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Space Time for Second Order Reaction using Rate Constant for Mixed Flow Calculator

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Mixed Flow Plug Flow or Batch

✖Rate Constant for Second Order Reaction in MFR is defined as the average rate of the reaction per concentration of the reactant having power raised to 2.ⓘ Rate Constant for Second Order Reaction in MFR [k^{'' MFR}]			+10% -10%
✖The Initial Reactant Concentration in MFR refers to the amount of reactant present in the solvent before the considered process.ⓘ Initial Reactant Concentration in MFR [C_o-MFR]			+10% -10%
✖Reactant Conversion in MFR gives us the percentage of reactants converted into products. Enter the percentage as a decimal between 0 and 1.ⓘ Reactant Conversion in MFR [X_MFR]			+10% -10%
✖Fractional Volume Change in Reactor is the ratio of the change in volume and the initial volume.ⓘ Fractional Volume Change in Reactor [ε]			+10% -10%

✖Space Time for Mixed Flow is the time necessary to process volume of reactor fluid at the entrance conditions.ⓘ Space Time for Second Order Reaction using Rate Constant for Mixed Flow [𝛕_MixedFlow]

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Space Time for Second Order Reaction using Rate Constant for Mixed Flow Solution

STEP 0: Pre-Calculation Summary

Formula Used

Space Time for Mixed Flow = (1/Rate Constant for Second Order Reaction in MFR*Initial Reactant Concentration in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR))^2)/(1-Reactant Conversion in MFR)^2)
𝛕_MixedFlow = (1/k^{'' MFR}*C_o-MFR)*((X_MFR*(1+(ε*X_MFR))^2)/(1-X_MFR)^2)
This formula uses 5 Variables

Variables Used

Space Time for Mixed Flow - (Measured in Second) - Space Time for Mixed Flow is the time necessary to process volume of reactor fluid at the entrance conditions.
Rate Constant for Second Order Reaction in MFR - (Measured in Cubic Meter per Mole Second) - Rate Constant for Second Order Reaction in MFR is defined as the average rate of the reaction per concentration of the reactant having power raised to 2.
Initial Reactant Concentration in MFR - (Measured in Mole per Cubic Meter) - The Initial Reactant Concentration in MFR refers to the amount of reactant present in the solvent before the considered process.
Reactant Conversion in MFR - Reactant Conversion in MFR gives us the percentage of reactants converted into products. Enter the percentage as a decimal between 0 and 1.
Fractional Volume Change in Reactor - Fractional Volume Change in Reactor is the ratio of the change in volume and the initial volume.

STEP 1: Convert Input(s) to Base Unit

Rate Constant for Second Order Reaction in MFR: 0.0607 Cubic Meter per Mole Second --> 0.0607 Cubic Meter per Mole Second No Conversion Required
Initial Reactant Concentration in MFR: 81 Mole per Cubic Meter --> 81 Mole per Cubic Meter No Conversion Required
Reactant Conversion in MFR: 0.702 --> No Conversion Required
Fractional Volume Change in Reactor: 0.21 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

𝛕_MixedFlow = (1/k^{'' MFR}*C_o-MFR)*((X_MFR*(1+(ε*X_MFR))^2)/(1-X_MFR)^2) --> (1/0.0607*81)*((0.702*(1+(0.21*0.702))^2)/(1-0.702)^2)

Evaluating ... ...

𝛕_MixedFlow = 13888.1929914805

STEP 3: Convert Result to Output's Unit

13888.1929914805 Second --> No Conversion Required

FINAL ANSWER

13888.1929914805 ≈ 13888.19 Second <-- Space Time for Mixed Flow

(Calculation completed in 00.020 seconds)

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< Mixed Flow Calculators

Initial Reactant Concentration for Zero Order Reaction for Mixed Flow

LaTeX Go Initial Reactant Concentration in MFR = (Rate Constant for Zero Order Reaction in MFR*Space Time in MFR)/Reactant Conversion in MFR

Space Time for Zero Order Reaction using Rate Constant for Mixed Flow

LaTeX Go Space Time in MFR = (Reactant Conversion in MFR*Initial Reactant Concentration in MFR)/Rate Constant for Zero Order Reaction in MFR

Reactant Conversion for Zero Order Reaction for Mixed Flow

LaTeX Go Reactant Conversion in MFR = (Rate Constant for Zero Order Reaction in MFR*Space Time in MFR)/Initial Reactant Concentration in MFR

Rate Constant for Zero Order Reaction for Mixed Flow

LaTeX Go Rate Constant for Zero Order Reaction in MFR = (Reactant Conversion in MFR*Initial Reactant Concentration in MFR)/Space Time in MFR

< Reactor Performance Equations for Variable Volume Reactions Calculators

Initial Reactant Concentration for Second Order Reaction for Mixed Flow

LaTeX Go Initial Reactant Conc for 2nd Order Mixed Flow = (1/Space Time in MFR*Rate Constant for Second Order Reaction in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR))^2)/(1-Reactant Conversion in MFR)^2)

