01: A liquid-phase reaction A+B C takes place in a 10.0-liter continuous stirred- tank reactor. The reactor may be considered perfectly mixed, so that the contents are uniform and the concentrations of A and B in the product stream equal that inside the tank. The tank is initially filled with a solution that contains 1.2 mol A/L, and the inlet and outlet flows then begin. 0.15 L/s rate of reaction = 0.01CACB (mol/L.s) 10.0 mol A/L 15 mol B/s V = 10 L 0.15 L/s CA(mol A/L) CB(mol B/L) 1- Write a balance equation on species A, B and C in the tank and provide an initial conditions. 2- Calculate conversion ratio of A, CA ,CB and Cc at the steady-state in the tank. 3- Calculate conversion ratio of A, CA.CB and Ce after t in the tank.

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
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01: A liquid-phase reaction A+B C takes place in a 10.0-liter continuous stirred-
tank reactor. The reactor may be considered perfectly mixed, so that the contents are
uniform and the concentrations of A and B in the product stream equal that inside the
tank. The tank is initially filled with a solution that contains 1.2 mol A/L, and the inlet
and outlet flows then begin.
0.15 L/s
rate of reaction = 0.01 CACB (mol/L.s)
10.0 mol A/L
15 mol B/s
V = 10 L 0.15 L/s
CA(mol A/L)
CB(mol B/L)
1- Write a balance equation on species A, B and C in the tank and provide an initial
conditions.
2- Calculate conversion ratio of A, CA, CB and Cc at the steady-state in the tank.
3- Calculate conversion ratio of A, CA,CB and Cc after t in the tank.
Transcribed Image Text:01: A liquid-phase reaction A+B C takes place in a 10.0-liter continuous stirred- tank reactor. The reactor may be considered perfectly mixed, so that the contents are uniform and the concentrations of A and B in the product stream equal that inside the tank. The tank is initially filled with a solution that contains 1.2 mol A/L, and the inlet and outlet flows then begin. 0.15 L/s rate of reaction = 0.01 CACB (mol/L.s) 10.0 mol A/L 15 mol B/s V = 10 L 0.15 L/s CA(mol A/L) CB(mol B/L) 1- Write a balance equation on species A, B and C in the tank and provide an initial conditions. 2- Calculate conversion ratio of A, CA, CB and Cc at the steady-state in the tank. 3- Calculate conversion ratio of A, CA,CB and Cc after t in the tank.
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