The following liquid phase reaction is taking place in an isothermal constant volume batch reactor: A → R→S = mol L The reaction A → R is a zero-order reaction with a kinetic constant of k₁ 0.15¹ while the reaction RS is a first-order reaction with a kinetic constant of k₂ = 0.009 min-¹. Pure A is used for this reactor with CAO 2.75 mol. Calculate the time required for CR to become 0.25 M. What is CA and Cs at this time? L Note: Derive the expressions (CA and CS vs. time) first before plugging the values.

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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Note: Derive the expressions (CA and CS vs. time) first before plugging in the values. please do not use excel. show all the necessary step/solutions. type the answer...

The following liquid phase reaction is taking place in an isothermal constant
volume batch reactor:
A → R→S
=
mol
L
The reaction A → R is a zero-order reaction with a kinetic constant of k₁
0.15¹ while the reaction RS is a first-order reaction with a kinetic
constant of k₂ = 0.009 min-¹. Pure A is used for this reactor with CAO
2.75
mol. Calculate the time required for CR to become 0.25 M. What is CA
and Cs at this time?
L
Note: Derive the expressions (CA and CS vs. time) first before plugging
the values.
Transcribed Image Text:The following liquid phase reaction is taking place in an isothermal constant volume batch reactor: A → R→S = mol L The reaction A → R is a zero-order reaction with a kinetic constant of k₁ 0.15¹ while the reaction RS is a first-order reaction with a kinetic constant of k₂ = 0.009 min-¹. Pure A is used for this reactor with CAO 2.75 mol. Calculate the time required for CR to become 0.25 M. What is CA and Cs at this time? L Note: Derive the expressions (CA and CS vs. time) first before plugging the values.
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