Rate Constant for Second Order Reaction for Mixed Flow

LaTeX Go Rate Constant for 2ndOrder Reaction for Mixed Flow = (1/Space Time in MFR*Initial Reactant Concentration in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR))^2)/(1-Reactant Conversion in MFR)^2)

Rate Constant for First Order Reaction for Mixed Flow

LaTeX Go Rate Constant for First Order Reaction in MFR = (1/Space Time in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR)))/(1-Reactant Conversion in MFR))

Initial Reactant Concentration for Zero Order Reaction for Mixed Flow

LaTeX Go Initial Reactant Concentration in MFR = (Rate Constant for Zero Order Reaction in MFR*Space Time in MFR)/Reactant Conversion in MFR

Space Time for Second Order Reaction using Rate Constant for Mixed Flow Formula

LaTeX Go

What is continuous stirred-tank reactor?

The continuous stirred-tank reactor (CSTR), also known as vat- or backmix reactor, mixed flow reactor (MFR), or a continuous-flow stirred-tank reactor (CFSTR), is a common model for a chemical reactor in chemical engineering and environmental engineering. A CSTR often refers to a model used to estimate the key unit operation variables when using a continuous agitated-tank reactor to reach a specified output. The mathematical model works for all fluids: liquids, gases, and slurries.

How to Calculate Space Time for Second Order Reaction using Rate Constant for Mixed Flow?

Space Time for Second Order Reaction using Rate Constant for Mixed Flow calculator uses Space Time for Mixed Flow = (1/Rate Constant for Second Order Reaction in MFR*Initial Reactant Concentration in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR))^2)/(1-Reactant Conversion in MFR)^2) to calculate the Space Time for Mixed Flow, The Space Time for Second Order Reaction using Rate Constant for Mixed Flow formula is defined ast he time necessary to process volume of reactor fluid for second order reaction where fractional volume change is considerable for mixed flow. Space Time for Mixed Flow is denoted by 𝛕_MixedFlow symbol.

How to calculate Space Time for Second Order Reaction using Rate Constant for Mixed Flow using this online calculator? To use this online calculator for Space Time for Second Order Reaction using Rate Constant for Mixed Flow, enter Rate Constant for Second Order Reaction in MFR (k^{'' MFR}), Initial Reactant Concentration in MFR (C_o-MFR), Reactant Conversion in MFR (X_MFR) & Fractional Volume Change in Reactor (ε) and hit the calculate button. Here is how the Space Time for Second Order Reaction using Rate Constant for Mixed Flow calculation can be explained with given input values -> 13654.59 = (1/0.0607*81)*((0.702*(1+(0.21*0.702))^2)/(1-0.702)^2).

FAQ

What is Space Time for Second Order Reaction using Rate Constant for Mixed Flow?

The Space Time for Second Order Reaction using Rate Constant for Mixed Flow formula is defined ast he time necessary to process volume of reactor fluid for second order reaction where fractional volume change is considerable for mixed flow and is represented as 𝛕_MixedFlow = (1/k^{'' MFR}*C_o-MFR)*((X_MFR*(1+(ε*X_MFR))^2)/(1-X_MFR)^2) or Space Time for Mixed Flow = (1/Rate Constant for Second Order Reaction in MFR*Initial Reactant Concentration in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR))^2)/(1-Reactant Conversion in MFR)^2). Rate Constant for Second Order Reaction in MFR is defined as the average rate of the reaction per concentration of the reactant having power raised to 2, The Initial Reactant Concentration in MFR refers to the amount of reactant present in the solvent before the considered process, Reactant Conversion in MFR gives us the percentage of reactants converted into products. Enter the percentage as a decimal between 0 and 1 & Fractional Volume Change in Reactor is the ratio of the change in volume and the initial volume.

How to calculate Space Time for Second Order Reaction using Rate Constant for Mixed Flow?

The Space Time for Second Order Reaction using Rate Constant for Mixed Flow formula is defined ast he time necessary to process volume of reactor fluid for second order reaction where fractional volume change is considerable for mixed flow is calculated using Space Time for Mixed Flow = (1/Rate Constant for Second Order Reaction in MFR*Initial Reactant Concentration in MFR)*((Reactant Conversion in MFR*(1+(Fractional Volume Change in Reactor*Reactant Conversion in MFR))^2)/(1-Reactant Conversion in MFR)^2). To calculate Space Time for Second Order Reaction using Rate Constant for Mixed Flow, you need Rate Constant for Second Order Reaction in MFR (k^{'' MFR}), Initial Reactant Concentration in MFR (C_o-MFR), Reactant Conversion in MFR (X_MFR) & Fractional Volume Change in Reactor (ε). With our tool, you need to enter the respective value for Rate Constant for Second Order Reaction in MFR, Initial Reactant Concentration in MFR, Reactant Conversion in MFR & Fractional Volume Change in Reactor 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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