Using vapor pressure data using Antoine constants prepare a complete T-xx diagram for the binary system ethylbenzene and o-xylene at a system pressure of 0.8 atm. Be sure to show sufficient detail of your calculations (draw by hand, Your T-XX diagram should have mole fractions of the more volatile component on the x-axis. Roughly estimate how many equilibrium stages would be required in a distillation tower to achieve a distillate of 90% ethylbenzene, if one started with a feed mixture of 40% ethylbenzene / 60% o-xylene. log 10 p* = A-; B T + C Compound lbenzene Xylene Formula Range (°C) A B C C8H10 56.5 to 137.1 6.95650 1423.543 213.091 0-C8H10 63.5 to 145.4 7.00154 1476.393 213.872

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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Using vapor pressure data using Antoine constants prepare a complete T-XX diagram for
the binary system ethylbenzene and o-xylene at a system pressure of 0.8 atm. Be sure
to show sufficient detail of your calculations (draw by hand, Your T-XX diagram should
have mole fractions of the more volatile component on the x-axis. Roughly estimate
how many equilibrium stages would be required in a distillation tower to achieve a
distillate of 90% ethylbenzene, if one started with a feed mixture of 40% ethylbenzene /
60% o-xylene.
B
Compound
Ethylbenzene
o-Xylene
log 10 p* =
= A
-
T + C
Formula
Range (°C)
A
B
C
C8H10
0-C8H10
56.5 to 137.1
63.5 to 145.4
6.95650 1423.543 213.091
7.00154
1476.393 213.872
Transcribed Image Text:Using vapor pressure data using Antoine constants prepare a complete T-XX diagram for the binary system ethylbenzene and o-xylene at a system pressure of 0.8 atm. Be sure to show sufficient detail of your calculations (draw by hand, Your T-XX diagram should have mole fractions of the more volatile component on the x-axis. Roughly estimate how many equilibrium stages would be required in a distillation tower to achieve a distillate of 90% ethylbenzene, if one started with a feed mixture of 40% ethylbenzene / 60% o-xylene. B Compound Ethylbenzene o-Xylene log 10 p* = = A - T + C Formula Range (°C) A B C C8H10 0-C8H10 56.5 to 137.1 63.5 to 145.4 6.95650 1423.543 213.091 7.00154 1476.393 213.872
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