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

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

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Reaction Rate based on Surface Area refers to the Rate Calculated when Surface Area of the Contactor is Considered. Check FAQs

r'' A = k Ag \cdot (p A - p Ai)

r''_A - Reaction Rate based on Surface Area?k_Ag - Gas Phase Mass Transfer Coefficient?p_A - Partial Pressure of Reactant A?p_Ai - Partial Pressure of Reactant A at Interface?

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

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Here is how the Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor equation looks like with Values.

Here is how the Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor equation looks like with Units.

Here is how the Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor equation looks like.

2.3446 = 1.234 \cdot (19 - 17.1)

2.3446mol/m³*s = 1.234m/s \cdot (19Pa - 17.1Pa)

2.3446 = 1.234 \cdot (19 - 17.1)

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Chemical Reaction Engineering » fx Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor

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

Follow our step by step solution on how to calculate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor?

FIRST Step Consider the formula

r'' A = k Ag \cdot (p A - p Ai)

Next Step Substitute values of Variables

∴

r'' A = 1.234m/s \cdot (19Pa - 17.1Pa)

Next Step Prepare to Evaluate

∴

r'' A = 1.234 \cdot (19 - 17.1)

LAST Step Evaluate

∴

r'' A = 2.3446mol/m³*s

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

Variables

Reaction Rate based on Surface Area

Reaction Rate based on Surface Area refers to the Rate Calculated when Surface Area of the Contactor is Considered.

Symbol: r''_A

Measurement: Reaction RateUnit: mol/m³*s

Note: Value should be greater than -999.

Formulas to find Reaction Rate based on Surface Area

Gas Phase Mass Transfer Coefficient

Gas Phase Mass Transfer Coefficient describes the efficiency of mass transfer between a gas phase and a liquid phase in a system.

Symbol: k_Ag

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Gas Phase Mass Transfer Coefficient

Partial Pressure of Reactant A

Partial Pressure of Reactant A is the pressure that an individual reactant exerts in a mixture of gases at given temperature.

Symbol: p_A

Measurement: PressureUnit: Pa

Note: Value should be greater than 0.

Formulas to find Partial Pressure of Reactant A

Partial Pressure of Reactant A at Interface

Partial Pressure of Reactant A at Interface is the Partial Pressure calculated, when the Reactant is at the Interphase of Gas-Liquid Film.

Symbol: p_Ai

Measurement: PressureUnit: Pa

Note: Value should be greater than 0.

Formulas to find Partial Pressure of Reactant A at Interface

Other Formulas to find Reaction Rate based on Surface Area

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

r'' A = k Al \cdot (C Ai - C A)

Other formulas in Fluid Fluid Reactions Kinetics category

Go Fraction of Liquid in Fluid Kinetics

f l = \frac{V l}{V r}

Go Fraction of Gas in Fluid Fluid Kinetics

f g = \frac{V g}{V r}

Go Interfacial Area of Liquid in Contactor

a l = \frac{S}{V l}

Go Interfacial Area of Contactor

a = \frac{S}{V r}

How to Evaluate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor?

Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor evaluator uses Reaction Rate based on Surface Area = Gas Phase Mass Transfer Coefficient*(Partial Pressure of Reactant A-Partial Pressure of Reactant A at Interface) to evaluate the Reaction Rate based on Surface Area, The Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor formula can be expressed using Mass Transfer Coefficient , the Partial Pressure at the Surface of the Contactor and at Interface. Reaction Rate based on Surface Area is denoted by r''_A symbol.

How to evaluate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor using this online evaluator? To use this online evaluator for Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor, enter Gas Phase Mass Transfer Coefficient (k_Ag), Partial Pressure of Reactant A (p_A) & Partial Pressure of Reactant A at Interface (p_Ai) and hit the calculate button.

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

What is the formula to find Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor?

The formula of Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor is expressed as Reaction Rate based on Surface Area = Gas Phase Mass Transfer Coefficient*(Partial Pressure of Reactant A-Partial Pressure of Reactant A at Interface). Here is an example- 0.988 = 1.234*(19-17.1).

How to calculate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor?

With Gas Phase Mass Transfer Coefficient (k_Ag), Partial Pressure of Reactant A (p_A) & Partial Pressure of Reactant A at Interface (p_Ai) we can find Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor using the formula - Reaction Rate based on Surface Area = Gas Phase Mass Transfer Coefficient*(Partial Pressure of Reactant A-Partial Pressure of Reactant A at Interface).

What are the other ways to Calculate Reaction Rate based on Surface Area?

Here are the different ways to Calculate Reaction Rate based on Surface Area-

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

Can the Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor be negative?

Yes, the Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor, measured in Reaction Rate can be negative.

Which unit is used to measure Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor?

Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor is usually measured using the Mole per Cubic Meter Second[mol/m³*s] for Reaction Rate. Mole per Liter Second[mol/m³*s], Millimole per Liter Second[mol/m³*s] are the few other units in which Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor can be measured.

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

​GoRate of Reactant A for Straight Mass Transfer for Liquid Film using Surface Area of Contactor Formula

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

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

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

Other Formulas to find Reaction Rate based on Surface Area

Other formulas in Fluid Fluid Reactions Kinetics category

How to Evaluate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Surface Area of Contactor?

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

Variable Name

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