Fraction of Gas in Fluid Fluid Kinetics Calculator

✖Volume of Gas refers to the Gas Volume contacted the Contactor.ⓘ Volume of Gas [V_g]			+10% -10%
✖Volume of Contactor refers to the Unit Volume of the System.ⓘ Volume of Contactor [V_r]			+10% -10%

✖Fraction of Gas is Dimensionless Quantity that represents the Volume Occupied by Gas Phase.ⓘ Fraction of Gas in Fluid Fluid Kinetics [f_g]

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Fraction of Gas in Fluid Fluid Kinetics

Formula

`"f"_{"g"} = "V"_{"g"}/"V"_{"r"}`

Example

`"0.369565"="289m³"/"782m³"`

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Fraction of Gas in Fluid Fluid Kinetics Solution

STEP 0: Pre-Calculation Summary

Formula Used

Fraction of Gas = Volume of Gas/Volume of Contactor
f_g = V_g/V_r
This formula uses 3 Variables

Variables Used

Fraction of Gas - Fraction of Gas is Dimensionless Quantity that represents the Volume Occupied by Gas Phase.
Volume of Gas - (Measured in Cubic Meter) - Volume of Gas refers to the Gas Volume contacted the Contactor.
Volume of Contactor - (Measured in Cubic Meter) - Volume of Contactor refers to the Unit Volume of the System.

STEP 1: Convert Input(s) to Base Unit

Volume of Gas: 289 Cubic Meter --> 289 Cubic Meter No Conversion Required
Volume of Contactor: 782 Cubic Meter --> 782 Cubic Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

f_g = V_g/V_r --> 289/782

Evaluating ... ...

f_g = 0.369565217391304

STEP 3: Convert Result to Output's Unit

0.369565217391304 --> No Conversion Required

FINAL ANSWER

0.369565217391304 ≈ 0.369565 <-- Fraction of Gas

(Calculation completed in 00.006 seconds)

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General Rate Equation of Mass Transfer

Go Rate based on Volume of Contactor = (1/((1/(Gas Phase Mass Transfer Coefficient*Interfacial Area using Contactor))+(Henry Law Constant/(Liquid Phase Mass Transfer Coefficient*Interfacial Area using Contactor*Liquid Film Enhancement Factor))+(Henry Law Constant/(Rate Constant for Fluid Fluid Reactions*Fraction of Liquid*Concentration of Liquid B))))*(Partial Pressure of Reactant A)

Final Rate Expression for Straight Mass Transfer

Go Reaction Rate based on Volume of Contactor = (1/((1/Gas Phase Mass Transfer Coefficient*Interfacial Area using Contactor)+(Henry Law Constant/Liquid Phase Mass Transfer Coefficient*Interfacial Area using Contactor)))*(Partial Pressure of Reactant A-Henry Law Constant*Reactant Concentration)

Rate of Reactant A for Straight Mass Transfer for Liquid Film using Volume of Contactor

Go Overall Reaction Rate based on Volume of Contactor = -(Liquid Phase Mass Transfer Coefficient*Interfacial Area using Contactor*(Concentration of Reactant A at Interphase-Reactant Concentration))

Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor

Go Overall Reaction Rate based on Volume of Contactor = -(Gas Phase MTC*Interfacial Area using Contactor*(Partial Pressure of Reactant A-Partial Pressure of Reactant A at Interface))

Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor

Go Reaction Rate based on Surface Area = Gas Phase Mass Transfer Coefficient*(Partial Pressure of Reactant A-Partial Pressure of Reactant A at Interface)

Rate of Reactant A for Straight Mass Transfer for Liquid Film using Surface Area of Contactor

Go Reaction Rate based on Surface Area = Liquid Phase MTC*(Concentration of Reactant A at Interphase-Reactant Concentration)

Interfacial Area of Contactor

Go Interfacial Area using Contactor = Interfacial Surface Area of Contactor/Volume of Contactor

Interfacial Area of Liquid in Contactor

Go Interfacial Area of Liquid = Interfacial Surface Area of Contactor/Volume of Liquid

Fraction of Liquid in Fluid Kinetics

Go Fraction of Liquid = Volume of Liquid/Volume of Contactor

Fraction of Gas in Fluid Fluid Kinetics

Go Fraction of Gas = Volume of Gas/Volume of Contactor

Fraction of Gas in Fluid Fluid Kinetics Formula

Fraction of Gas = Volume of Gas/Volume of Contactor
f_g = V_g/V_r

On What Context Fraction of Gas is Calculated?

The fraction of gas, also known as the gas volume fraction or gas holdup, is a parameter used in the context of multiphase flows. Similar to the fraction of liquid, it represents the proportion of the total volume occupied by the gas phase in a multiphase flow.

What are Fluid-Fluid Reactions?

Fluid-Fluid Reactions often refer to reactions that occur between different phases of fluids. This typically involves reactions between gases and liquids or reactions between two immiscible liquids. The study of these reactions involves considering the kinetics, which is the study of reaction rates and mechanisms.

How to Calculate Fraction of Gas in Fluid Fluid Kinetics?

Fraction of Gas in Fluid Fluid Kinetics calculator uses Fraction of Gas = Volume of Gas/Volume of Contactor to calculate the Fraction of Gas, The Fraction of Gas in Fluid Fluid Kinetics formula is defined as Ratio between the Volume of Gas and Unit Volume of Contactor. Fraction of Gas is denoted by f_g symbol.

How to calculate Fraction of Gas in Fluid Fluid Kinetics using this online calculator? To use this online calculator for Fraction of Gas in Fluid Fluid Kinetics, enter Volume of Gas (V_g) & Volume of Contactor (V_r) and hit the calculate button. Here is how the Fraction of Gas in Fluid Fluid Kinetics calculation can be explained with given input values -> 4.013889 = 289/782.

FAQ

What is Fraction of Gas in Fluid Fluid Kinetics?

The Fraction of Gas in Fluid Fluid Kinetics formula is defined as Ratio between the Volume of Gas and Unit Volume of Contactor and is represented as f_g = V_g/V_r or Fraction of Gas = Volume of Gas/Volume of Contactor. Volume of Gas refers to the Gas Volume contacted the Contactor & Volume of Contactor refers to the Unit Volume of the System.

How to calculate Fraction of Gas in Fluid Fluid Kinetics?

The Fraction of Gas in Fluid Fluid Kinetics formula is defined as Ratio between the Volume of Gas and Unit Volume of Contactor is calculated using Fraction of Gas = Volume of Gas/Volume of Contactor. To calculate Fraction of Gas in Fluid Fluid Kinetics, you need Volume of Gas (V_g) & Volume of Contactor (V_r). With our tool, you need to enter the respective value for Volume of Gas & Volume of Contactor and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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