2- Following reaction is carried out in a plug flow reactor (PFR); A + 2B → C k=1.2 dm/mol.s The inlet concentration of A (Cae) 0.1 mol/dm³; If the volumetric flow rate of A (Fa0) is 4 dm/s, calculate the PFR volume necessary to achieve 60 % conversion (x)? PFR: V = FA, S* XAF dXA -ra = kCao(1 – Xa)(4 – 2X4) TA Use a numerical integration method with derivative, also write the name of method, name of the derivative method, step length of the derivative.
2- Following reaction is carried out in a plug flow reactor (PFR); A + 2B → C k=1.2 dm/mol.s The inlet concentration of A (Cae) 0.1 mol/dm³; If the volumetric flow rate of A (Fa0) is 4 dm/s, calculate the PFR volume necessary to achieve 60 % conversion (x)? PFR: V = FA, S* XAF dXA -ra = kCao(1 – Xa)(4 – 2X4) TA Use a numerical integration method with derivative, also write the name of method, name of the derivative method, step length of the derivative.
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
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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PLEASE SOLVE WITH NUMERICAL INTEGRAL METHOD.
Transcribed Image Text:2- Following reaction is carried out in a plug flow reactor (PFR);
k
А + 2B — с
k=1.2 dm/mol.s
The inlet concentration of A (CAe) 0.1 mol/dm3; If the volumetric flow rate of A (FA0) is 4
dm/s, calculate the PFR volume necessary to achieve 60 % conversion (x)?
PFR: V = FA, S
XAF dXA
-TA = kCao (1 – X4)(4 – 2X4)
-rA
Use a numerical integration method with derivative, also write the name of method, name of
the derivative method, step length of the derivative.
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