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

STEP 0: Pre-Calculation Summary
Formula Used
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))
r''''A = -(kAg *a*(pA-pAi))
This formula uses 5 Variables
Variables Used
Overall Reaction Rate based on Volume of Contactor - (Measured in Mole per Cubic Meter Second) - Overall Reaction Rate based on Volume of Contactor refers to the Rate Calculated when Unit Volume of Contactor is Considered.
Gas Phase MTC - (Measured in Meter per Second) - Gas Phase MTC describes the efficiency of mass transfer between a gas phase and a liquid phase in a system.
Interfacial Area using Contactor - (Measured in 1 per Meter) - Interfacial Area using Contactor refers to the Reacted Area of the Contactor.
Partial Pressure of Reactant A - (Measured in Pascal) - Partial Pressure of Reactant A is the pressure that an individual reactant exerts in a mixture of gases at given temperature.
Partial Pressure of Reactant A at Interface - (Measured in Pascal) - Partial Pressure of Reactant A at Interface is the Partial Pressure calculated, when the Reactant is at the Interphase of Gas-Liquid Film.
STEP 1: Convert Input(s) to Base Unit
Gas Phase MTC: 11.96 Meter per Second --> 11.96 Meter per Second No Conversion Required
Interfacial Area using Contactor: 0.11 1 per Meter --> 0.11 1 per Meter No Conversion Required
Partial Pressure of Reactant A: 19 Pascal --> 19 Pascal No Conversion Required
Partial Pressure of Reactant A at Interface: 17.1 Pascal --> 17.1 Pascal No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
r''''A = -(kAg *a*(pA-pAi)) --> -(11.96*0.11*(19-17.1))
Evaluating ... ...
r''''A = -2.49964
STEP 3: Convert Result to Output's Unit
-2.49964 Mole per Cubic Meter Second --> No Conversion Required
FINAL ANSWER
-2.49964 Mole per Cubic Meter Second <-- Overall Reaction Rate based on Volume of Contactor
(Calculation completed in 00.020 seconds)

Credits

Creator Image
Created by Pavan Kumar
Anurag Group of Institutions (AGI), Hyderabad
Pavan Kumar has created this Calculator and 100+ more calculators!
Verifier Image
Verified by Prerana Bakli
University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA
Prerana Bakli has verified this Calculator and 1600+ more calculators!

Fluid Fluid Reactions Kinetics Calculators

Interfacial Area of Contactor
​ LaTeX ​ Go Interfacial Area using Contactor = Interfacial Surface Area of Contactor/Volume of Contactor
Interfacial Area of Liquid in Contactor
​ LaTeX ​ Go Interfacial Area of Liquid = Interfacial Surface Area of Contactor/Volume of Liquid
Fraction of Liquid in Fluid Kinetics
​ LaTeX ​ Go Fraction of Liquid = Volume of Liquid/Volume of Contactor
Fraction of Gas in Fluid Fluid Kinetics
​ LaTeX ​ Go Fraction of Gas = Volume of Gas/Volume of Contactor

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

​LaTeX ​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))
r''''A = -(kAg *a*(pA-pAi))

How the Partial Pressure of Reactant is Calculated at Interface?

The partial pressure of a reactant at the interface (or the gas-liquid interface) in a chemical reaction is determined by the equilibrium condition between the gas and liquid phases. This equilibrium condition is described by Henry's Law, which states that at a given temperature, the concentration of a gas in a liquid is directly proportional to its partial pressure in the gas phase.

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

Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor calculator uses 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)) to calculate the Overall Reaction Rate based on Volume of Contactor, The Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor formula is defined as Rate of Reaction, when Gas Phase Mass Transfer Coefficient, Unit Volume of Contactor and Partial Pressure are Considered for Calculation. Overall Reaction Rate based on Volume of Contactor is denoted by r''''A symbol.

How to calculate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor using this online calculator? To use this online calculator for Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor, enter Gas Phase MTC (kAg ), Interfacial Area using Contactor (a), Partial Pressure of Reactant A (pA) & Partial Pressure of Reactant A at Interface (pAi) and hit the calculate button. Here is how the Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor calculation can be explained with given input values -> -0.09196 = -(11.96*0.11*(19-17.1)).

FAQ

What is Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor?
The Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor formula is defined as Rate of Reaction, when Gas Phase Mass Transfer Coefficient, Unit Volume of Contactor and Partial Pressure are Considered for Calculation and is represented as r''''A = -(kAg *a*(pA-pAi)) or 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)). Gas Phase MTC describes the efficiency of mass transfer between a gas phase and a liquid phase in a system, Interfacial Area using Contactor refers to the Reacted Area of the Contactor, Partial Pressure of Reactant A is the pressure that an individual reactant exerts in a mixture of gases at given temperature & Partial Pressure of Reactant A at Interface is the Partial Pressure calculated, when the Reactant is at the Interphase of Gas-Liquid Film.
How to calculate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor?
The Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor formula is defined as Rate of Reaction, when Gas Phase Mass Transfer Coefficient, Unit Volume of Contactor and Partial Pressure are Considered for Calculation is calculated using 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)). To calculate Rate Equation of Reactant A for Straight Mass Transfer for Gas Film using Volume of Contactor, you need Gas Phase MTC (kAg ), Interfacial Area using Contactor (a), Partial Pressure of Reactant A (pA) & Partial Pressure of Reactant A at Interface (pAi). With our tool, you need to enter the respective value for Gas Phase MTC, Interfacial Area using Contactor, Partial Pressure of Reactant A & Partial Pressure of Reactant A at Interface 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 Overall Reaction Rate based on Volume of Contactor?
In this formula, Overall Reaction Rate based on Volume of Contactor uses Gas Phase MTC, Interfacial Area using Contactor, Partial Pressure of Reactant A & Partial Pressure of Reactant A at Interface. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • 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))
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!