P (mm Mass Humidity Mole Fraction Hg) (kg/kg DG) (mol/mol WG) 45% Relative Humidity (%) Dew T (°C) 70% 31 1140 0.08 55% Vapor-Gas Mixture T (°C) Benzene(1)/Nitrogen(2) Water(1)/Air(2) 1: condensable vapor, 2: non-condensable gas Additional information: log 10 = psat [mm Hg] A- B C 78 6.90565 1211.033 220.790 18 8.14019 1810.94 244.485 B Component MW T[°C] + C Benzene Water
P (mm Mass Humidity Mole Fraction Hg) (kg/kg DG) (mol/mol WG) 45% Relative Humidity (%) Dew T (°C) 70% 31 1140 0.08 55% Vapor-Gas Mixture T (°C) Benzene(1)/Nitrogen(2) Water(1)/Air(2) 1: condensable vapor, 2: non-condensable gas Additional information: log 10 = psat [mm Hg] A- B C 78 6.90565 1211.033 220.790 18 8.14019 1810.94 244.485 B Component MW T[°C] + C Benzene Water
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
Please fill in any missing information and show the solution.
![P (mm
Mass Humidity
Mole Fraction
Relative
Dew T
Vapor-Gas M ixture
T (°C)
Hg)
(kg/kg DG)
(mol/mol WG)
Humidity (%)
(°C)
Benzene(1)/Nitrogen(2)
Water(1)/Air(2)
1: condensable vapor, 2: non-condensable gas
45%
70%
31
1140
0.08
55%
Additional information:
Component
MW
A
C
psat [mm Hg] = A –
log 10
T[°C] + C
Benzene
78
6.90565
1211.033
220.790
Water
18
8.14019
1810.94
244.485](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2340a04f-8c2e-489b-9d39-3b3d459d070b%2F2684de2c-babd-4e51-8f79-3e1ab258ffb3%2F8tdwnmq_processed.png&w=3840&q=75)
Transcribed Image Text:P (mm
Mass Humidity
Mole Fraction
Relative
Dew T
Vapor-Gas M ixture
T (°C)
Hg)
(kg/kg DG)
(mol/mol WG)
Humidity (%)
(°C)
Benzene(1)/Nitrogen(2)
Water(1)/Air(2)
1: condensable vapor, 2: non-condensable gas
45%
70%
31
1140
0.08
55%
Additional information:
Component
MW
A
C
psat [mm Hg] = A –
log 10
T[°C] + C
Benzene
78
6.90565
1211.033
220.790
Water
18
8.14019
1810.94
244.485
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