i- Estimate the diffusivity of carbon oxide (CO2) in air at 330 K and 1.2 bar applying the following formula and the data given in Table Q1. 3.03 DAB = 0.98 MOS P MOS (10-3) T15 - АВ %3D .2 AB AB D where; DAB = diffusion coefficient, cm²/sec %3D MA, MB= molecular weights of A and B, respectively %3D T= temperature, °K P= Pressure, bar OAB= collision diameter, angstrom N,= diffusion collision integral, dimensionless Given the following: Man = 2 G, + J AB = 0.5(0A +OB), MB 0.5 EAB %3D K.

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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(Table Q1) Intermolecular forces parameters and critical properties
Lennard-Jones
Parameters (9, 10)
Critical Constants (11-14)
ke
(cal s-1
cm-1°K-)
x10
Molccular
V.
(cm
(atm) g-mole) x10
(g cm-1
sec-l)
Wt.
€/K
CK)
T.
(K)
P.
Substance
M
(A)
Simple polyatomic substances:
Air
28.97
3.617
97.0
132
36.4
86.6
193
90.8
N2
O2
28.02
3.681
91.5
126.2
154.4
33.5
90.1
180
86.8
32.00
3.433
113
49.7
74.4
250
105.3
48.00
268
67
89.4
93.1
CO
28.01
3,590
110
133
34.5
190
86.5
CO
44.01
3.996
190
304.2
72.9
94.0
343
122
NO
30.01
3.470
119
180
64
57
258
118.2
N,0
SO2
F2
Cl2
Br2
44.02
3.879
309.7
430.7
220
71.7
96.3
332
131
64.07
4.290
252
77.8
122
411
98 6
38.00
3.653
112
70.91
4.115
357
417
76.1
124
420
97.0
159.83
253.82
4.268
520
584
102
144
Activa
4.982
550
800
Go to S
ΩμΩk
(for viscosity
(for viscosity
QDAB
KT/e
2DAB
ch
Transcribed Image Text:(Table Q1) Intermolecular forces parameters and critical properties Lennard-Jones Parameters (9, 10) Critical Constants (11-14) ke (cal s-1 cm-1°K-) x10 Molccular V. (cm (atm) g-mole) x10 (g cm-1 sec-l) Wt. €/K CK) T. (K) P. Substance M (A) Simple polyatomic substances: Air 28.97 3.617 97.0 132 36.4 86.6 193 90.8 N2 O2 28.02 3.681 91.5 126.2 154.4 33.5 90.1 180 86.8 32.00 3.433 113 49.7 74.4 250 105.3 48.00 268 67 89.4 93.1 CO 28.01 3,590 110 133 34.5 190 86.5 CO 44.01 3.996 190 304.2 72.9 94.0 343 122 NO 30.01 3.470 119 180 64 57 258 118.2 N,0 SO2 F2 Cl2 Br2 44.02 3.879 309.7 430.7 220 71.7 96.3 332 131 64.07 4.290 252 77.8 122 411 98 6 38.00 3.653 112 70.91 4.115 357 417 76.1 124 420 97.0 159.83 253.82 4.268 520 584 102 144 Activa 4.982 550 800 Go to S ΩμΩk (for viscosity (for viscosity QDAB KT/e 2DAB ch
ers/a/Downloads/CHPE305-Assignment%201-Spring%202020-2021%20(1).pdf
-Spring 2020-2021 (1).pdf
2/4
100%
Q1)
i- Estimate the diffusivity of carbon oxide (CO2) in air at 330 K and 1.2 bar applying the
following formula and the data given in Table Q1.
0.98
(10-3) T1.5
3.03
MOS
DAB
P M AB D
where;
DAB = diffusion coefficient, cm²/sec
MA, MB= molecular weights of A and B, respectively
T= temperature, °K
P= Pressure, bar
OAB= collision diameter, angstrom
Np = diffusion collision integral, dimensionless.
Given the following:
-1
MAB
O AB = 0.5(0A +0B),
!!
0.5
- (4)
E AB
%3D
ctivate
to Sert
K
140 K
1131
Transcribed Image Text:ers/a/Downloads/CHPE305-Assignment%201-Spring%202020-2021%20(1).pdf -Spring 2020-2021 (1).pdf 2/4 100% Q1) i- Estimate the diffusivity of carbon oxide (CO2) in air at 330 K and 1.2 bar applying the following formula and the data given in Table Q1. 0.98 (10-3) T1.5 3.03 MOS DAB P M AB D where; DAB = diffusion coefficient, cm²/sec MA, MB= molecular weights of A and B, respectively T= temperature, °K P= Pressure, bar OAB= collision diameter, angstrom Np = diffusion collision integral, dimensionless. Given the following: -1 MAB O AB = 0.5(0A +0B), !! 0.5 - (4) E AB %3D ctivate to Sert K 140 K 1131
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