Consider a feed stream consisting of three components and flowing at 1 mol/min as in the following figure. The stream is separated into two streams D and R. 1 mol/min XIA (mol A/mol) X1B (mol B/mol) Xic (mol C/mol) STILL D (mol/min) YA (mol A/mol) YB (mol B/mol) Yc (mol C/mol) R (mol/min) XA (mol A/mol) XB (mol B/mol) Xc (mol C/mol) with XfA=0.3 X/B=0.311 Xfc = 0.389 Suppose it is known that xe = 0.455, y₁= 0.258, and yв = 0.448. What are the values of the remaining process variables? Have a degree of freedom analysis first on the ternary still.

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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Consider a feed stream consisting of three components and flowing at 1 mol/min as in the following
figure. The stream is separated into two streams D and R.
1 mol/min
X₁A (mol A/mol)
X1B (mol B/mol)
Xic (mol C/mol)
STILL
D (mol/min)
YA (mol A/mol)
YB (mol B/mol)
Yc (mol C/mol)
R (mol/min)
XA (mol A/mol)
XB (mol B/mol)
Xc (mol C/mol)
with
XfA=0.3
X/B=0.311
Xfc = 0.389
Suppose it is known that xe = 0.455, y₁= 0.258, and yв = 0.448. What are the values of the remaining
process variables? Have a degree of freedom analysis first on the ternary still.
Transcribed Image Text:Consider a feed stream consisting of three components and flowing at 1 mol/min as in the following figure. The stream is separated into two streams D and R. 1 mol/min X₁A (mol A/mol) X1B (mol B/mol) Xic (mol C/mol) STILL D (mol/min) YA (mol A/mol) YB (mol B/mol) Yc (mol C/mol) R (mol/min) XA (mol A/mol) XB (mol B/mol) Xc (mol C/mol) with XfA=0.3 X/B=0.311 Xfc = 0.389 Suppose it is known that xe = 0.455, y₁= 0.258, and yв = 0.448. What are the values of the remaining process variables? Have a degree of freedom analysis first on the ternary still.
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