Given the following adsorption data of Shen and Smith (1968), and using theFreundlich isotherm, 0 = cp¹/¹¹, as well as the number of moles adsorbed corresponding tomonolayer adsorption, with Freundlich constants provided for 70, 90 and 130 °C:Partial pressure ofbenzene, atm5.0 x 1041.0 x 10-³2.0 x 10-³5.0 x 10-³1.0 x 10-²2.0 x 10-²nсT, moles adsorbed per gram of gel, x10590°C110°C6.72.611.24.518.07.833.017.051.027.078.042.01.108 x10-³70°C14.022.034.068.088.0-Cm (mol/g gel): 1.302 x10-³'m1.57913.481.5089.7377.253 x104130°C1.132.03.98.616.026.06.627 X10-41.15612.32a. Derive a linearized form of the Freundlich isotherm. What values of y and x should youuse to determine the Freundlich constants?b. Determine the Freundlich constants, n and c, at 110°C.c. Derive a function p = f(0) to relate pressure (in atm) with surface coverage. d. Determine the isosteric heats of adsorption for 0 = 0.25, 0.50 and 0.75.e. Does the trend of isosteric heat of adsorption follow Freundlich's assumption? Showvia regression or plot.

Given the following adsorption data of Shen and Smith (1968), and using the Freundlich isotherm, 0 = cp¹/n, as well as the number of moles adsorbed corresponding to monolayer adsorption, with Freundlich constants provided for 70, 90 and 130 °C: Partial pressure of benzene, atm 5.0 x 104 1.0 x 10³ 2.0 x 10-³ 5.0 x 10-3 1.0 x 10-² 2.0 x 10-² n T, moles adsorbed per gram of gel, x105 90°C 6.7 11.2 18.0 Tm (mol/g gel): 1.302 x10-³ 'm C 70°C 14.0 22.0 34.0 68.0 88.0 1.579 13.48 33.0 51.0 78.0 1.108 x10-³ 1.508 9.737 110°C 2.6 4.5 7.8 17.0 27.0 42.0 7.253 X10-4 130°C 1.13 2.0 3.9 8.6 16.0 26.0 6.627 X10-4 1.156 12.32 a. Derive a linearized form of the Freundlich isotherm. What values of y and x should you use to determine the Freundlich constants? b. Determine the Freundlich constants, n and c, at 110°C. c. Derive a function p = f(0) to relate pressure (in atm) with surface coverage.

Given the following adsorption data of Shen and Smith (1968), and using the Freundlich isotherm, 0 = cp¹/n, as well as the number of moles adsorbed corresponding to monolayer adsorption, with Freundlich constants provided for 70, 90 and 130 °C: Partial pressure of benzene, atm 5.0 x 104 1.0 x 10³ 2.0 x 10-³ 5.0 x 10-3 1.0 x 10-² 2.0 x 10-² n T, moles adsorbed per gram of gel, x105 90°C 6.7 11.2 18.0 Tm (mol/g gel): 1.302 x10-³ 'm C 70°C 14.0 22.0 34.0 68.0 88.0 1.579 13.48 33.0 51.0 78.0 1.108 x10-³ 1.508 9.737 110°C 2.6 4.5 7.8 17.0 27.0 42.0 7.253 X10-4 130°C 1.13 2.0 3.9 8.6 16.0 26.0 6.627 X10-4 1.156 12.32 a. Derive a linearized form of the Freundlich isotherm. What values of y and x should you use to determine the Freundlich constants? b. Determine the Freundlich constants, n and c, at 110°C. c. Derive a function p = f(0) to relate pressure (in atm) with surface coverage.

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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Question

Given the following adsorption data of Shen and Smith (1968), and using the
Freundlich isotherm, 0 = cp¹/¹¹, as well as the number of moles adsorbed corresponding to
monolayer adsorption, with Freundlich constants provided for 70, 90 and 130 °C:
Partial pressure of
benzene, atm
5.0 x 104
1.0 x 10-³
2.0 x 10-³
5.0 x 10-³
1.0 x 10-²
2.0 x 10-²
n
с
T, moles adsorbed per gram of gel, x105
90°C
110°C
6.7
2.6
11.2
4.5
18.0
7.8
33.0
17.0
51.0
27.0
78.0
42.0
1.108 x10-³
70°C
14.0
22.0
34.0
68.0
88.0
-
Cm (mol/g gel): 1.302 x10-³
'm
1.579
13.48
1.508
9.737
7.253 x104
130°C
1.13
2.0
3.9
8.6
16.0
26.0
6.627 X10-4
1.156
12.32
a. Derive a linearized form of the Freundlich isotherm. What values of y and x should you
use to determine the Freundlich constants?
b. Determine the Freundlich constants, n and c, at 110°C.
c. Derive a function p = f(0) to relate pressure (in atm) with surface coverage.

d. Determine the isosteric heats of adsorption for 0 = 0.25, 0.50 and 0.75.
e. Does the trend of isosteric heat of adsorption follow Freundlich's assumption? Show
via regression or plot.

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