1)*Diameter of a Spherical Particle)/(3*Drag Coefficient))

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