Volume of Fluid returned to Reactor Entrance Calculator

✖Volume Discharged is the volume leaving the system.ⓘ Volume Discharged [V_D]			+10% -10%
✖Recycle Ratio is defined as volume of feed, returned to the reactor entrance divided by the volume of the leaving streams.ⓘ Recycle Ratio [R]			+10% -10%

✖Volume Returned is the volume of the fluid returned to reactor entrance.ⓘ Volume of Fluid returned to Reactor Entrance [V_R]

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Volume of Fluid returned to Reactor Entrance Solution

STEP 0: Pre-Calculation Summary

Formula Used

Volume Returned = Volume Discharged*Recycle Ratio
V_R = V_D*R
This formula uses 3 Variables

Variables Used

Volume Returned - (Measured in Cubic Meter) - Volume Returned is the volume of the fluid returned to reactor entrance.
Volume Discharged - (Measured in Cubic Meter) - Volume Discharged is the volume leaving the system.
Recycle Ratio - Recycle Ratio is defined as volume of feed, returned to the reactor entrance divided by the volume of the leaving streams.

STEP 1: Convert Input(s) to Base Unit

Volume Discharged: 133.33 Cubic Meter --> 133.33 Cubic Meter No Conversion Required
Recycle Ratio: 0.3 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_R = V_D*R --> 133.33*0.3

Evaluating ... ...

V_R = 39.999

STEP 3: Convert Result to Output's Unit

39.999 Cubic Meter --> No Conversion Required

FINAL ANSWER

39.999 Cubic Meter <-- Volume Returned

(Calculation completed in 00.004 seconds)

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Created by akhilesh

K. K. Wagh Institute of Engineering Education and Research (K.K.W.I.E.E.R.), Nashik

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< Recycle Reactor Calculators

Rate Constant for First Order Reaction using Recycle Ratio

LaTeX Go Rate Constant for First Order Reaction = ((Recycle Ratio+1)/Space Time)*ln((Initial Reactant Concentration+(Recycle Ratio*Final Reactant Concentration))/((Recycle Ratio+1)*Final Reactant Concentration))

Recycle Ratio using Reactant Conversion

LaTeX Go Recycle Ratio = 1/((Final Reactant Conversion/Total Feed Reactant Conversion)-1)

Recycle Ratio using Total Feed Rate

LaTeX Go Recycle Ratio = (Total Molar Feed Rate/Fresh Molar Feed Rate)-1

Recycle Ratio

LaTeX Go Recycle Ratio = Volume Returned/Volume Discharged

< Important Formulas in Design of Reactors and Recycle Reactors for Single Reactions Calculators

Initial Reactant Concentration for First Order Reaction using Reaction Rate

LaTeX Go Initial Reactant Concentration = (Adjusted Retention Time of Comp 2*Reaction Rate for Vessel i)/(Reactant Conversion of Vessel i-1-Reactant Conversion of Vessel i)

Initial Reactant Concentration for First Order Reaction in Vessel i

LaTeX Go Reactant Concentration in Vessel i-1 = Reactant Concentration in Vessel i*(1+(Rate Constant for First Order Reaction*Adjusted Retention Time of Comp 2))

Reactant Concentration for First Order Reaction in Vessel i

LaTeX Go Reactant Concentration in Vessel i = Reactant Concentration in Vessel i-1/(1+(Rate Constant for First Order Reaction*Adjusted Retention Time of Comp 2))

Initial Reactant Concentration for Second Order Reaction for Plug Flow or Infinite Reactors

LaTeX Go Initial Reactant Concentration = 1/((1/Reactant Concentration)-(Rate Constant for Second Order Reaction*Space Time for Plug Flow Reactor))

Volume of Fluid returned to Reactor Entrance Formula

LaTeX Go

Volume Returned = Volume Discharged*Recycle Ratio
V_R = V_D*R

What is recycle in chemical engineering?

The essentials of the recycling method are that the mixture of both reacted and unreacted products reaches a separating system beyond the reactor where these products are separated from each other; then the unreacted part mixes with the fresh feed stock and the resulting mixture is passed into the reactor.

Why is chemical recycling important?

Chemical recycling could reduce the amount of plastic that ends up in landfills, thereby potentially reducing the release of harmful chemicals into the environment. Chemical recycling can also produce high-quality raw materials, thereby decreasing demand for fossil fuels and other natural resources.

How to Calculate Volume of Fluid returned to Reactor Entrance?

Volume of Fluid returned to Reactor Entrance calculator uses Volume Returned = Volume Discharged*Recycle Ratio to calculate the Volume Returned, The Volume of Fluid returned to Reactor Entrance formula is defined as the amount of fluid feed which is diverted back to reactor with the new feed after exiting the system. Volume Returned is denoted by V_R symbol.

How to calculate Volume of Fluid returned to Reactor Entrance using this online calculator? To use this online calculator for Volume of Fluid returned to Reactor Entrance, enter Volume Discharged (V_D) & Recycle Ratio (R) and hit the calculate button. Here is how the Volume of Fluid returned to Reactor Entrance calculation can be explained with given input values -> 39.999 = 133.33*0.3.

FAQ

What is Volume of Fluid returned to Reactor Entrance?

The Volume of Fluid returned to Reactor Entrance formula is defined as the amount of fluid feed which is diverted back to reactor with the new feed after exiting the system and is represented as V_R = V_D*R or Volume Returned = Volume Discharged*Recycle Ratio. Volume Discharged is the volume leaving the system & Recycle Ratio is defined as volume of feed, returned to the reactor entrance divided by the volume of the leaving streams.

How to calculate Volume of Fluid returned to Reactor Entrance?

The Volume of Fluid returned to Reactor Entrance formula is defined as the amount of fluid feed which is diverted back to reactor with the new feed after exiting the system is calculated using Volume Returned = Volume Discharged*Recycle Ratio. To calculate Volume of Fluid returned to Reactor Entrance, you need Volume Discharged (V_D) & Recycle Ratio (R). With our tool, you need to enter the respective value for Volume Discharged & Recycle Ratio 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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