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Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase Formula

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Gas phase mass transfer coefficient is a diffusion rate constant that relates the mass transfer rate, mass transfer area, and concentration change as driving force. Check FAQs

k y = \frac{K y}{FR g}

k_y - Gas Phase Mass Transfer Coefficient?K_y - Overall Gas Phase Mass Transfer Coefficient?FR_g - Fractional Resistance Offered by Gas Phase?

Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase Example

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Here is how the Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase equation looks like with Values.

Here is how the Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase equation looks like with Units.

Here is how the Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase equation looks like.

90 = \frac{76.4694}{0.8497}

90mol/s*m² = \frac{76.4694mol/s*m²}{0.8497}

90 = \frac{76.4694}{0.8497}

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Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase Solution

Follow our step by step solution on how to calculate Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase?

FIRST Step Consider the formula

k y = \frac{K y}{FR g}

Next Step Substitute values of Variables

∴

k y = \frac{76.4694mol/s*m²}{0.8497}

Next Step Prepare to Evaluate

∴

k y = \frac{76.4694}{0.8497}

Next Step Evaluate

∴

k y = 89.9999882305864mol/s*m²

LAST Step Rounding Answer

∴

k y = 90mol/s*m²

Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase Formula Elements

Variables

Gas Phase Mass Transfer Coefficient

Gas phase mass transfer coefficient is a diffusion rate constant that relates the mass transfer rate, mass transfer area, and concentration change as driving force.

Symbol: k_y

Measurement: Molar Flux of Diffusing ComponentUnit: mol/s*m²

Note: Value can be positive or negative.

Formulas to find Gas Phase Mass Transfer Coefficient

Overall Gas Phase Mass Transfer Coefficient

The Overall Gas Phase Mass Transfer Coefficient accounts for overall driving force for both the phases in contact in terms of Gas Phase Mass transfer.

Symbol: K_y

Measurement: Molar Flux of Diffusing ComponentUnit: mol/s*m²

Note: Value should be greater than 0.

Formulas to find Overall Gas Phase Mass Transfer Coefficient

Fractional Resistance Offered by Gas Phase

The Fractional Resistance Offered by Gas Phase is the ratio of resistance offered by the gas film in contact with the liquid phase to the overall gas phase mass transfer coefficient.

Symbol: FR_g

Measurement: NAUnit: Unitless

Note: Value should be less than 1.

Formulas to find Fractional Resistance Offered by Gas Phase

Other formulas in Mass Transfer Theories category

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Go Average Sherwood Number of Flat Plate Turbulent Flow

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Go Average Sherwood Number of Internal Turbulent Flow

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Go Convective Mass Transfer Coefficient

k L = \frac{m a}{ρ a1 - ρ a2}

How to Evaluate Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase?

Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase evaluator uses Gas Phase Mass Transfer Coefficient = Overall Gas Phase Mass Transfer Coefficient/Fractional Resistance Offered by Gas Phase to evaluate the Gas Phase Mass Transfer Coefficient, The Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase formula is defined as mass transfer in gas film based on the fraction of gas phase resistance and overall mass transfer based on gas phase driving force. Gas Phase Mass Transfer Coefficient is denoted by k_y symbol.

How to evaluate Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase using this online evaluator? To use this online evaluator for Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase, enter Overall Gas Phase Mass Transfer Coefficient (K_y) & Fractional Resistance Offered by Gas Phase (FR_g) and hit the calculate button.

FAQs on Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase

What is the formula to find Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase?

The formula of Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase is expressed as Gas Phase Mass Transfer Coefficient = Overall Gas Phase Mass Transfer Coefficient/Fractional Resistance Offered by Gas Phase. Here is an example- 89.99999 = 76.46939/0.84966.

How to calculate Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase?

With Overall Gas Phase Mass Transfer Coefficient (K_y) & Fractional Resistance Offered by Gas Phase (FR_g) we can find Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase using the formula - Gas Phase Mass Transfer Coefficient = Overall Gas Phase Mass Transfer Coefficient/Fractional Resistance Offered by Gas Phase.

Can the Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase be negative?

Yes, the Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase, measured in Molar Flux of Diffusing Component can be negative.

Which unit is used to measure Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase?

Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase is usually measured using the Mole per Second Square Meter[mol/s*m²] for Molar Flux of Diffusing Component. Kilogram Mole per Second Square Meter[mol/s*m²], Millimole per Microsecond Square Meter[mol/s*m²] are the few other units in which Gas Phase Mass Transfer Coefficient using Fractional Resistance by Gas Phase can be measured.

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